Merchandise Description
Universal Joint
Universal Joint with Cardan Shaft
High-quality alloy metal
Rigidity: HRC48~50
Operating angle: 20
Single, double and assemble pin & block common joints
These common joints are manufactured from substantial-quality alloy steel, and been warmth dealt with for anti-oxidation. The floor rigidity is HRC48~50 and the pin & block is HRC60. We could manufacture one, double and assemble pin & block common joints on requested.
Welcome to send us your solution drawings for quotation.
Sshopping mall amount buy is satisfactory.
We spend consideration to your inquriy, and consider quotation as our critical work.
ZheJiang CZPT Electrical Equipment Products Co., Ltd
Speak to man: Austin.Wang
/ Piece | |
300 Pieces (Min. Order) |
###
Condition: | New |
---|---|
Color: | Natural Color, Silver, Black |
Structure: | Double |
Material: | Alloy Steel |
Type: | Retractable |
Transport Package: | Pallet |
###
Samples: |
US$ 6/Piece
1 Piece(Min.Order) |
---|
###
Customization: |
---|
/ Piece | |
300 Pieces (Min. Order) |
###
Condition: | New |
---|---|
Color: | Natural Color, Silver, Black |
Structure: | Double |
Material: | Alloy Steel |
Type: | Retractable |
Transport Package: | Pallet |
###
Samples: |
US$ 6/Piece
1 Piece(Min.Order) |
---|
###
Customization: |
---|
Types of CZPT U Joints
A u joint is a mechanical part that connects various components in a vehicle’s drivetrain. Its primary function is to transfer power from the transmission to the axle housing assembly. It also helps the driveshaft change angle when the vehicle is moving, such as when the suspension moves. It is very important to choose a high-quality joint to ensure optimum performance. Otherwise, the part may fail, which could result in damage to the vehicle and potentially harm to the occupants.
CZPT U Joints
CZPT U Joints are high quality, precision engineered ball joints that are made from durable steel. They are easy to maintain, fully greaseable, and cover a wide variety of vehicles. CZPT products are also very affordable. This is an attractive benefit for drivers, as they’ll be able to afford to purchase replacement parts for their vehicle.
CZPT U Joints are precision-ground to tight tolerances. They also have a warranty that covers defects in materials and workmanship. The warranty covers both the parts and labor involved in replacing them. CZPT’s u-joints are built to last and have been tested rigorously to ensure they’re reliable. The company also uses the latest technology to ensure that installation of replacement parts is quick and easy.
Premium u-joints from CZPT are machined to original equipment specifications. They’re part of the company’s total undercar solutions. Each u-joint is precision-ground to tight tolerances and is quality-controlled at every stage of production. CZPT’s u-joints also feature cold-formed and case-hardened bearing cups that offer 360-degree lubrication distribution.
CZPT CV joints
If you’re in the market for a new set of CV joints for your car or truck, you’ll want to check out the CZPT brand. These parts are known for being durable and reliable, and they can restore your car’s chassis to like-new condition. There are many types of CZPT CV joints available, from front-end CV joints to rear-end CV joints and upper and lower ball joints.
Hooke’s joint
The Hooke’s joint is a mechanical joint that transfers rotation between two shafts, typically a crankshaft and a transmission. The joint is made up of two yoke arm members that are placed at right angles. A cross-shaft connects the two yoke arms. The arms are supported by needle roller caps. Relative rotations about the gimbal give the joint added degrees of freedom.
The Hooke’s joint is one of many different types of universal joints and is often used to connect two non-parallel shafts. Its U-shaped forked end makes it possible to accurately fix the two shafts in position and transmit motion. It is also commonly used in automobiles to transmit power from a gearbox to a rear axle.
The Hooke’s joint can be explained with the help of a simple illustration. In Fig. 6.29, the driven shaft is inclined downward, while the input shaft is horizontal. As the driven shaft turns 90 degrees, the input shaft moves to its maximum position, while a further quarter turn brings the joint back to its initial position.
In aviation, the Hooke’s joint effect has been used to describe the behavior of two different activities: hovering and autorotating. In addition to this, the concept of the Hooke’s joint effect has been applied to teetering rotors, lead-lag hinges, and flapping hinges. Despite this broad application, however, it is important to remember that this is a theory, not gospel.
Double Cardan joint
The Double Cardan joint is a type of CV joint. This type of joint transmits torque from a drive shaft to a driven shaft, and it exhibits good stability, low vibration, and low inertia. It’s designed for heavy-duty applications. It consists of a cylindrical torque coupler and two yokes. The two yokes are attached by a collar, with the first collar being pinned to the input shaft and the second collar pinned to the output shaft.
This type of joint is used in telescopic drive shafts. These joints have an adjustable center element that enables them to compensate for axial displacement or misalignment. These types of joints also allow for faster repositioning. Some of them even have telescopic segments. If your shaft is not aligned properly, double Cardan joints may be the best solution.
The double Cardan joint was developed to overcome the limitations of single Cardan joints in PTO drivelines. They are used in cases where the operating angles are too large for single Cardan joints. The double cardan joint has a coupling yoke with a centreing mechanism to keep the input and output shafts in line. In addition, the Wide-angle Double Cardan joint utilizes a flat disc with a couple of sockets.
The Double Cardan joint offers smooth operation at higher operating angles than single cardan joints. But this type of joint is sensitive to ride height changes. Every inch increase in ride height changes the angle of the double cardan joint and the lower u-joint. For this reason, you may have to compromise between the two angles for a smooth operation.
editor by czh 2023-03-24