Product Description
Product Description
Bore of cylinder’s first stage | Stroke | Upper mouting | Upper mouting | Mounting dimension | Working pressure | ||
Diameter of the hole | Deep | Diameter of the hole | Deep | ||||
5 | 84.00 | 1.63 | 1.50 | 2.00 | 7.00 | 41.09 | 2500 |
6 | 120.06 | 2.00 | 2.00 | 2.00 | 7.00 | 52.62 | 2500 |
7 | 120.00 | 2.00 | 2.00 | 2.00 | 8.25 | 53.12 | 2500 |
8.125 | 234.00 | 2.00 | 2.00 | 2.00 | 9.50 | 64.62 | 2500 |
9.375 | 235.00 | 2.00 | 2.00 | 2.00 | 10.88 | 65.44 | 2500 |
L2 | L3 | L4 | L5 | L6 | ØA | Fitting | Workable container length | Rear suspension length | Lift angle | Lift capacity | Oil tank volume |
65 | 360 | 60 | 325 | 1585 | Ø60 | G1 | 4700-5300 | 800 | 47-52° | 43 | 80 |
65 | 360 | 60 | 325 | 1270 | Ø60 | G1 | 4700-5300 | 800 | 47-52° | 31 | 80 |
65 | 360 | 60 | 325 | 1390 | Ø60 | G1 | 5300-6000 | 800 | 47-52° | 36 | 80 |
65 | 360 | 60 | 325 | 1510 | Ø60 | G1 | 5800-6500 | 800 | 47-52° | 36 | 80 |
65 | 360 | 60 | 325 | 1385 | Ø60 | G1 | 5300-5800 | 800 | 47-52° | 53 | 80 |
65 | 360 | 60 | 325 | 1505 | Ø60 | G1 | 5800-6500 | 800 | 47-52° | 53 | 100 |
65 | 360 | 60 | 325 | 1580 | Ø60 | G1 | 6200-6800 | 800 | 47-52° | 58 | 100 |
65 | 360 | 60 | 325 | 1655 | Ø60 | G1 | 6600-7200 | 800 | 47-52° | 58 | 100 |
65 | 360 | 60 | 325 | 1125 | Ø60 | G1 | 5000-5500 | 800 | 47-52° | 46 | 80 |
65 | 360 | 60 | 325 | 1165 | Ø60 | G1 | 5300-6000 | 800 | 47-52° | 46 | 80 |
65 | 360 | 60 | 325 | 1265 | Ø60 | G1 | 5800-6500 | 800 | 47-52° | 49 | 80 |
65 | 360 | 60 | 325 | 1340 | Ø60 | G1 | 6200-6800 | 800 | 47-52° | 49 | 80 |
65 | 360 | 60 | 325 | 1385 | Ø60 | G1 | 6600-7200 | 800 | 47-52° | 49 | 80 |
65 | 360 | 65 | 325 | 1455 | Ø60 | G1 | 5600-6300 | 800 | 47-52° | 66 | 120 |
65 | 360 | 65 | 325 | 1505 | Ø60 | G1 | 5800-6500 | 800 | 47-52° | 66 | 120 |
65 | 360 | 65 | 325 | 1580 | Ø60 | G1 | 6200-6800 | 800 | 47-52° | 70 | 120 |
65 | 360 | 65 | 325 | 1655 | Ø60 | G1 | 6600-7200 | 800 | 47-52° | 70 | 120 |
65 | 360 | 65 | 325 | 1750 | Ø60 | G1 | 7200-8000 | 1000 | 47-52° | 70 | 135 |
65 | 360 | 65 | 325 | 1270 | Ø60 | G1 | 7200-8000 | 1000 | 47-52° | 49 | 120 |
65 | 360 | 65 | 325 | 1675 | Ø65 | G1 | 6600-7200 | 800 | 47-52° | 92 | 165 |
65 | 360 | 65 | 325 | 1770 | Ø65 | G1 | 7200-8000 | 1000 | 47-52° | 96 | 165 |
65 | 360 | 65 | 325 | 1870 | Ø65 | G1 | 8000-8500 | 1000 | 47-52° | 96 | 185 |
65 | 360 | 65 | 325 | 1770 | Ø65 | G1 | 8700-9500 | 1000 | 47-52° | 88 | 185 |
Company Profile
Certifications
Packaging & Shipping
FAQ
Q1: Can your cylinders with HYVA ones ?
Yes, our cylinders can replace HYVA ones well, with same technical details and mounting sizes
Q2: What’s your cylinder’s advantages ?
The cylinders are made under strictly quality control processing.
All the raw materials and seals we used are all from world famous companies.
Cost effective
Q3: When your company be established ?
Our company be established in 1996, and we are professional for hydraulic cylinders for more than 25 years.
And we had passed IATF 16949:2016 Quality control system.
Q4: How about the delivery time ?
For samples about 20 days. And 15 to 30 days about mass orders.
Q5: How about the cylinder’s quality gurantee ?
We have 1 year quality grantee of the cylinders.
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Certification: | ISO9001, IATF 16949:2016 |
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Pressure: | High Pressure |
Work Temperature: | Normal Temperature |
Acting Way: | Double Acting |
Working Method: | Straight Trip |
Adjusted Form: | Regulated Type |
Samples: |
US$ 1000/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
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What safety considerations are essential when working with telescopic hydraulic cylinders?
Working with telescopic hydraulic cylinders requires strict adherence to safety guidelines and procedures to prevent accidents and injuries. Here’s a detailed explanation of the essential safety considerations:
Proper Installation:
Ensure that the telescopic hydraulic cylinder is installed correctly according to the manufacturer’s guidelines. Improper installation can result in cylinder failure, leading to accidents and injuries. Follow proper procedures for mounting, aligning, and securing the cylinder to prevent movement or dislodging during operation.
Load Capacity:
Ensure that the selected telescopic hydraulic cylinder has the appropriate load capacity for the application. Overloading the cylinder can cause it to fail, leading to accidents and injuries. Consider the weight, size, and center of gravity of the load to ensure that the cylinder can handle the intended load.
Proper Operation:
Follow proper procedures for operating the telescopic hydraulic cylinder. Ensure that the hydraulic system is functioning correctly and that the cylinder is extending and retracting smoothly. Avoid operating the cylinder beyond its recommended stroke or speed to prevent overloading and overheating. Regularly inspect the cylinder for any signs of wear or damage that may compromise its performance and safety.
Operator Safety:
Ensure that operators are adequately trained and qualified to operate the telescopic hydraulic cylinder. Operators must follow safety guidelines and procedures to prevent accidents and injuries. Avoid placing any body parts or clothing near the cylinder during operation. Use appropriate personal protective equipment, such as gloves, goggles, and hard hats, to prevent injuries from flying debris, hydraulic fluid, or other hazards.
Emergency Stop:
Ensure that an emergency stop mechanism is available and easily accessible in case of an emergency. This mechanism can quickly stop the cylinder’s motion in case of a malfunction or an unexpected event, preventing accidents and injuries.
Maintenance:
Regularly inspect and maintain the telescopic hydraulic cylinder to ensure its optimal performance and safety. Follow the manufacturer’s guidelines for maintenance, including lubrication, cleaning, and inspection of the cylinder components. Replace any worn or damaged components promptly to prevent cylinder failure.
Overall, working with telescopic hydraulic cylinders requires strict adherence to safety guidelines and procedures. Proper installation, load capacity, operation, operator safety, emergency stop, and maintenance are essential considerations to prevent accidents and injuries.
It’s crucial to consult the manufacturer’s documentation and guidelines for specific information on the selection, installation, operation, and maintenance of telescopic hydraulic cylinders.
Can telescopic hydraulic cylinders be utilized in forestry equipment for tree handling?
Yes, telescopic hydraulic cylinders can be effectively utilized in forestry equipment for tree handling. Here’s a detailed explanation:
Forestry equipment often requires the ability to handle trees of varying sizes and weights. Telescopic hydraulic cylinders offer several advantages that make them suitable for tree handling applications.
Extended Reach:
Telescopic hydraulic cylinders provide extended reach capabilities, allowing forestry equipment to reach and handle trees at various heights and distances. The multiple stages of the cylinder can be extended and retracted, providing a longer stroke length compared to other types of cylinders. This extended reach enables the equipment to access trees in different locations, including those that are tall or located in challenging terrain.
Adjustable Boom Length:
Forestry equipment often incorporates booms or arms for tree handling. Telescopic hydraulic cylinders can be integrated into these booms, offering adjustable boom lengths. By extending or retracting the stages of the cylinder, the boom length can be adjusted to match the size and position of the tree. This flexibility allows for precise positioning and efficient handling of trees during forestry operations.
High Load Capacity:
Telescopic hydraulic cylinders are designed to handle high load capacities, making them suitable for tree handling in forestry equipment. Trees can be heavy and require robust lifting capabilities. The multiple stages of the cylinder offer additional strength and stability, allowing the equipment to lift and manipulate trees with ease.
Controlled and Precise Movement:
When handling trees, controlled and precise movement is crucial to avoid damage to the equipment and the tree itself. Telescopic hydraulic cylinders provide smooth and controlled extension and retraction, allowing for precise control over the movement of the boom or arm. This precision enables operators to position the equipment accurately and handle trees with care, minimizing the risk of accidents or tree damage.
Stability and Durability:
Forestry operations can be demanding and require equipment that can withstand harsh conditions. Telescopic hydraulic cylinders are known for their stability and durability. The multiple stages of the cylinder offer increased rigidity and resistance to bending or deflection, ensuring reliable performance even in rugged forestry environments.
Overall, telescopic hydraulic cylinders can be effectively utilized in forestry equipment for tree handling. Their extended reach, adjustable boom length, high load capacity, controlled movement, stability, and durability make them a suitable choice for various tree handling applications in the forestry industry.
It’s important to consult the manufacturer’s documentation and guidelines for specific information on the selection, installation, operation, and maintenance of telescopic hydraulic cylinders in forestry equipment for tree handling.
What industries commonly utilize telescopic hydraulic cylinders in their machinery?
Telescopic hydraulic cylinders find applications in a wide range of industries where extended reach and adjustable length are required. Here’s a detailed explanation:
Industries:
1. Construction and Infrastructure: Telescopic hydraulic cylinders are extensively used in the construction and infrastructure industry. They are found in equipment such as cranes, excavators, backhoes, concrete pumps, and telescopic boom lifts. These cylinders enable the extension and retraction of booms, arms, and other components, providing increased reach and versatility for various construction tasks.
2. Material Handling: The material handling industry relies on telescopic hydraulic cylinders for efficient load handling and stacking operations. Forklifts, reach stackers, container handlers, and other material handling equipment utilize these cylinders for lifting, tilting, and extending forks, masts, and other load-bearing components.
3. Agriculture: In the agricultural sector, telescopic hydraulic cylinders are commonly employed in equipment such as front-end loaders, harvesters, sprayers, and agricultural lifts. They enable the extension and retraction of arms, buckets, booms, and other components, assisting in various farming tasks such as loading, harvesting, spraying, and accessing elevated areas.
4. Transportation: The transportation industry utilizes telescopic hydraulic cylinders in applications involving trucks, trailers, and other vehicles. Dump trucks utilize these cylinders for the extension and retraction of the tipping bed, facilitating efficient unloading of materials. Telescopic cylinders are also used in vehicle tailgates, ramps, lifting platforms, and other vehicle components.
5. Automotive and Mobile Equipment: Telescopic hydraulic cylinders are found in automotive and mobile equipment such as car carriers, tow trucks, utility vehicles, and hydraulic lifts. They provide the necessary linear motion for vehicle tilting, lifting, and other operations.
6. Marine and Offshore: The marine and offshore industry employs telescopic hydraulic cylinders in various applications. They are used in boat lifts for launching and retrieving boats, as well as in hydraulic systems for marine equipment such as cranes, winches, and offshore platforms.
7. Waste Management: Telescopic hydraulic cylinders play a crucial role in waste management applications. They are utilized in garbage trucks for compacting and emptying waste containers, facilitating the disposal process.
8. Manufacturing and Industrial Machinery: Telescopic hydraulic cylinders are incorporated into industrial machinery and manufacturing equipment for various purposes. They provide adjustable length and extended reach in hydraulic presses, machine tools, robotic systems, and other industrial applications.
These are just a few examples of industries that commonly utilize telescopic hydraulic cylinders in their machinery. The versatility and functionality of these cylinders make them valuable components across numerous sectors.
It’s important to consult the manufacturer’s documentation and guidelines for specific information on the selection, installation, operation, and maintenance of telescopic hydraulic cylinders in different industries.
editor by Dream 2024-05-09
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