Product Description
Dedicated Couplings Adaptors for Ductile Iron Pipes ISO 2531/EN545 EN 14525, ANSI/AWWA C219
Description
SYI can supply the Dedicated Couplings dedicated Couplings, dedicated to connect the ductile iron pipe (upto DN2200)
SYI Dedicated Couplings DIMENSIONS
CHINAMFG S. N. |
DN |
pipe O.D. |
O.D. Tolerance |
D2 |
H |
L |
Min. pipe end prepared length |
|
|
mm |
|||||||
DC40 |
40 |
56 |
+1.0 |
-3.0 |
120 |
102 |
166 |
100 |
DC50 |
50 |
66 |
+1.0 |
-3.0 |
126 |
102 |
166 |
100 |
DC60 |
60 |
77 |
+1.0 |
-3.0 |
135 |
102 |
166 |
100 |
DC65 |
65 |
82 |
+1.0 |
-3.0 |
156 |
102 |
166 |
100 |
DC80 |
80 |
98 |
+1.0 |
-3.0 |
184 |
102 |
166 |
100 |
DC100 |
100 |
118 |
+1.0 |
-3.0 |
205 |
102 |
166 |
100 |
DC125 |
125 |
144 |
+1.0 |
-3.0 |
232 |
102 |
166 |
100 |
DC150 |
150 |
170 |
+1.0 |
-3.0 |
264 |
102 |
173 |
100 |
DC200 |
200 |
222 |
+1.0 |
-3.5 |
315 |
102 |
173 |
100 |
DC250 |
250 |
274 |
+1.0 |
-3.5 |
374 |
102 |
173 |
100 |
DC300 |
300 |
326 |
+1.0 |
-3.5 |
426 |
102 |
173 |
100 |
DC350 |
350 |
378 |
+1.0 |
-3.5 |
494 |
152 |
254 |
150 |
DC400 |
400 |
429 |
+1.0 |
-4.0 |
544 |
152 |
254 |
150 |
DC450 |
450 |
480 |
+1.0 |
-4.0 |
595 |
152 |
254 |
150 |
DC500 |
500 |
532 |
+1.0 |
-4.0 |
650 |
152 |
254 |
150 |
DC600 |
600 |
635 |
+1.0 |
-4.5 |
753 |
152 |
254 |
150 |
DC700 |
700 |
738 |
+1.0 |
-4.5 |
858 |
152 |
254 |
150 |
DC800 |
800 |
842 |
+1.0 |
-4.5 |
962 |
152 |
254 |
150 |
DC900 |
900 |
945 |
+1.0 |
-5.0 |
1070 |
178 |
280 |
150 |
DC1000 |
1000 |
1048 |
+1.0 |
-5.0 |
1173 |
178 |
280 |
150 |
DC1100 |
1100 |
1152 |
+1.0 |
-6.0 |
1282 |
178 |
280 |
150 |
DC1200 |
1200 |
1255 |
+1.0 |
-6.0 |
1385 |
178 |
280 |
150 |
DC1400 |
1400 |
1462 |
+1.0 |
-6.0 |
1592 |
178 |
295 |
150 |
DC1500 |
1500 |
1565 |
+1.0 |
-6.0 |
1691 |
178 |
295 |
150 |
DC1600 |
1600 |
1668 |
+1.0 |
-6.0 |
1798 |
178 |
295 |
150 |
DC1800 |
1800 |
1875 |
+1.0 |
-6.0 |
2015 |
254 |
375 |
150/300 |
DC2000 |
2000 |
2082 |
+1.0 |
-6.0 |
2222 |
254 |
375 |
150/300 |
DC2200 |
2200 |
2288 |
+1.0 |
-6.0 |
2415 |
254 |
375 |
150/300 |
For other sizes not mentioned above, please contact us. We have right to change the data without further notice.
1. Material
BODY: Ductile Iron grade 500-7/450-10 in accordance with ISO 1083 or 70-50-05/65-45-12 with ASTM A536
GLAND: Ductile Iron grade 500-7/450-10 in accordance with ISO 1083 or 70-50-05/65-45-12 with ASTM A536
GASKET: Rubber E.P.D.M./SBR/NBR in accordance with EN 681.1
D-BOLTS AND NUTS: Carbon Steel Grade 8.8 with dacromet coating
2. Working Pressure: 16 Bar or 250 PSI
3. Fluid Temperature: 0°C – 50°C, excluding frost
4. Allowed Angular Deflection: 6°
5. Joint Gap:19mm
6. Coating
External Coatings: |
Internal Coatings: |
7.Reference Rules
Designed and tested in accordance with EN14525, ANSI/AWWA C219 and EN545
Package
Packing: Different package CHINAMFG your request,like wood cases&pallets,ply-wood crates&pallets,steel crates&pallets and etc.
Quality Control
Company Profile
CHINAMFG has continually invested in better technology and production facilities. More than 4,000 patterns
are ready. We are capable to finish all the production processes from moulding, shot-blasting, machining, coating to packaging. We have over 100,000 m2 foundry land including:
-10,000 m2 of the pattern, sand mixing, polishing, machining, hydraulic pressure, coating, packaging workshops;
-4,000 m2 of 3 green sand moulding workshops and 1 resin sand moulding workshops;
-3,000 m2 of automatic moulding machine line and epoxy coating line
-professional laboratory
-machining shop
-and our own tooling shop
Strict process and operating regulations together with perfect quality assurance system making every production step under control. All the products are subject to tests and inspections including composition analysis, metallographic examination, dimension & surface finish inspection, ring test, tensile test, hardness test, hydrostatic test, CHINAMFG and coating test to be sure that the products meet the requirements of the standards.
Since 2009, CHINAMFG Pipeline has developed from a pipes & fittings seller to a professional project solution provider, including the 1 stop service and solution from pipes, fittings, couplings & flanged adaptors, valves, fire hydrants, to water CHINAMFG and accessories.
SYI products have served 111 countries CHINAMFG up to now!
Most of these customers cooperated with CHINAMFG for more than 20 years!
We value long term cooperation relationship mostly!
Welcome to send us an inquiry for more details and price!!!
P
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
After-sales Service: | Online Solution |
---|---|
Warranty: | 1 Year |
Connection: | Press Connection |
Structure: | Universal |
Flexible or Rigid: | Flexible |
Material: | Iron |
Samples: |
US$ 50/Piece
1 Piece(Min.Order) | |
---|
Customization: |
Available
| Customized Request |
---|
Can universal joints be used in precision manufacturing equipment?
Yes, universal joints can be used in precision manufacturing equipment, depending on the specific requirements and applications. Here’s a detailed explanation:
Precision manufacturing equipment often requires precise and reliable motion transmission between different components or subsystems. Universal joints can be employed in such equipment to facilitate the transmission of rotational motion and torque while accommodating misalignment or angular variations. However, their usage in precision manufacturing equipment is subject to certain considerations:
- Motion Transmission: Universal joints are effective in transmitting rotational motion and torque across misaligned or non-collinear shafts. In precision manufacturing equipment, where precise and synchronized motion is crucial, universal joints can provide flexibility and compensate for slight misalignments or angular variations, ensuring reliable motion transfer.
- Angular Accuracy: Precision manufacturing often requires maintaining precise angular accuracy during operation. While universal joints can accommodate misalignments, they introduce certain angular errors due to their design. These errors may be acceptable or manageable depending on the specific application. However, in cases where extremely tight angular accuracy is required, alternative motion transmission mechanisms, such as precision couplings or direct drives, might be preferred.
- Backlash and Play: Universal joints can exhibit a certain degree of backlash or play, which may affect the precision of the manufacturing process. Backlash refers to the slight movement or play that occurs when reversing the direction of rotation. In precision manufacturing equipment, minimizing backlash is often critical. Careful selection of high-quality universal joints or incorporating additional mechanisms to reduce backlash, such as preloading or anti-backlash devices, might be necessary to achieve the desired precision.
- Load and Speed Considerations: When using universal joints in precision manufacturing equipment, it is essential to consider the expected loads and operating speeds. Universal joints have specific load and speed limitations, and exceeding these limits can lead to premature wear, reduced precision, or even failure. Careful selection of universal joints with appropriate load and speed ratings based on the application’s requirements is necessary to ensure optimal performance.
- Maintenance and Lubrication: Regular maintenance and proper lubrication are crucial for the reliable and precise operation of universal joints in precision manufacturing equipment. Following manufacturer guidelines regarding lubrication intervals, lubricant types, and maintenance procedures is essential. Regular inspection of the joints for wear, damage, or misalignment is also necessary to identify any issues that could affect precision.
- Application-Specific Considerations: Each precision manufacturing application may have unique requirements and constraints. Factors such as available space, environmental conditions, required precision levels, and integration with other components should be taken into account when determining the feasibility and suitability of using universal joints. Consulting with experts or manufacturers specializing in precision manufacturing equipment can help in evaluating the best motion transmission solution for a specific application.
In summary, universal joints can be used in precision manufacturing equipment to facilitate motion transmission while accommodating misalignment. However, their usage should be carefully evaluated considering factors such as angular accuracy requirements, backlash and play limitations, load and speed considerations, maintenance needs, and application-specific constraints.
What materials are commonly used in the construction of universal joints?
Universal joints are constructed using various materials that provide strength, durability, and resistance to wear and fatigue. Here’s a detailed explanation:
The choice of materials for universal joints depends on factors such as the application, load requirements, operating conditions, and cost considerations. Here are some commonly used materials:
- Steel: Steel is one of the most common materials used in universal joint construction. Alloy steels, such as 4140 or 4340, are often employed due to their high strength, toughness, and resistance to wear and fatigue. Steel universal joints can withstand heavy loads and harsh operating conditions, making them suitable for various industrial applications.
- Stainless Steel: Stainless steel is chosen for universal joints when corrosion resistance is a critical requirement. Stainless steel alloys, such as 304 or 316, offer excellent resistance to rust, oxidation, and chemical corrosion. These joints are commonly used in applications where exposure to moisture, chemicals, or harsh environments is expected.
- Cast Iron: Cast iron is occasionally used in universal joints, particularly in older or specialized applications. Cast iron provides good strength and wear resistance, but it is generally heavier and less flexible than steel. It may be used in specific situations where its properties are advantageous, such as in large industrial machinery.
- Aluminum: Aluminum universal joints are utilized when weight reduction is a priority. Aluminum alloys offer a good balance of strength and lightweight properties. These joints are commonly found in applications where weight savings are crucial, such as aerospace, automotive, or robotics.
- Bronze: Bronze is sometimes used for bearings or bushings within universal joints. Bronze alloys provide good wear resistance, low friction, and the ability to withstand high temperatures. They are often employed in applications where self-lubricating properties and resistance to galling are required. Bronze bearings can be found in universal joints used in heavy machinery, marine equipment, or agricultural machinery.
It’s worth noting that the specific choice of materials may vary depending on the manufacturer, application requirements, and industry standards. Different combinations of materials may also be used for different components within a universal joint, such as the yokes, crosses, bearings, or seals, to optimize performance and durability.
In summary, universal joints are commonly constructed using materials such as steel, stainless steel, cast iron, aluminum, and bronze. The selection of materials depends on factors like strength, durability, wear resistance, corrosion resistance, weight considerations, and specific application requirements.
How does a universal joint accommodate misalignment between shafts?
A universal joint, also known as a U-joint, is designed to accommodate misalignment between shafts and allow for the transmission of rotational motion. Let’s explore how a universal joint achieves this:
A universal joint consists of a cross-shaped or H-shaped yoke with bearings at the ends of each arm. The yoke connects the input and output shafts, which are not in line with each other. The design of the universal joint enables it to flex and articulate, allowing for the accommodation of misalignment and changes in angles between the shafts.
When misalignment occurs between the input and output shafts, the universal joint allows for angular displacement. As the input shaft rotates, it causes the yoke to rotate along with it. Due to the perpendicular arrangement of the yoke arms, the output shaft connected to the other arm of the yoke experiences rotary motion at an angle to the input shaft.
The flexibility and articulation of the universal joint come from the bearings at the ends of the yoke arms. These bearings allow for smooth rotation and minimize friction between the yoke and the shafts. They are often enclosed within a housing or cross-shaped cap to provide protection and retain lubrication.
As the input shaft rotates and the yoke moves, the bearings within the universal joint allow for the necessary movement and adjustment. They enable the yoke to accommodate misalignment and changes in angles between the input and output shafts. The bearings allow the yoke to rotate freely and continuously, ensuring that torque can be transmitted smoothly between the shafts despite any misalignment.
By allowing angular displacement and articulation, the universal joint compensates for misalignment and ensures that the rotation of the input shaft is effectively transmitted to the output shaft. This flexibility is particularly important in applications where shafts are not perfectly aligned, such as in automotive drivelines or industrial machinery.
However, it’s important to note that universal joints do have limitations. They introduce a small amount of backlash or play, which can affect precision and accuracy in some applications. Additionally, at extreme angles, the operating angles of the universal joint may become limited, potentially causing increased wear and reducing its lifespan.
In summary, a universal joint accommodates misalignment between shafts by allowing angular displacement and articulation. The bearings within the universal joint enable the yoke to move and adjust, ensuring smooth and continuous rotation between the input and output shafts while compensating for their misalignment.
editor by CX 2024-04-12
China factory Cross Joint Bearing Guh-60 37401-1172 Universal Joint Cross Bearing Manufacturer 40.2X115mm
Product Description
Type |
Universal Joint |
Brand |
Huihai |
Car Model |
For HINO GMB NO. GUH60 MATSUBA NO. UJ510 |
OE NO. |
37401-1172 |
Parameters |
27×81.75/20CR |
Condition |
100% new |
Warranty |
12 month |
The Universal Joint is a part of variable Angle power transmission, which is used to change the direction of the transmission axis. It is the “joint” part of the universal transmission device of the automobile drive system. The combination of universal joint and transmission shaft is called universal joint transmission device. On the front-engine rear-wheel drive vehicle, the universal joint transmission device is installed between the transmission output shaft and the drive axle main reducer input shaft; The front-engine front-wheel drive vehicle omits the drive shaft, and the universal joint is installed between the front axle axle and the wheel, which is responsible for both driving and steering.
Q1.What is your MOQ?
A: We accept lower quantity for your trial order.
Q2. How long is the production lead time?
A: For some item we keep some stock that can be deliveried in 2 weeks.
Q3.What is your payment term?
A: Discussed! T/T / L/C /Paypal etc.
Q4.Can I customized my own Brand ?
A: Yes, we can do however you need to reach certain quantity for each item
Q5. What is a package?
A: Neutral packaging or customer packaging.
Q6. Can you help with the delivery of the goods?
A: Yes. We can help deliver goods through our customer freight forwarders or our freight forwarders.
Q7. Which port does our company supply?
A: Usually in HangZhou Port. The port specified by the customer is acceptable.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
After-sales Service: | One Year |
---|---|
Warranty: | One Year Warranty |
Condition: | New |
Color: | Silver |
Certification: | ISO |
Structure: | Single |
What is the role of a yoke in a universal joint assembly?
A yoke plays a crucial role in a universal joint assembly. Here’s a detailed explanation:
In a universal joint assembly, a yoke is a mechanical component that connects the universal joint to the shafts it is intended to transmit motion between. It acts as a link, providing a secure attachment point and facilitating the transfer of rotational motion. The yoke is typically made of strong and durable materials such as steel or cast iron.
The role of a yoke in a universal joint assembly can be summarized as follows:
- Connection Point: The yoke serves as a connection point between the universal joint and the shafts it is joining. It provides a secure and rigid attachment, ensuring that the universal joint and shafts operate as a cohesive unit. The yoke is designed to fit onto the shafts and is often secured using fasteners such as bolts or retaining rings.
- Transmitting Torque: One of the primary functions of the yoke is to transmit torque from one shaft to another through the universal joint assembly. When torque is applied to one shaft, the universal joint transfers it to the other shaft via the yoke. The yoke must be strong enough to handle the torque generated by the system and effectively transfer it without deformation or failure.
- Supporting Radial Loads: In addition to transmitting torque, the yoke also provides support for radial loads. Radial loads are forces acting perpendicular to the shaft’s axis. The yoke, along with other components in the universal joint assembly, helps distribute these loads and prevent excessive stress on the shafts and universal joint. This support ensures stable operation and prevents premature wear or failure.
- Alignment and Stability: The yoke contributes to the alignment and stability of the universal joint assembly. It helps maintain the proper positioning of the universal joint in relation to the shafts, ensuring that the rotational motion is transmitted accurately and efficiently. The yoke’s design and fitment play a crucial role in minimizing misalignment and maintaining the integrity of the assembly.
- Compatibility and Adaptability: Yokes are available in various shapes, sizes, and configurations to accommodate different shaft diameters, types, and connection methods. This versatility allows for compatibility with a wide range of applications and facilitates the adaptation of the universal joint assembly to specific requirements. The yoke’s design may include features such as keyways, splines, or flanges to suit different shaft and mounting arrangements.
In summary, the yoke in a universal joint assembly serves as a connection point, transmits torque, supports radial loads, contributes to alignment and stability, and provides compatibility and adaptability. It is an essential component that enables the efficient and reliable transmission of rotational motion between shafts in various applications.
What are the signs of a failing universal joint and how do you diagnose it?
Diagnosing a failing universal joint involves identifying specific signs and symptoms that indicate potential problems. Here’s a detailed explanation:
A failing universal joint can exhibit several signs that indicate a need for inspection, repair, or replacement. Some common signs of a failing universal joint include:
- Clunking or Knocking Noise: One of the most noticeable signs is a clunking or knocking noise coming from the universal joint area. This noise is often more pronounced during acceleration, deceleration, or when changing gears. The noise may indicate excessive play or wear in the joint’s components.
- Vibration: A failing universal joint can cause vibrations that are felt throughout the vehicle. These vibrations may be more noticeable at higher speeds or under load conditions. The vibrations can be a result of imbalanced driveshafts or misaligned yokes due to worn or damaged universal joint bearings.
- Difficulty in Power Transfer: As a universal joint deteriorates, power transfer from the transmission to the driven wheels may become less efficient. This can lead to a decrease in acceleration, reduced towing capacity, or difficulty in maintaining consistent speed. Loss of power transfer efficiency can occur due to worn or seized universal joint components.
- Visible Wear or Damage: A visual inspection of the universal joint can reveal signs of wear or damage. Look for excessive play or movement in the joint, rust or corrosion on the components, cracked or broken yokes, or worn-out bearings. Any visible signs of damage indicate a potential issue with the universal joint.
- Grease Leakage: Universal joints are typically lubricated with grease to reduce friction and wear. If you notice grease leakage around the joint or on the surrounding components, it may indicate a failing seal or a damaged bearing, which can lead to joint failure.
To diagnose a failing universal joint, the following steps can be taken:
- Perform a visual inspection: Inspect the universal joint and surrounding components for any visible signs of wear, damage, or leakage. Pay attention to the condition of the yokes, bearings, seals, and grease fittings.
- Check for excessive play: While the vehicle is on a level surface and the parking brake is engaged, attempt to move the driveshaft back and forth. Excessive play or movement in the universal joint indicates wear or looseness.
- Listen for abnormal noises: During a test drive, listen for any clunking, knocking, or unusual noises coming from the universal joint area. Pay attention to noise changes during acceleration, deceleration, and gear changes.
- Monitor vibrations: Note any vibrations felt through the vehicle, especially at higher speeds or under load conditions. Excessive vibrations can indicate problems with the universal joint or driveshaft.
- Seek professional inspection: If you suspect a failing universal joint but are uncertain about the diagnosis, it’s recommended to consult a professional mechanic or technician with experience in drivetrain systems. They can perform a comprehensive inspection, including measurements and specialized tests, to accurately diagnose the condition of the universal joint.
It’s important to address any signs of a failing universal joint promptly to avoid further damage, drivability issues, or potential safety hazards. Regular maintenance, including periodic inspection and lubrication, can help prevent premature universal joint failure.
In summary, signs of a failing universal joint include clunking or knocking noises, vibrations, difficulty in power transfer, visible wear or damage, and grease leakage. Diagnosing a failing universal joint involves visual inspection, checking for excessive play, listening for abnormal noises, monitoring vibrations, and seeking professional inspection when necessary.
What are the applications of a universal joint?
A universal joint, also known as a U-joint, finds applications in various industries and mechanical systems where the transmission of rotary motion is required between misaligned shafts. Here are some common applications of universal joints:
- Automotive Drivelines: One of the most well-known applications of universal joints is in automotive drivelines. Universal joints are used in the drivetrain to transmit power from the engine to the wheels while accommodating the misalignment between the engine, transmission, and axle shafts. They are commonly found in rear-wheel drive and four-wheel drive vehicles, connecting the transmission output shaft to the drive shaft and allowing the wheels to receive power even when the suspension system causes changes in angles and positions.
- Industrial Machinery: Universal joints are widely used in industrial machinery where the transmission of motion at angles is required. They are employed in various types of machinery, such as conveyors, mixers, pumps, printing presses, and machine tools. Universal joints enable the transfer of rotary motion between misaligned shafts, allowing these machines to operate efficiently and effectively.
- Marine and Propulsion Systems: In marine applications, universal joints are used in propulsion systems to transmit power from the engine to the propeller shaft. They allow for the necessary flexibility to accommodate the movement of the vessel and changes in the propeller shaft angle. Universal joints are also used in marine steering systems to transfer motion between the steering wheel and the rudder or outboard motor.
- Agricultural Equipment: Universal joints are utilized in agricultural machinery and equipment such as tractors, combines, and harvesters. They enable the transmission of power between different components, such as the engine, gearbox, and wheels, even when these components are not perfectly aligned. Universal joints provide the necessary flexibility to accommodate the movement and articulation required in agricultural operations.
- Aerospace and Aviation: Universal joints are used in aerospace and aviation applications where motion transmission at angles is required. They can be found in control systems for aircraft wings, flaps, and landing gear. Universal joints allow for the transfer of motion and control inputs between different components, ensuring smooth and reliable operation.
- Heavy Machinery and Construction Equipment: Universal joints are employed in heavy machinery and construction equipment, such as cranes, excavators, and loaders. They enable the transmission of power and motion between different parts of the machinery, accommodating the misalignment that may arise due to the movement and articulation of these machines.
- Railway Systems: Universal joints are used in railway systems for various applications. They are employed in drivetrains and power transmission systems to transmit motion between different components, such as the engine, gearboxes, and axles. Universal joints allow for smooth power transfer while accommodating the misalignment caused by the suspension and movement of the train.
- Robotics and Automation: Universal joints find applications in robotics and automation systems where motion needs to be transmitted between misaligned components. They are used in robotic arms, manipulators, and other automated systems to enable flexible and precise movement while accommodating misalignment and articulation requirements.
These are just a few examples of the diverse range of applications for universal joints. Their ability to transmit rotary motion between misaligned shafts with flexibility and efficiency makes them an essential component in numerous industries and mechanical systems.
editor by CX 2024-04-12
China factory 10c Universal Joint for CZPT
Product Description
Spicer | P (mm) | R (mm) | Caterpillar | Precision | Rockwell | GKN | Alloy | Neapcon | Serie | Bearing type |
5-2002X | 33.34 | 79 | 644683 | 951 | CP2002 | HS520 | 1-2171 | 2C | 4LWT | |
5-2117X | 33.34 | 79 | 316117 | 994 | HS521 | 1-2186 | 2C | 4LWD | ||
5-2116X | 33.34 | 79 | 6S6902 | 952 | CP2116 | 1063 | 2C | 2LWT,2LWD | ||
5-3000X | 36.5 | 90.4 | 5D9153 | 536 | HS530 | 1711 | 3-3152 | 3C | 4LWT | |
5-3014X | 36.5 | 90.4 | 9K1976 | 535 | HS532 | 3C | 2LWT,2LWD | |||
5-4143X | 36.5 | 108 | 6K 0571 | 969 | HS545 | 1689 | 3-4143 | 4C | 4HWD | |
5-4002X | 36.5 | 108 | 6F7160 | 540 | CP4002 | HS540 | 1703 | 3-4138 | 4C | 4LWT |
5-4123X | 36.5 | 108 | 9K3969 | 541 | CP4101 | HS542 | 1704 | 3-4123 | 4C | 2LWT,2LWD |
5-4140X | 36.5 | 108 | 5M800 | 929 | CP4130 | HS543 | 3-4140 | 4C | 2LWT,2HWD | |
5-1405X | 36.5 | 108 | 549 | 1708 | 4C | 4LWD | ||||
5-4141X | 36.5 | 108 | 7M2695 | 996 | 4C | 2LWD,2HWD | ||||
5-5177X | 42.88 | 115.06 | 2K3631 | 968 | CP5177 | HS555 | 1728 | 4-5177 | 5C | 4HWD |
5-5000X | 42.88 | 115.06 | 7J5251 | 550 | CP5122 | HS550 | 1720 | 4-5122 | 5C | 4LWT |
5-5121X | 42.88 | 115.06 | 7J5245 | 552 | CP5101 | HS552 | 1721 | 4-5127 | 5C | 2LWT,2LWD |
5-5173X | 42.88 | 115.06 | 933 | HS553 | 1722 | 4-5173 | 5C | 2LWT,2HWD | ||
5-5000X | 42.88 | 115.06 | 999 | 5C | 4HWD | |||||
5-5139X | 42.88 | 115.06 | 5C | 2LWD,2HWD | ||||||
5-6102X | 42.88 | 140.46 | 643633 | 563 | CP62N-13 | HS563 | 1822 | 4-6114 | 6C | 2LWT,2HWD |
5-6000X | 42.88 | 140.46 | 641152 | 560 | CP62N-47 | HS560 | 1820 | 4-6143 | 6C | 4LWT |
5-6106X | 42.88 | 140.46 | 1S9670 | 905 | CP62N-49 | HS565 | 1826 | 4-6128 | 6C | 4HWD |
G5-6103X | 42.88 | 140.46 | 564 | 1823 | 4-6103 | 6C | 2LWT,2LWD | |||
G5-6104X | 42.88 | 140.46 | 566 | 1824 | 4-6104 | 6C | 4LWD | |||
G5-6149X | 42.88 | 140.46 | 6C | 2LWD,2HWD | ||||||
5-7105X | 49.2 | 148.38 | 6H2577 | 927 | CP72N-31 | HS575 | 1840 | 5-7126 | 7C | 4HWD |
5-7000X | 49.2 | 148.32 | 8F7719 | 570 | CP72N-32 | HS570 | 1841 | 5-7205 | 7C | 4LWT |
5-7202X | 49.2 | 148.38 | 7J5242 | 574 | CP72N-33 | HS573 | 1843 | 5-7207 | 7C | 2LWT,2HWD |
5-7203X | 49.2 | 148.38 | 575 | CP72N-55 | 5-7208 | 7C | 4LWD | |||
5-7206X | 49.2 | 148.38 | 572 | CP72N-34 | 1842 | 5-7206 | 7C | 2LWT,2LWD | ||
5-7204X | 49.2 | 148.38 | 576 | CP72N-57 | 5-7209 | 7C | 2LWD,2HWD | |||
5-8105X | 49.2 | 206.32 | 6H2579 | 928 | CP78WB-2 | HS585 | 1850 | 6-8113 | 8C | 4HWD |
5-8200X | 49.2 | 206.32 | 581 | CP82N-28 | 1851 | 6-8205 | 8C | 4LWT |
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Condition: | New |
---|---|
Certification: | ISO, Ts16949 |
Structure: | Single |
Material: | 20cr |
Type: | Universal Joint |
Transport Package: | Box + Plywood Case |
Samples: |
US$ 10/Piece
1 Piece(Min.Order) | |
---|
Customization: |
Available
| Customized Request |
---|
Can universal joints be used in both horizontal and vertical orientations?
Yes, universal joints can be used in both horizontal and vertical orientations. Here’s a detailed explanation:
Universal joints are mechanical devices designed to transmit rotary motion between two shafts that are not in a straight line alignment. They consist of a cross-shaped or H-shaped yoke with bearings at each end that connect to the shafts. The design of universal joints allows them to accommodate angular misalignment between the shafts, making them suitable for various applications, including both horizontal and vertical orientations.
When used in a horizontal orientation, universal joints can transmit rotational motion between shafts that are positioned at different angles or offsets. They are commonly found in drivetrain systems of vehicles, where they transfer power from the engine to the wheels, even when the drivetrain components are not perfectly aligned. In this configuration, universal joints can effectively handle the torque requirements and misalignment caused by uneven terrain, suspension movement, or steering angles.
In a vertical orientation, universal joints can also be utilized to transfer rotational motion between shafts that are positioned vertically. This arrangement is often seen in applications such as industrial equipment, machinery, or agricultural implements. For example, in a vertical power transmission system, a universal joint can be used to connect a vertical driving shaft to a vertical driven shaft, enabling power transfer and accommodating any angular misalignment that may occur due to variations in shaft positions or vibrations.
It’s important to note that the specific design and selection of universal joints for different orientations should consider factors such as the torque requirements, operating conditions, and the manufacturer’s specifications. The orientation of the universal joint may affect factors such as lubrication, load-bearing capacity, and the need for additional support or stabilization mechanisms.
In summary, universal joints can be used in both horizontal and vertical orientations. Their ability to accommodate angular misalignment makes them versatile components for transmitting rotary motion between shafts that are not in a straight line alignment, regardless of the orientation.
How do you calculate the operating angles of a universal joint?
Calculating the operating angles of a universal joint involves measuring the angular displacement between the input and output shafts. Here’s a detailed explanation:
To calculate the operating angles of a universal joint, you need to measure the angles at which the input and output shafts are misaligned. The operating angles are typically expressed as the angles between the axes of the two shafts.
Here’s a step-by-step process for calculating the operating angles:
- Identify the input shaft and the output shaft of the universal joint.
- Measure and record the angle of the input shaft relative to a reference plane or axis. This can be done using a protractor, angle finder, or other measuring tools. The reference plane is typically a fixed surface or a known axis.
- Measure and record the angle of the output shaft relative to the same reference plane or axis.
- Calculate the operating angles by finding the difference between the input and output shaft angles. Depending on the arrangement of the universal joint, there may be two operating angles: one for the joint at the input side and another for the joint at the output side.
It’s important to note that the specific method of measuring and calculating the operating angles may vary depending on the design and configuration of the universal joint. Some universal joints have built-in methods for measuring the operating angles, such as markings or indicators on the joint itself.
Additionally, it’s crucial to consider the range of acceptable operating angles specified by the manufacturer. Operating a universal joint beyond its recommended angles can lead to increased wear, reduced lifespan, and potential failure.
In summary, calculating the operating angles of a universal joint involves measuring the angular displacement between the input and output shafts. By measuring the angles and finding the difference between them, you can determine the operating angles of the universal joint.
What lubrication is required for a universal joint?
Proper lubrication is crucial for the smooth and efficient operation of a universal joint. The type and amount of lubrication required may vary depending on the specific design and manufacturer’s recommendations. Here are some general guidelines:
- High-quality lubricant: It is important to use a high-quality lubricant that is specifically recommended for universal joints. Consult the manufacturer’s guidelines or technical documentation to determine the appropriate lubricant type and viscosity for your universal joint.
- Grease or oil: Universal joints can be lubricated with either grease or oil, depending on the design and application requirements. Grease is commonly used as it provides good lubrication and helps to seal out contaminants. Oil can be used in applications that require constant lubrication or when specified by the manufacturer.
- Quantity of lubrication: Apply the recommended quantity of lubricant as specified by the manufacturer. Over-greasing or under-greasing can lead to problems such as excessive heat, increased friction, or inadequate lubrication. Follow the manufacturer’s guidelines to ensure the optimal amount of lubricant is applied.
- Lubrication points: Identify the lubrication points on the universal joint. These are typically located at the cross bearings or bearing cups where the cross interfaces with the yoke. Apply the lubricant directly to these points to ensure proper lubrication of the moving components.
- Lubrication intervals: Establish a lubrication schedule based on the operating conditions and manufacturer’s recommendations. Regularly inspect and lubricate the universal joint according to the specified intervals. Factors such as operating speed, load, temperature, and environmental conditions may influence the frequency of lubrication.
- Re-lubrication: In some cases, universal joints may have provisions for re-lubrication. This involves purging old lubricant and replenishing it with fresh lubricant. Follow the manufacturer’s instructions for the re-lubrication procedure, including the recommended interval and method.
- Environmental considerations: Consider the operating environment when selecting the lubricant. Factors such as temperature extremes, exposure to moisture or chemicals, and the presence of contaminants can affect the choice and performance of the lubricant. Choose a lubricant that is suitable for the specific environmental conditions of your application.
- Maintenance and inspection: Regularly inspect the universal joint for signs of inadequate lubrication, excessive wear, or contamination. Monitor the temperature of the joint during operation, as excessive heat can indicate insufficient lubrication. Address any lubrication issues promptly to ensure the proper functioning and longevity of the universal joint.
Always refer to the manufacturer’s recommendations and guidelines for lubrication specific to your universal joint model. Following the proper lubrication practices will help optimize the performance, reduce wear, and extend the lifespan of the universal joint.
editor by CX 2024-04-11
China Best Sales U-Joints, Universal Joint, Cross Joints
Product Description
HangZhou Hua Xihu (West Lake) Dis. Auto Parts Co., Ltd is located in the beautiful HangZhou, China. The transportation is very covenient as it closed to CHINAMFG international air port and ZheJiang , and HangZhou freeway in the CHINAMFG area of the yangtze River Delta.
Our company is a monern enterprise that combines development disign, manufacturer, sale and service, and it’s products including to :
Drive shaft, weld yoke, Flange yoke, spline yoke, slip joints, spline shafts, sleeve tube
Cardan shafts,
PTO Shaft, pin yoke, inner yoke, outer yoke,
Off-Highway Cardan Shafts,
Universal joints, Cross, U-Joints.
MECHANICS Universal joints, CHINAMFG style u-joints,
Tractor spare parts, MTZ spare parts.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Material: | Alloy |
---|---|
Type: | Universal Joint |
Certification: | ISO |
Automatic: | Automatic |
Condition: | New |
Transport Package: | Export Packing |
Customization: |
Available
| Customized Request |
---|
Can universal joints be used in both horizontal and vertical orientations?
Yes, universal joints can be used in both horizontal and vertical orientations. Here’s a detailed explanation:
Universal joints are mechanical devices designed to transmit rotary motion between two shafts that are not in a straight line alignment. They consist of a cross-shaped or H-shaped yoke with bearings at each end that connect to the shafts. The design of universal joints allows them to accommodate angular misalignment between the shafts, making them suitable for various applications, including both horizontal and vertical orientations.
When used in a horizontal orientation, universal joints can transmit rotational motion between shafts that are positioned at different angles or offsets. They are commonly found in drivetrain systems of vehicles, where they transfer power from the engine to the wheels, even when the drivetrain components are not perfectly aligned. In this configuration, universal joints can effectively handle the torque requirements and misalignment caused by uneven terrain, suspension movement, or steering angles.
In a vertical orientation, universal joints can also be utilized to transfer rotational motion between shafts that are positioned vertically. This arrangement is often seen in applications such as industrial equipment, machinery, or agricultural implements. For example, in a vertical power transmission system, a universal joint can be used to connect a vertical driving shaft to a vertical driven shaft, enabling power transfer and accommodating any angular misalignment that may occur due to variations in shaft positions or vibrations.
It’s important to note that the specific design and selection of universal joints for different orientations should consider factors such as the torque requirements, operating conditions, and the manufacturer’s specifications. The orientation of the universal joint may affect factors such as lubrication, load-bearing capacity, and the need for additional support or stabilization mechanisms.
In summary, universal joints can be used in both horizontal and vertical orientations. Their ability to accommodate angular misalignment makes them versatile components for transmitting rotary motion between shafts that are not in a straight line alignment, regardless of the orientation.
What is the effect of varying operating angles on the performance of a universal joint?
Varying operating angles can have a significant effect on the performance of a universal joint. Here’s a detailed explanation:
A universal joint is designed to transmit rotational motion between two shafts that are not collinear or have a constant angular relationship. The operating angle refers to the angle between the input and output shafts of the joint. The effects of varying operating angles on the performance of a universal joint are as follows:
- Changes in Torque and Speed: As the operating angle of a universal joint increases or decreases, the torque and speed transmitted through the joint can be affected. At small operating angles, the torque and speed transmission are relatively efficient. However, as the operating angle increases, the torque and speed capacity of the joint may decrease. This reduction in torque and speed capability is due to increased non-uniform loading and bending moments on the joint’s components.
- Increased Vibrations and Noise: Varying operating angles can introduce vibrations and noise in a universal joint. As the operating angle becomes more extreme, the joint experiences higher levels of dynamic imbalance and misalignment. This imbalance can lead to increased vibration levels, which may affect the overall performance and lifespan of the joint. Additionally, the non-uniform motion and increased stress on the joint’s components can generate additional noise during operation.
- Angular Misalignment Compensation: One of the primary advantages of universal joints is their ability to compensate for angular misalignment between shafts. By accommodating varying operating angles, the joint allows for flexibility in transmitting motion even when the input and output shafts are not perfectly aligned. However, extreme operating angles may challenge the joint’s ability to compensate for misalignment effectively. Very large operating angles can lead to increased wear, decreased joint life, and potential loss of motion transmission efficiency.
- Increased Wear and Fatigue: Varying operating angles can contribute to increased wear and fatigue on the universal joint’s components. As the operating angle increases, the joint experiences higher levels of stress and non-uniform loading. This stress concentration can lead to accelerated wear and fatigue, especially at critical areas such as the bearing caps and needle bearings. Continuous operation at extreme operating angles without proper lubrication and maintenance can significantly reduce the joint’s lifespan.
- Heat Generation: Extreme operating angles can result in increased heat generation within the universal joint. The non-uniform motion and increased friction caused by high operating angles can lead to elevated temperatures. Excessive heat can accelerate lubricant breakdown, increase wear rates, and potentially cause premature failure of the joint. Adequate cooling and proper lubrication are essential to mitigate the effects of heat generation in such cases.
- Efficiency and Power Loss: Varying operating angles can impact the overall efficiency of a universal joint. At small to moderate operating angles, the joint can transmit motion with relatively high efficiency. However, as the operating angle increases, the joint’s efficiency may decrease due to increased friction, bending moments, and non-uniform loading. This reduction in efficiency can result in power loss and decreased overall system performance.
Therefore, it is crucial to consider the effects of varying operating angles on the performance of a universal joint. Proper design, careful selection of operating angles within the joint’s specified limits, regular maintenance, and adherence to manufacturer guidelines can help mitigate the potential negative effects and ensure optimal performance and longevity of the joint.
What lubrication is required for a universal joint?
Proper lubrication is crucial for the smooth and efficient operation of a universal joint. The type and amount of lubrication required may vary depending on the specific design and manufacturer’s recommendations. Here are some general guidelines:
- High-quality lubricant: It is important to use a high-quality lubricant that is specifically recommended for universal joints. Consult the manufacturer’s guidelines or technical documentation to determine the appropriate lubricant type and viscosity for your universal joint.
- Grease or oil: Universal joints can be lubricated with either grease or oil, depending on the design and application requirements. Grease is commonly used as it provides good lubrication and helps to seal out contaminants. Oil can be used in applications that require constant lubrication or when specified by the manufacturer.
- Quantity of lubrication: Apply the recommended quantity of lubricant as specified by the manufacturer. Over-greasing or under-greasing can lead to problems such as excessive heat, increased friction, or inadequate lubrication. Follow the manufacturer’s guidelines to ensure the optimal amount of lubricant is applied.
- Lubrication points: Identify the lubrication points on the universal joint. These are typically located at the cross bearings or bearing cups where the cross interfaces with the yoke. Apply the lubricant directly to these points to ensure proper lubrication of the moving components.
- Lubrication intervals: Establish a lubrication schedule based on the operating conditions and manufacturer’s recommendations. Regularly inspect and lubricate the universal joint according to the specified intervals. Factors such as operating speed, load, temperature, and environmental conditions may influence the frequency of lubrication.
- Re-lubrication: In some cases, universal joints may have provisions for re-lubrication. This involves purging old lubricant and replenishing it with fresh lubricant. Follow the manufacturer’s instructions for the re-lubrication procedure, including the recommended interval and method.
- Environmental considerations: Consider the operating environment when selecting the lubricant. Factors such as temperature extremes, exposure to moisture or chemicals, and the presence of contaminants can affect the choice and performance of the lubricant. Choose a lubricant that is suitable for the specific environmental conditions of your application.
- Maintenance and inspection: Regularly inspect the universal joint for signs of inadequate lubrication, excessive wear, or contamination. Monitor the temperature of the joint during operation, as excessive heat can indicate insufficient lubrication. Address any lubrication issues promptly to ensure the proper functioning and longevity of the universal joint.
Always refer to the manufacturer’s recommendations and guidelines for lubrication specific to your universal joint model. Following the proper lubrication practices will help optimize the performance, reduce wear, and extend the lifespan of the universal joint.
editor by CX 2024-04-11
China manufacturer Gumz-12 Universal Joint OEM P001-25-060 for Mazda
Product Description
Manufacturer Auto Spare Parts Car Suspension parts Electrical parts Body parts Engine parts and Accessories for CHINAMFG Vios Yaris Corolla Fortuner Hilux CHINAMFG Hiace LandCruiser Coster 4Runner Highlander Camryetc.571160070,57110K080,571OK012,GUT12,GU1000,GUT12,GUT10,GUT13,GUT20,GUT25,GUT29,GUT30,GUMZ2,GUMZ3,GUMZ4
GUMZ5,GUMZ1,GUMZ6,GUMZ7,GUMZ8,GUMZ9,GUMZ12
Product Description
A Universal joint, U-joint, Cross joint, or Cardan joint, is a joint or coupling in a rigid rod that allows the rod to ‘bend’ in any direction, and is commonly used in shafts that transmit rotary motion, is used for transmission systems of cars, buses, trucks, and tractors.
part name | Universal joint |
part number | GUMZ-12,P001-25-060 |
weight | 0.33KG |
car name | LIGHT TRUCK |
size | 24.06×61.70MM |
packing Details | Snap Rings:4pcs,Grease Nipples:1pcs. |
warranty | 12 Months |
place of Origin | RuiAn WenZhou ZheJiang |
Product Details:
Product: Universal Joint.
Hardness: HRC58-64.
Brand: LR or OEM service.
Packing: Plastic bag, color/white box, carton, wood pallet.
Sample policy: Free sample, freight collect.
our catalog:
Detailed Photos
other instructions
1>it is FOB HangZhou price . (also can send free to HangZhou HangZhou /ning bo ZheJiang and so on. warehouse .)
2>the material is 20cr good material , must not any complain from your customers. (also have 20Mn . 20cr Mn Ti )
3>our delivery time is 40days (with 20Gp container ) . very in time .
4> Can develop according to customer’s drawings or samples
5> OEM is available
6> Full range for the universal joint
7> Good quality and resonable price
Packaging & Shipping
the packing . Standard netural packing with carton.
Delivery detail: 30-45 working days,depend on the actual produce condition.
Company Profile
HangZhou Chuangbang Locomotive Parts Co., Ltd. is a manufacturer of cross shaft and three-pronged universal joint. The company now has mature production technology, testing equipment and set up R & D, mold development center, quality inspection, sales and other departments, greatly improving the productivity and product quality stability. After years of efforts, the company’s product quality and technology in the forefront of the domestic, and with its intimate after-sales service to win the trust of customers, but also won a good reputation for themselves. After years of hard work and struggle, the company has expanded its business to overseas markets, and has established mutually winning cooperative relations with customers in other foreign markets. As the company name indicates, we are running, innovating, we have been running, constantly innovating! But every time we run, the reason for innovation is because of you!If you need know us, please visit our website.
FAQ
Q1: What is the location of your company?
A1: Our company is located in the TangXia (RuiAn) City ,ZHangZhoug province,China.Welcome to visit our factory at anytime!
Q2: How does your factory do regarding quality control?
A2: Our standard QC system to control quality(TS16949 2016).
Q3: What is your delivery time?
A3: Usually within 30-40 days after the receipt of payment.Delivery time must depend on the actual produce condition.
Q4: What are your strengths?
A4: 1.We are the manufacturer,having competitive advantage in price.
2.A large part of money is put into advancing CNC equipments and product
R&D department annual,the performance of universal joint can be guaranteed.
3.About quality issues or follow-up after-sales service,we report directly to the boss.
Why Choose Us
* Favorable Price For You
* Good Reputation Among The Clients
* Smooth & Easy Cooperation
* Considerate and Responsive Customer Service
* Positive Customer Feedback
* On time and Safe Delivery
* Reliable Partner
* Widely Exported To Lots Of Countries
* Good Quality Guaranteed
Advantages
1) With abundant products in stock, it can be shipped in the same day as order placed.
2) 1 piece price is also the wholesale price. Shipped directly from the factory avoid middlemen to increase prices.
Notice:
*Original equipment manufacturer names, Part number and descriptions are quoted for reference purposes only
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Condition: | New |
---|---|
Color: | Silver |
Certification: | ISO |
Structure: | Double |
Material: | Stainless Steel |
Type: | Retractable |
Customization: |
Available
| Customized Request |
---|
Can universal joints be used in aerospace and aviation applications?
Yes, universal joints can be used in aerospace and aviation applications, albeit their usage is limited and specific to certain systems. Here’s a detailed explanation:
Aerospace and aviation industries often require precise and reliable mechanical systems to ensure the safe and efficient operation of various components and subsystems. While universal joints are widely used in many industries, their application in aerospace and aviation is more limited due to the stringent requirements and specific conditions of these fields.
Here are some key points to consider regarding the use of universal joints in aerospace and aviation applications:
- Control Systems: Universal joints can be employed in control systems within aircraft and spacecraft. These control systems involve the transmission of motion and rotation between different components or surfaces. Universal joints can provide flexibility and enable the adjustment of control surfaces such as rudders, ailerons, or flaps, allowing for precise control of the aircraft’s movement.
- Instrumentation and Testing: Universal joints can be utilized in instrumentation and testing equipment used in aerospace and aviation. These applications often require the transmission of rotational motion and torque to various sensors, actuators, or measuring devices. Universal joints can facilitate the required motion transfer while compensating for misalignment or angular variations, ensuring accurate data acquisition and reliable testing results.
- Spacecraft Deployment Mechanisms: In space exploration missions, universal joints can be employed in deployment mechanisms. These mechanisms are responsible for deploying antennas, solar panels, or other components of spacecraft once they reach their destination. Universal joints can accommodate the complex motion and alignment requirements during the deployment process, ensuring smooth and controlled extension of these critical components.
- Engine Accessories: Universal joints can be utilized in certain engine accessories or auxiliary systems in aerospace and aviation. These may include fuel pumps, generators, or hydraulic systems. Universal joints can transmit rotational motion and torque from the engine to these accessories, allowing them to operate efficiently and reliably.
- Cautions and Limitations: The usage of universal joints in aerospace and aviation applications requires careful consideration of factors such as weight, space constraints, reliability, and safety. These industries have strict regulations and standards to ensure the highest levels of performance and safety. Therefore, the selection, integration, and testing of universal joints must be performed in accordance with the specific requirements and guidelines provided by the regulatory authorities and industry best practices.
In summary, while universal joints have limited application in aerospace and aviation, they can be utilized in control systems, instrumentation and testing, spacecraft deployment mechanisms, and engine accessories. Careful consideration of the specific requirements, regulations, and safety standards is essential when incorporating universal joints into aerospace and aviation systems to ensure optimal performance and reliability.
How does a universal joint affect the overall efficiency of a system?
A universal joint can have an impact on the overall efficiency of a system in several ways. The efficiency of a system refers to its ability to convert input power into useful output power while minimizing losses. Here are some factors that can influence the efficiency of a system when using a universal joint:
- Friction and energy losses: Universal joints introduce friction between their components, such as the cross, bearings, and yokes. This friction results in energy losses in the form of heat, which reduces the overall efficiency of the system. Proper lubrication and maintenance of the universal joint can help minimize friction and associated energy losses.
- Angular misalignment: Universal joints are commonly used to transmit torque between non-aligned or angularly displaced shafts. However, when the input and output shafts are misaligned, it can lead to increased angular deflection, resulting in energy losses due to increased friction and wear. The greater the misalignment, the higher the energy losses, which can affect the overall efficiency of the system.
- Backlash and play: Universal joints can have inherent backlash and play, which refers to the amount of rotational movement that occurs before the joint begins to transmit torque. Backlash and play can lead to decreased efficiency in applications that require precise positioning or motion control. The presence of backlash can cause inefficiencies, especially when reversing rotational direction or during rapid changes in torque direction.
- Mechanical vibrations: Universal joints can generate mechanical vibrations during operation. These vibrations can result from factors such as angular misalignment, imbalance, or variations in joint geometry. Mechanical vibrations not only reduce the efficiency of the system but can also contribute to increased wear, fatigue, and potential failure of the joint or other system components. Vibration damping techniques, proper balancing, and maintenance can help mitigate the negative effects of vibrations on system efficiency.
- Operating speed: The operating speed of a system can also impact the efficiency of a universal joint. At high rotational speeds, the limitations of the joint’s design, such as imbalance, increased friction, or decreased precision, can become more pronounced, leading to reduced efficiency. It’s important to consider the specific speed capabilities and limitations of the universal joint to ensure optimal system efficiency.
Overall, while universal joints are widely used and provide flexibility in transmitting torque between non-aligned shafts, their design characteristics and operational considerations can affect the efficiency of a system. Proper maintenance, lubrication, alignment, and consideration of factors such as misalignment, backlash, vibrations, and operating speed contribute to maximizing the efficiency of the system when utilizing a universal joint.
What is a universal joint and how does it work?
A universal joint, also known as a U-joint, is a mechanical coupling that allows for the transmission of rotary motion between two shafts that are not in line with each other. It is commonly used in applications where shafts need to transmit motion at angles or around obstacles. The universal joint consists of a cross-shaped or H-shaped yoke with bearings at the ends of each arm. Let’s explore how it works:
A universal joint typically comprises four main components:
- Input Shaft: The input shaft is the shaft that provides the initial rotary motion.
- Output Shaft: The output shaft is the shaft that receives the rotary motion from the input shaft.
- Yoke: The yoke is a cross-shaped or H-shaped component that connects the input and output shafts. It consists of two arms perpendicular to each other.
- Bearings: Bearings are located at the ends of each arm of the yoke. These bearings allow for smooth rotation and reduce friction between the yoke and the shafts.
When the input shaft rotates, it causes the yoke to rotate along with it. Due to the perpendicular arrangement of the arms, the output shaft connected to the other arm of the yoke experiences rotary motion at an angle to the input shaft.
The universal joint works by accommodating the misalignment between the input and output shafts. As the input shaft rotates, the yoke allows the output shaft to rotate freely and continuously despite any angular displacement or misalignment between the two shafts. This flexibility of the universal joint enables torque to be transmitted smoothly between the shafts while compensating for their misalignment.
During operation, the bearings at the ends of the yoke arms allow for the rotation of the yoke and the connected shafts. The bearings are often enclosed within a housing or cross-shaped cap to provide protection and retain lubrication. The design of the bearings allows for a range of motion and flexibility, allowing the yoke to move and adjust as the shafts rotate at different angles.
The universal joint is commonly used in various applications, including automotive drivelines, industrial machinery, and power transmission systems. It allows for the transmission of rotary motion at different angles and helps compensate for misalignment, eliminating the need for perfectly aligned shafts.
It is important to note that universal joints have certain limitations. They introduce a small amount of backlash or play, which can affect precision and accuracy in some applications. Furthermore, at extreme angles, the operating angles of the universal joint may become limited, potentially causing increased wear and reducing its lifespan.
Overall, the universal joint is a versatile mechanical coupling that enables the transmission of rotary motion between misaligned shafts. Its ability to accommodate angular displacement and misalignment makes it a valuable component in numerous mechanical systems.
editor by CX 2024-04-10
China OEM Gun-27 Universal Joint OEM 31725-14627 for CZPT
Product Description
Manufacturer Auto Spare Parts Car Suspension parts Electrical parts Body parts Engine parts and Accessories for CHINAMFG Vios Yaris Corolla Fortuner Hilux CHINAMFG Hiace LandCruiser Coster 4Runner Highlander Camryetc.571160070,57110K080,571OK012,GUT12,GU1000,GUT12,GUT10,GUT13,GUT20,GUT25,GUT29,GUT30,GUMZ2,GUMZ3,GUMZ4
GUMZ5,GUMZ1,GUMZ6,GUMZ7,GUMZ8,GUMZ9,GUMZ12,GUN27
Product Description
A Universal joint, U-joint, Cross joint, or Cardan joint, is a joint or coupling in a rigid rod that allows the rod to ‘bend’ in any direction, and is commonly used in shafts that transmit rotary motion, is used for transmission systems of cars, buses, trucks, and tractors.
part name | Universal joint |
part number | GUMZ-27,31725-14627 |
weight | 0.34KG |
car name | DAYSUN 1300,CEDRIC,LAUREL 200L |
size | 25x40x63.8MM |
packing Details | Snap Rings:4pcs,Grease Nipples:1pcs. |
warranty | 12 Months |
place of Origin | RuiAn WenZhou ZheJiang |
Product Details:
Product: Universal Joint.
Hardness: HRC58-64.
Brand: LR or OEM service.
Packing: Plastic bag, color/white box, carton, wood pallet.
Sample policy: Free sample, freight collect.
our catalog:
Detailed Photos
other instructions
1>it is FOB HangZhou price . (also can send free to HangZhou HangZhou /ning bo ZheJiang and so on. warehouse .)
2>the material is 20cr good material , must not any complain from your customers. (also have 20Mn . 20cr Mn Ti )
3>our delivery time is 40days (with 20Gp container ) . very in time .
4> Can develop according to customer’s drawings or samples
5> OEM is available
6> Full range for the universal joint
7> Good quality and resonable price
Packaging & Shipping
the packing . Standard netural packing with carton.
Delivery detail: 30-45 working days,depend on the actual produce condition.
Company Profile
HangZhou Chuangbang Locomotive Parts Co., Ltd. is a manufacturer of cross shaft and three-pronged universal joint. The company now has mature production technology, testing equipment and set up R & D, mold development center, quality inspection, sales and other departments, greatly improving the productivity and product quality stability. After years of efforts, the company’s product quality and technology in the forefront of the domestic, and with its intimate after-sales service to win the trust of customers, but also won a good reputation for themselves. After years of hard work and struggle, the company has expanded its business to overseas markets, and has established mutually winning cooperative relations with customers in other foreign markets. As the company name indicates, we are running, innovating, we have been running, constantly innovating! But every time we run, the reason for innovation is because of you!If you need know us, please visit our website.
FAQ
Q1: What is the location of your company?
A1: Our company is located in the TangXia (RuiAn) City ,ZHangZhoug province,China.Welcome to visit our factory at anytime!
Q2: How does your factory do regarding quality control?
A2: Our standard QC system to control quality(TS16949 2016).
Q3: What is your delivery time?
A3: Usually within 30-40 days after the receipt of payment.Delivery time must depend on the actual produce condition.
Q4: What are your strengths?
A4: 1.We are the manufacturer,having competitive advantage in price.
2.A large part of money is put into advancing CNC equipments and product
R&D department annual,the performance of universal joint can be guaranteed.
3.About quality issues or follow-up after-sales service,we report directly to the boss.
Why Choose Us
* Favorable Price For You
* Good Reputation Among The Clients
* Smooth & Easy Cooperation
* Considerate and Responsive Customer Service
* Positive Customer Feedback
* On time and Safe Delivery
* Reliable Partner
* Widely Exported To Lots Of Countries
* Good Quality Guaranteed
Advantages
1) With abundant products in stock, it can be shipped in the same day as order placed.
2) 1 piece price is also the wholesale price. Shipped directly from the factory avoid middlemen to increase prices.
Notice:
*Original equipment manufacturer names, Part number and descriptions are quoted for reference purposes only
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Condition: | New |
---|---|
Color: | Silver |
Certification: | ISO |
Structure: | Double |
Material: | Stainless Steel |
Type: | Retractable |
Customization: |
Available
| Customized Request |
---|
Can universal joints be used in conveyor systems?
Yes, universal joints can be used in conveyor systems, and they offer several advantages in certain applications. Here’s a detailed explanation:
A conveyor system is a mechanical handling equipment used to transport materials from one location to another. It consists of various components, including belts, pulleys, rollers, and drives, that work together to facilitate the movement of items. Universal joints can be incorporated into conveyor systems to transmit rotational motion between different sections or components of the conveyor.
Here are some key points to consider regarding the use of universal joints in conveyor systems:
- Misalignment Compensation: Conveyor systems often require flexibility to accommodate misalignment between different sections or components due to factors such as uneven loading, structural variations, or changes in direction. Universal joints are capable of compensating for angular misalignment and can handle variations in the alignment of conveyor sections, allowing for smooth and efficient power transmission.
- Smooth Operation: Universal joints provide smooth rotation and can help minimize vibration and shock in conveyor systems. This is especially beneficial when conveying delicate or sensitive materials that require gentle handling. The design of universal joints with needle bearings or other low-friction components helps reduce frictional losses and ensures smooth operation, resulting in less wear and tear on the conveyor system.
- Compact Design: Universal joints have a compact and versatile design, making them suitable for conveyor systems where space is limited. They can be integrated into tight spaces and allow for flexibility in the layout and configuration of the system. This compactness also contributes to easier installation and maintenance of the conveyor system.
- Variable Operating Angles: Universal joints can operate at varying angles, allowing conveyor systems to navigate curves, bends, or changes in direction. This flexibility in operating angles enables the conveyor system to adapt to the specific layout and requirements of the application, enhancing its overall efficiency and functionality.
- Load Transmission: Universal joints are capable of transmitting both torque and radial loads, which is important in conveyor systems. They can handle the forces exerted by the materials being transported and distribute those forces evenly, preventing excessive stress on the system’s components. This feature helps ensure reliable and efficient material handling in the conveyor system.
- Application Considerations: While universal joints offer advantages in conveyor systems, it is essential to consider the specific application requirements and operating conditions. Factors such as the type of materials being conveyed, the speed and load capacity of the system, and environmental factors should be taken into account when selecting and designing the conveyor system with universal joints.
In summary, universal joints can be effectively used in conveyor systems to provide misalignment compensation, smooth operation, compact design, variable operating angles, and reliable load transmission. By incorporating universal joints into conveyor systems, it is possible to enhance flexibility, performance, and efficiency in material handling applications.
What are the signs of a failing universal joint and how do you diagnose it?
Diagnosing a failing universal joint involves identifying specific signs and symptoms that indicate potential problems. Here’s a detailed explanation:
A failing universal joint can exhibit several signs that indicate a need for inspection, repair, or replacement. Some common signs of a failing universal joint include:
- Clunking or Knocking Noise: One of the most noticeable signs is a clunking or knocking noise coming from the universal joint area. This noise is often more pronounced during acceleration, deceleration, or when changing gears. The noise may indicate excessive play or wear in the joint’s components.
- Vibration: A failing universal joint can cause vibrations that are felt throughout the vehicle. These vibrations may be more noticeable at higher speeds or under load conditions. The vibrations can be a result of imbalanced driveshafts or misaligned yokes due to worn or damaged universal joint bearings.
- Difficulty in Power Transfer: As a universal joint deteriorates, power transfer from the transmission to the driven wheels may become less efficient. This can lead to a decrease in acceleration, reduced towing capacity, or difficulty in maintaining consistent speed. Loss of power transfer efficiency can occur due to worn or seized universal joint components.
- Visible Wear or Damage: A visual inspection of the universal joint can reveal signs of wear or damage. Look for excessive play or movement in the joint, rust or corrosion on the components, cracked or broken yokes, or worn-out bearings. Any visible signs of damage indicate a potential issue with the universal joint.
- Grease Leakage: Universal joints are typically lubricated with grease to reduce friction and wear. If you notice grease leakage around the joint or on the surrounding components, it may indicate a failing seal or a damaged bearing, which can lead to joint failure.
To diagnose a failing universal joint, the following steps can be taken:
- Perform a visual inspection: Inspect the universal joint and surrounding components for any visible signs of wear, damage, or leakage. Pay attention to the condition of the yokes, bearings, seals, and grease fittings.
- Check for excessive play: While the vehicle is on a level surface and the parking brake is engaged, attempt to move the driveshaft back and forth. Excessive play or movement in the universal joint indicates wear or looseness.
- Listen for abnormal noises: During a test drive, listen for any clunking, knocking, or unusual noises coming from the universal joint area. Pay attention to noise changes during acceleration, deceleration, and gear changes.
- Monitor vibrations: Note any vibrations felt through the vehicle, especially at higher speeds or under load conditions. Excessive vibrations can indicate problems with the universal joint or driveshaft.
- Seek professional inspection: If you suspect a failing universal joint but are uncertain about the diagnosis, it’s recommended to consult a professional mechanic or technician with experience in drivetrain systems. They can perform a comprehensive inspection, including measurements and specialized tests, to accurately diagnose the condition of the universal joint.
It’s important to address any signs of a failing universal joint promptly to avoid further damage, drivability issues, or potential safety hazards. Regular maintenance, including periodic inspection and lubrication, can help prevent premature universal joint failure.
In summary, signs of a failing universal joint include clunking or knocking noises, vibrations, difficulty in power transfer, visible wear or damage, and grease leakage. Diagnosing a failing universal joint involves visual inspection, checking for excessive play, listening for abnormal noises, monitoring vibrations, and seeking professional inspection when necessary.
What lubrication is required for a universal joint?
Proper lubrication is crucial for the smooth and efficient operation of a universal joint. The type and amount of lubrication required may vary depending on the specific design and manufacturer’s recommendations. Here are some general guidelines:
- High-quality lubricant: It is important to use a high-quality lubricant that is specifically recommended for universal joints. Consult the manufacturer’s guidelines or technical documentation to determine the appropriate lubricant type and viscosity for your universal joint.
- Grease or oil: Universal joints can be lubricated with either grease or oil, depending on the design and application requirements. Grease is commonly used as it provides good lubrication and helps to seal out contaminants. Oil can be used in applications that require constant lubrication or when specified by the manufacturer.
- Quantity of lubrication: Apply the recommended quantity of lubricant as specified by the manufacturer. Over-greasing or under-greasing can lead to problems such as excessive heat, increased friction, or inadequate lubrication. Follow the manufacturer’s guidelines to ensure the optimal amount of lubricant is applied.
- Lubrication points: Identify the lubrication points on the universal joint. These are typically located at the cross bearings or bearing cups where the cross interfaces with the yoke. Apply the lubricant directly to these points to ensure proper lubrication of the moving components.
- Lubrication intervals: Establish a lubrication schedule based on the operating conditions and manufacturer’s recommendations. Regularly inspect and lubricate the universal joint according to the specified intervals. Factors such as operating speed, load, temperature, and environmental conditions may influence the frequency of lubrication.
- Re-lubrication: In some cases, universal joints may have provisions for re-lubrication. This involves purging old lubricant and replenishing it with fresh lubricant. Follow the manufacturer’s instructions for the re-lubrication procedure, including the recommended interval and method.
- Environmental considerations: Consider the operating environment when selecting the lubricant. Factors such as temperature extremes, exposure to moisture or chemicals, and the presence of contaminants can affect the choice and performance of the lubricant. Choose a lubricant that is suitable for the specific environmental conditions of your application.
- Maintenance and inspection: Regularly inspect the universal joint for signs of inadequate lubrication, excessive wear, or contamination. Monitor the temperature of the joint during operation, as excessive heat can indicate insufficient lubrication. Address any lubrication issues promptly to ensure the proper functioning and longevity of the universal joint.
Always refer to the manufacturer’s recommendations and guidelines for lubrication specific to your universal joint model. Following the proper lubrication practices will help optimize the performance, reduce wear, and extend the lifespan of the universal joint.
editor by CX 2024-04-10
China supplier IATF 16949 OEM Factory One-Stop Service Prototype/Drawing Customization Bespoke Machinery Part Industrial Components Truck Part Steering Knuckle Universal Joint
Product Description
Product Description
Item | Iron/Steel/Metal/Alloy CHINAMFG Hardware Parts with Precision CNC Machining Process for Auto/Car/Truck/Tractor/Trailer//Forklift/Commercial Vehicle/Train/Railway/Mining/Construction/Building/Shipbuilding/Metallurgical Machine/Machinery/Industrial/Equipment components Customized Heavy-Duty Truck Parts Steering Knuckle universal joint | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Surface Treatment | Shot Blasting, Electrophoretic Coating | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Surface Roughness | Ra0.05∼Ra50, at customer’s request | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Standard | GB, ASTM, AISI, DIN, NF, JIS, BS, AS, AAR, etc. | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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Can universal joints be used in both horizontal and vertical orientations?Yes, universal joints can be used in both horizontal and vertical orientations. Here’s a detailed explanation: Universal joints are mechanical devices designed to transmit rotary motion between two shafts that are not in a straight line alignment. They consist of a cross-shaped or H-shaped yoke with bearings at each end that connect to the shafts. The design of universal joints allows them to accommodate angular misalignment between the shafts, making them suitable for various applications, including both horizontal and vertical orientations. When used in a horizontal orientation, universal joints can transmit rotational motion between shafts that are positioned at different angles or offsets. They are commonly found in drivetrain systems of vehicles, where they transfer power from the engine to the wheels, even when the drivetrain components are not perfectly aligned. In this configuration, universal joints can effectively handle the torque requirements and misalignment caused by uneven terrain, suspension movement, or steering angles. In a vertical orientation, universal joints can also be utilized to transfer rotational motion between shafts that are positioned vertically. This arrangement is often seen in applications such as industrial equipment, machinery, or agricultural implements. For example, in a vertical power transmission system, a universal joint can be used to connect a vertical driving shaft to a vertical driven shaft, enabling power transfer and accommodating any angular misalignment that may occur due to variations in shaft positions or vibrations. It’s important to note that the specific design and selection of universal joints for different orientations should consider factors such as the torque requirements, operating conditions, and the manufacturer’s specifications. The orientation of the universal joint may affect factors such as lubrication, load-bearing capacity, and the need for additional support or stabilization mechanisms. In summary, universal joints can be used in both horizontal and vertical orientations. Their ability to accommodate angular misalignment makes them versatile components for transmitting rotary motion between shafts that are not in a straight line alignment, regardless of the orientation. Can universal joints be used in agricultural equipment?Yes, universal joints can be used in agricultural equipment. Here’s a detailed explanation: Universal joints are commonly employed in various types of agricultural equipment and machinery. They offer several advantages that make them suitable for agricultural applications. Here are some key points to consider:
It’s important to note that the specific design and selection of universal joints for agricultural equipment should consider factors such as the torque requirements, operating conditions, maintenance practices, and safety considerations. Proper sizing, lubrication, and regular inspections are crucial for ensuring optimal performance and preventing premature wear or failure. In summary, universal joints can indeed be used in agricultural equipment. Their torque transmission capabilities, flexibility, durability, cost-effectiveness, and versatility make them a suitable choice for power transmission in various agricultural machinery and equipment. How do you choose the right size universal joint for your application?Choosing the right size universal joint for a specific application involves considering several factors to ensure proper function and performance. Here are key steps to guide you in selecting the appropriate size:
By following these steps and considering the specific requirements of your application, you can choose the right size universal joint that will provide reliable and efficient operation in your system.
China supplier Universal Joints for CZPT CZPTProduct Description
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How do you ensure proper alignment when connecting a universal joint?Ensuring proper alignment when connecting a universal joint is essential for its optimal performance and longevity. Here’s a detailed explanation: Proper alignment of a universal joint involves aligning the input and output shafts to minimize angular misalignment and maintain a smooth and efficient power transfer. Here are the steps to ensure proper alignment:
By following these steps and paying attention to proper alignment, the universal joint can operate smoothly and effectively, minimizing stress, wear, and the risk of premature failure. In summary, ensuring proper alignment when connecting a universal joint involves measuring shaft angles, calculating the operating angle, selecting the appropriate universal joint, achieving parallel alignment, checking centerline alignment, securely fastening the joint, and performing regular maintenance. How does a constant-velocity (CV) joint differ from a traditional universal joint?A constant-velocity (CV) joint differs from a traditional universal joint in several ways. Here’s a detailed explanation: A traditional universal joint (U-joint) and a constant-velocity (CV) joint are both used for transmitting torque between non-aligned or angularly displaced shafts. However, they have distinct design and operational differences:
In summary, a constant-velocity (CV) joint differs from a traditional universal joint (U-joint) in terms of torque transmission mechanism, smoothness, efficiency, angular capability, operating angles, complexity, and size. CV joints provide constant velocity output, smoother operation, and higher efficiency, making them suitable for applications where precise motion control and uniform power delivery are essential. U-joints, with their ability to accommodate larger angular misalignments, are often preferred for applications with extreme misalignment requirements. What is a universal joint and how does it work?A universal joint, also known as a U-joint, is a mechanical coupling that allows for the transmission of rotary motion between two shafts that are not in line with each other. It is commonly used in applications where shafts need to transmit motion at angles or around obstacles. The universal joint consists of a cross-shaped or H-shaped yoke with bearings at the ends of each arm. Let’s explore how it works: A universal joint typically comprises four main components:
When the input shaft rotates, it causes the yoke to rotate along with it. Due to the perpendicular arrangement of the arms, the output shaft connected to the other arm of the yoke experiences rotary motion at an angle to the input shaft. The universal joint works by accommodating the misalignment between the input and output shafts. As the input shaft rotates, the yoke allows the output shaft to rotate freely and continuously despite any angular displacement or misalignment between the two shafts. This flexibility of the universal joint enables torque to be transmitted smoothly between the shafts while compensating for their misalignment. During operation, the bearings at the ends of the yoke arms allow for the rotation of the yoke and the connected shafts. The bearings are often enclosed within a housing or cross-shaped cap to provide protection and retain lubrication. The design of the bearings allows for a range of motion and flexibility, allowing the yoke to move and adjust as the shafts rotate at different angles. The universal joint is commonly used in various applications, including automotive drivelines, industrial machinery, and power transmission systems. It allows for the transmission of rotary motion at different angles and helps compensate for misalignment, eliminating the need for perfectly aligned shafts. It is important to note that universal joints have certain limitations. They introduce a small amount of backlash or play, which can affect precision and accuracy in some applications. Furthermore, at extreme angles, the operating angles of the universal joint may become limited, potentially causing increased wear and reducing its lifespan. Overall, the universal joint is a versatile mechanical coupling that enables the transmission of rotary motion between misaligned shafts. Its ability to accommodate angular displacement and misalignment makes it a valuable component in numerous mechanical systems.
China Good quality Gum-77 Universal Joints Bearings Gum77 U Cross Joint Bearing Kits 27X65.3mm ManufacturerProduct Description
The Universal Joint is a part of variable Angle power transmission, which is used to change the direction of the transmission axis. It is the “joint” part of the universal transmission device of the automobile drive system. The combination of universal joint and transmission shaft is called universal joint transmission device. On the front-engine rear-wheel drive vehicle, the universal joint transmission device is installed between the transmission output shaft and the drive axle main reducer input shaft; The front-engine front-wheel drive vehicle omits the drive shaft, and the universal joint is installed between the front axle axle and the wheel, which is responsible for both driving and steering.
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How do you calculate the torque capacity of a universal joint?Calculating the torque capacity of a universal joint involves considering various factors such as the joint’s design, material properties, and operating conditions. Here’s a detailed explanation: The torque capacity of a universal joint is determined by several key parameters:
It is important to note that calculating the torque capacity of a universal joint involves complex engineering considerations, and it is recommended to consult manufacturer specifications, guidelines, or engineering experts with experience in universal joint design for accurate and reliable calculations. In summary, the torque capacity of a universal joint is calculated by considering the maximum allowable angle, applying a design factor, accounting for material properties, determining the equivalent torque, and applying a safety factor. Proper torque capacity calculations ensure that the universal joint can reliably handle the expected loads and misalignments in its intended application. Can universal joints be used in heavy-duty machinery and equipment?Yes, universal joints can be used in heavy-duty machinery and equipment. Here’s a detailed explanation: Universal joints are widely employed in various industrial applications, including heavy-duty machinery and equipment. They offer several advantages that make them suitable for such applications:
However, it’s important to consider the specific requirements and operating conditions of the heavy-duty machinery when selecting and implementing universal joints. Factors such as the torque levels, rotational speed, angular misalignment, operating temperature, and maintenance practices should be carefully evaluated to ensure that the chosen universal joints are appropriately sized, rated, and maintained for reliable and safe operation. In summary, universal joints can indeed be used in heavy-duty machinery and equipment. Their flexibility, torque transmission capabilities, compactness, durability, and cost-effectiveness make them a viable choice for power transmission in a wide range of heavy-duty applications. Can you provide examples of vehicles that use universal joints?Universal joints are commonly used in various types of vehicles for transmitting torque between shafts that are not in a straight line or are at an angle to each other. Here are some examples of vehicles that use universal joints:
Please note that the specific usage of universal joints may vary depending on the vehicle design, drivetrain configuration, and application requirements. Different types of universal joints, such as single joint, double joint, constant velocity (CV) joint, or Cardan joint, may be employed based on the specific needs of the vehicle or machinery.
China best 20cr Material Automobile Cardan Cross Shaft Universal Joint Gun-48Product Description
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Application Company Profile HangZhou Terry Machinery Co.Ltd is a leading supplier of bearings, linear motion Packing & Deliverey Custome Praise FAQ
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What is the role of needle bearings in a universal joint?Needle bearings play a critical role in the operation of a universal joint. Here’s a detailed explanation: A universal joint, also known as a U-joint, is a mechanical coupling that allows the transmission of rotational motion between two misaligned shafts. It consists of a cross-shaped component with needle bearings positioned at each end of the cross. The role of needle bearings in a universal joint is to facilitate smooth rotation and efficient power transmission while accommodating the misalignment between the shafts. Here are the key functions of needle bearings:
Overall, needle bearings in a universal joint enable efficient power transmission, accommodate misalignment, support radial loads, enhance durability, and require proper lubrication. They are essential components that contribute to the smooth and reliable operation of the universal joint in various applications, including automotive drivelines, industrial machinery, and aerospace systems. How does a constant-velocity (CV) joint differ from a traditional universal joint?A constant-velocity (CV) joint differs from a traditional universal joint in several ways. Here’s a detailed explanation: A traditional universal joint (U-joint) and a constant-velocity (CV) joint are both used for transmitting torque between non-aligned or angularly displaced shafts. However, they have distinct design and operational differences:
In summary, a constant-velocity (CV) joint differs from a traditional universal joint (U-joint) in terms of torque transmission mechanism, smoothness, efficiency, angular capability, operating angles, complexity, and size. CV joints provide constant velocity output, smoother operation, and higher efficiency, making them suitable for applications where precise motion control and uniform power delivery are essential. U-joints, with their ability to accommodate larger angular misalignments, are often preferred for applications with extreme misalignment requirements. What are the potential limitations or drawbacks of using universal joints?While universal joints offer several advantages in transmitting torque between non-aligned or angularly displaced shafts, they also have some limitations and drawbacks to consider. Here are some potential limitations of using universal joints:
It’s important to evaluate these limitations and drawbacks in the context of the specific application and system requirements. In some cases, alternative power transmission solutions, such as flexible couplings, CV joints, gearboxes, or direct drives, may be more suitable depending on the desired performance, efficiency, and operating conditions.
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