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HYDRAULIC CYLINDER ADVANTAGES
The horsepower-to-weight ratio of a hydraulic cylinder is superior to that of a pneumatic cylinder, with hydraulics gaining one or two horsepower per pound. When it comes to power, a hydraulic
cylinder can create a mechanical force that is 25 times more powerful than a pneumatic cylinder with the exact dimensions.
Unlike pneumatic cylinders that max out at 250 psi, a top-of-the-line hydraulic pump can produce 4000 psi. Since the hydraulic fluid is incompressible, hydraulic cylinders do not need additional fluid
added to maintain constant force and torque. Even if the hydraulic pump and motor are located a significant distance from the operation, they can function efficiently without a noticeable loss of power.
Cylinder Parameter:
Model | Work pressure (Mpa) | Bore size D(mm) | Model | Work pressure (Mpa) | Bore size D(mm) | Model | Work pressure (Mpa) | Bore size D(mm) |
HSGL01-40/dE | 16 | φ40 | HSGL01-100/dE | 16 | φ100 | HSGL01-160/dE | 16 | φ160 |
HSGL01-50/dE | φ50 | HSGL01-110/dE | φ110 | HSGL01-180/dE | φ180 | |||
HSGL01-63/dE | φ63 | HSGL01-125/dE | φ125 | HSGL01-200/dE | φ200 | |||
HSGL01-80/dE | φ80 | HSGL01-140/dE | φ140 | HSGL01-220/dE | φ220 | |||
HSGL01-90/dE | φ90 | HSGL01-150/dE | φ150 | HSGL01-250/dE | φ250 | |||
Application: Hydraulic cylinder can application for Excavator, Forklift, Snowplow, Farm Cultivator, Metallurgical Machinery, Agricultural Machinery, Forest Machinery, Construction Machinery and more. | ||||||||
If you have any questions, please contact our customer service. During the purchase process, we can meet all your needs. For hydraulic equipment, please look for Blince! | ||||||||
Model (HSGL-01-) | ψ=1.33 | ψ=1.46 | ψ=2 | Min.stroke S1(mm) | ψ=1.46 | ||||
Rod size d(mm) | Max.stroke S(mm) | Rod size d(mm) | Max.stroke S(mm) | Rod size d(mm) | Max.stroke S(mm) | Push force (N) | Pull force (N) | ||
40/dE | 20 | 320 | 22 | 400 | 25 | 480 | - | 20090 | 14020 |
50/dE | 25 | 400 | 28 | 500 | 32 | 600 | - | 31400 | 21550 |
63/dE | 32 | 500 | 35 | 630 | 45 | 750 | - | 49870 | 34480 |
80/dE | 40 | 640 | 45 | 800 | 55 | 950 | - | 19870 | 54980 |
80/dE | 40 | 640 | 45 | 800 | - | - | 30 | 80420 | 54980 |
90/dE | 45 | 720 | 50 | 900 | 63 | 1080 | 40 | 101790 | 70360 |
100/dE | 50 | 800 | 55 | 1000 | 70 | 1200 | 40 | 125660 | 87650 |
1.ψ is the ratio of piston chamber effective area and piston rod chamber effective area. 2.The maximum stroke: S=3D when ψ=1.33; S=10D when ψ=1.46; S=12D when ψ=2. 3.“s1”means the minimum stroke expect for trunnion and intermediate flange mountings. | |||||||||
The Working Principle Of The Cylinder:
HOW DOES A HYDRAULIC ACTUATOR WORK?
Hydraulic actuators operate on the basis of Pascal's Principle of fluid mechanics. In the 17th century,Blaise Pascal discovered that any change in pressure in hydraulic fluid results in the equal
distribution of eneray in every direction in the fluid chamber. This means that if you have two pistons in one container and apply X amount of pressure on one piston, an equal X amount of pressure
affects the second piston.
Pascal also discovered that the pressure in a fluid chamber equals the force applied divided by the area of the chamber. This formula P=F/A is the foundation for industrial machinery worldwide.For
example, take two pistons in a fluid chamber where pressure is applied to the first cylinder. lf the area is five times greater than the first area, the force on the second cylinder is five times greater.
Cylinder Application:
We offer a variety of specialty hydraulic cylinders for many industrial and mobile applications, including on and offshore oil industry, injection molding machines, locks and dams, steel industry, testing equipment and more. Cylinders are available in different types such as telescopic, servo cylinders high frequency oscillating, large bore, long stroke, etc
HYDRAULIC CYLINDER ADVANTAGES
The horsepower-to-weight ratio of a hydraulic cylinder is superior to that of a pneumatic cylinder, with hydraulics gaining one or two horsepower per pound. When it comes to power, a hydraulic
cylinder can create a mechanical force that is 25 times more powerful than a pneumatic cylinder with the exact dimensions.
Unlike pneumatic cylinders that max out at 250 psi, a top-of-the-line hydraulic pump can produce 4000 psi. Since the hydraulic fluid is incompressible, hydraulic cylinders do not need additional fluid
added to maintain constant force and torque. Even if the hydraulic pump and motor are located a significant distance from the operation, they can function efficiently without a noticeable loss of power.
Cylinder Parameter:
Model | Work pressure (Mpa) | Bore size D(mm) | Model | Work pressure (Mpa) | Bore size D(mm) | Model | Work pressure (Mpa) | Bore size D(mm) |
HSGL01-40/dE | 16 | φ40 | HSGL01-100/dE | 16 | φ100 | HSGL01-160/dE | 16 | φ160 |
HSGL01-50/dE | φ50 | HSGL01-110/dE | φ110 | HSGL01-180/dE | φ180 | |||
HSGL01-63/dE | φ63 | HSGL01-125/dE | φ125 | HSGL01-200/dE | φ200 | |||
HSGL01-80/dE | φ80 | HSGL01-140/dE | φ140 | HSGL01-220/dE | φ220 | |||
HSGL01-90/dE | φ90 | HSGL01-150/dE | φ150 | HSGL01-250/dE | φ250 | |||
Application: Hydraulic cylinder can application for Excavator, Forklift, Snowplow, Farm Cultivator, Metallurgical Machinery, Agricultural Machinery, Forest Machinery, Construction Machinery and more. | ||||||||
If you have any questions, please contact our customer service. During the purchase process, we can meet all your needs. For hydraulic equipment, please look for Blince! | ||||||||
Model (HSGL-01-) | ψ=1.33 | ψ=1.46 | ψ=2 | Min.stroke S1(mm) | ψ=1.46 | ||||
Rod size d(mm) | Max.stroke S(mm) | Rod size d(mm) | Max.stroke S(mm) | Rod size d(mm) | Max.stroke S(mm) | Push force (N) | Pull force (N) | ||
40/dE | 20 | 320 | 22 | 400 | 25 | 480 | - | 20090 | 14020 |
50/dE | 25 | 400 | 28 | 500 | 32 | 600 | - | 31400 | 21550 |
63/dE | 32 | 500 | 35 | 630 | 45 | 750 | - | 49870 | 34480 |
80/dE | 40 | 640 | 45 | 800 | 55 | 950 | - | 19870 | 54980 |
80/dE | 40 | 640 | 45 | 800 | - | - | 30 | 80420 | 54980 |
90/dE | 45 | 720 | 50 | 900 | 63 | 1080 | 40 | 101790 | 70360 |
100/dE | 50 | 800 | 55 | 1000 | 70 | 1200 | 40 | 125660 | 87650 |
1.ψ is the ratio of piston chamber effective area and piston rod chamber effective area. 2.The maximum stroke: S=3D when ψ=1.33; S=10D when ψ=1.46; S=12D when ψ=2. 3.“s1”means the minimum stroke expect for trunnion and intermediate flange mountings. | |||||||||
The Working Principle Of The Cylinder:
HOW DOES A HYDRAULIC ACTUATOR WORK?
Hydraulic actuators operate on the basis of Pascal's Principle of fluid mechanics. In the 17th century,Blaise Pascal discovered that any change in pressure in hydraulic fluid results in the equal
distribution of eneray in every direction in the fluid chamber. This means that if you have two pistons in one container and apply X amount of pressure on one piston, an equal X amount of pressure
affects the second piston.
Pascal also discovered that the pressure in a fluid chamber equals the force applied divided by the area of the chamber. This formula P=F/A is the foundation for industrial machinery worldwide.For
example, take two pistons in a fluid chamber where pressure is applied to the first cylinder. lf the area is five times greater than the first area, the force on the second cylinder is five times greater.
Cylinder Application:
We offer a variety of specialty hydraulic cylinders for many industrial and mobile applications, including on and offshore oil industry, injection molding machines, locks and dams, steel industry, testing equipment and more. Cylinders are available in different types such as telescopic, servo cylinders high frequency oscillating, large bore, long stroke, etc
