ATO double acting welded hydraulic cylinder consists of a cylindrical barrel, a piston, and end caps, all securely welded together. These welded clevis hydraulic cylinders come in various sizes and configurations, making them versatile for use in diverse industrial and mobile equipment, including mini excavators, robotics, log splitters, dump trucks, press machines, dump trailers, and so on.
Specification
Model |
ATO-HSG40150 |
ATO-HSG50150 |
ATO-HSG63150 |
ATO-HSG80150 |
ATO-HSG100150 |
Acting Type |
Double Acting |
Stroke |
6 inch (150mm) |
Rated Pressure |
16Mpa |
Installation |
Double Ear Welding Type |
Speed Ratio |
1:3 |
Bore Diameter |
φ40mm |
φ50mm |
φ63mm |
φ80mm |
φ100mm |
Load Capacity |
2 Ton |
3 Ton |
5 Ton |
8 Ton |
12 Ton |
Rated Push Force |
30772N (3 Ton) |
30772N (3 Ton) |
49850N (5 Ton) |
80384N (8 Ton) |
80384N (8 Ton) |
Rated Pull Force |
21121N (2 Ton) |
21121N (2 Ton) |
31681N (3 Ton) |
48984N (5 Ton) |
49014N (5 Ton) |
Oil Port |
18*1.5 |
18*1.5 |
18*1.5 |
18*1.5 |
22*1.5 |
Note: If you need to customize welded hydraulic cylinders of other sizes, including bore diameter, stroke, etc., please feel free to contact us.
Dimension (Unit: mm)
ATO-HSG40150
ATO-HSG50150
ATO-HSG63150
ATO-HSG80150
ATO-HSG100150
Model |
Inner Diameter |
Outer Diameter |
Rod Diameter |
Stroke |
Oil Port |
Pin Hole |
Installation Distance |
Total Length |
ATO-HSG40150 |
40 |
50 |
25 |
150 |
18*1.5 |
20 |
380 |
430 |
ATO-HSG50150 |
50 |
60 |
28 |
150 |
18*1.5 |
20 |
390 |
440 |
ATO-HSG63150 |
63 |
73 |
35 |
150 |
18*1.5 |
30 |
420 |
490 |
ATO-HSG80150 |
80 |
90 |
50 |
150 |
18*1.5 |
40 |
450 |
530 |
ATO-HSG100150 |
100 |
112 |
63 |
150 |
22*1.5 |
50 |
520 |
610 |
Tips: How does a hydraulic cylinder work?
A hydraulic cylinder is a mechanical device that converts fluid power into linear motion. It consists of a cylindrical tube, a piston, and hydraulic fluid. When force is applied to the fluid within the cylinder, typically by a pump, it creates pressure. This pressure acts on the piston, causing it to move within the cylinder. The piston is connected to a rod, and as it moves, it generates linear force and motion.
The key principle at work is Pascal's law, which states that any change in pressure applied to an enclosed fluid is transmitted undiminished in all directions. In a hydraulic cylinder, this pressure is harnessed to produce controlled and powerful linear motion, making them valuable in a wide range of applications, from construction equipment and manufacturing machinery to automotive braking systems and more. By controlling the flow of hydraulic fluid, the direction and speed of the piston's movement can be precisely regulated, allowing for precise control over the machine or system it powers.