Small double acting welded hydraulic cylinder consists of a cylindrical barrel, piston and end cover, all firmly welded together. These welded clevis hydraulic cylinders are available in various bore sizes and strokes and can be used in a wide range of industrial and mobile equipment, including mini excavators, robots, log splitters, dump trucks, press machine, dump trailers, etc.
Specification
Model |
ATO-HSG40250 |
ATO-HSG50250 |
ATO-HSG80250 |
ATO-HSG100250 |
Acting Type |
Double Acting |
Stroke |
10 inch (250mm) |
Rated Pressure |
16Mpa |
Installation |
Double Ear Welding Type |
Speed Ratio |
1:3 |
Bore Diameter |
φ40mm |
φ50mm |
φ80mm |
φ100mm |
Load Capacity |
2 Ton |
3 Ton |
8 Ton |
12 Ton |
Rated Push Force |
30772N (3 Ton) |
30772N (3 Ton) |
80384N (8 Ton) |
80384N (8 Ton) |
Rated Pull Force |
21121N (2 Ton) |
21121N (2 Ton) |
48984N (5 Ton) |
49014N (5 Ton) |
Oil Port |
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-HSG40250
ATO-HSG50250
ATO-HSG80250
ATO-HSG100250
Model |
Inner Diameter |
Outer Diameter |
Rod Diameter |
Stroke |
Oil Port |
Pin Hole |
Installation Distance |
Total Length |
ATO-HSG40250 |
40 |
50 |
25 |
250 |
18*1.5 |
20 |
480 |
530 |
ATO-HSG50250 |
50 |
60 |
28 |
250 |
18*1.5 |
20 |
490 |
540 |
ATO-HSG80250 |
80 |
90 |
50 |
250 |
18*1.5 |
40 |
550 |
630 |
ATO-HSG100250 |
100 |
112 |
63 |
250 |
22*1.5 |
50 |
620 |
710 |
Tips: How much weight can a welded hydraulic cylinder lift?
The weight a welded hydraulic cylinder can lift depends on various factors, including its design, size, operating pressure, and construction quality. Hydraulic cylinders are used to convert hydraulic pressure into mechanical force, making them powerful tools for lifting heavy loads. A cylinder's lifting capacity is determined by its bore size (the diameter of the piston), the operating pressure of the hydraulic system, and the effective area of the piston.
For example, if you have a hydraulic cylinder with a 4-inch bore and it operates at a pressure of 3,000 PSI, the effective force it can generate would be around 6 ton (4 square inches x 3,000 PSI). This is a simplified calculation and doesn't account for factors like friction, inefficiencies, or the strength of the cylinder's materials.
It's essential to consult the manufacturer's specifications and engineering calculations to ensure safety and optimal performance, as improper use or exceeding the cylinder's rated capacity can lead to failure or accidents.