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Characteristics of Magnetic Coupled Rodless Cylinders CY1L, CY1S and CY3R

Author : TAIXI Date : 2018-12-12 Views : 173

Characteristics of Magnetic Coupled Rodless Cylinders CY1L, CY1S and CY3R

1. CY3R magnetic coupling rodless cylinder: directly mounted rodless cylinder, can directly install load; compact size; within the load range, the cylinder will not rotate; can install buffers, reversing action is smooth and impact-free; using special resin wear ring, lubrication performance is improved, so durability is improved.
2. CY1L slider-type (ball bearing) rodless cylinder from air cylinder actuator manufacture has no rigid piston rod of common cylinder, it realizes reciprocating motion by piston directly or indirectly. This kind of cylinder has the advantage of saving installation space and is especially suitable for small diameter and long stroke occasions.
3. CY1S magnetic coupling rodless cylinder can directly install load and maintain a large force; the range of travel options is large, the stroke is larger than that of ordinary cylinder; the use of ball bearings enables the cylinder to withstand eccentric load and move smoothly; the piston has no mechanical connection between sliders, excellent sealing performance; it can install buffer, and the reversing action is smooth and impact-free.

Working Principle and Characteristic of air cylinder actuator

The single-acting cylinder from air cylinder actuator manufacture has only one chamber to input compressed air to realize one-way movement. The piston rod can only be pushed back by external force, usually by spring force, diaphragm tension, gravity and so on. The characteristics of single-acting cylinder are as follows: only one end enters (exhausts) air, simple structure and low gas consumption.
The single-acting cylinder has only one chamber to input compressed air to realize one-way movement. The piston rod can only be pushed back by external force, usually by spring force, diaphragm tension, gravity and so on.
The characteristics of single-acting cylinders are as follows:
1. Only one end enters (exhausts) the gas, which has simple structure and small gas consumption.
2. By resetting with spring force or diaphragm force, a part of compressed air energy is used to overcome spring force or diaphragm tension, thus reducing the transmission force of piston rod.
3. Installation of spring and diaphragm in air cylinder actuator usually has shorter stroke, and the effective stroke is smaller than that of double-acting cylinder with the same volume.
4. The tension of cylinder reset spring and diaphragm varies with the deformation, so the output force of piston rod varies in the course of moving.
Because of the above characteristics, single-acting piston cylinder is mostly used for short stroke. Its thrust and movement speed are not required in high occasions, such as air crane, positioning and clamping devices. Single-acting plunger cylinder is not the case, can be used in long-distance, high-load occasions.

Dual-acting Cylinder
Dual-acting cylinder refers to the air cylinder actuator with two chambers which can input compressed air separately to realize bidirectional movement. Its structure can be divided into double piston rod type, single piston rod type, double piston type, buffer type and Non-buffer type. This kind of cylinder is the most widely used.
Double acting cylinder from air cylinder actuator manufacture has two kinds of cylinder block fixing and piston rod fixing.
When the cylinder block is fixed, its load (such as worktable) is connected with the two piston rods of the cylinder. Compressed air enters the two chambers of the cylinder in turn (one chamber intake and another chamber exhaust). The piston rod drives the worktable to move left and right, and the motion range of the worktable is equal to three times its effective stroke s. Installation takes up a large space and is generally used on small equipment.
When the piston rod is fixed, the piston rod is made hollow, and the cylinder block is connected with the load (worktable). Compressed air enters the cylinder cavity from the left or right end of the hollow piston rod, so that the cylinder block drives the worktable to move left or left. The range of motion of the worktable is twice its effective stroke. Suitable for medium and large equipment.