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.
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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Can telescopic cylinders be used in construction equipment like cranes?
Yes, telescopic cylinders are commonly used in construction equipment, including cranes. Here's a detailed explanation:
Role in crane operation:
Telescopic cylinders play a critical role in the operation of cranes by enabling the extension and retraction of crane booms or arms. The telescopic cylinder is typically located at the base of the boom and is responsible for extending or retracting the boom sections, allowing the crane to reach different heights and distances.
Extension and retraction mechanism:
The telescopic cylinder in a crane consists of multiple stages or sleeves that retract inside one another. This nested design allows for compact storage when the boom is retracted, minimizing the overall length of the crane. When the cylinder extends, the stages slide out, increasing the length of the boom and providing the necessary reach. The synchronized extension and retraction of the stages are facilitated by the hydraulic control system.
Hydraulic control system:
The hydraulic control system in cranes is responsible for the precise and controlled extension and retraction of telescopic cylinders. It regulates the flow of hydraulic fluid to each stage of the cylinder, ensuring synchronized movement. By adjusting the flow rate, the operator can control the speed of extension and retraction, allowing for smooth and controlled operation of the crane.
Load handling capabilities:
Telescopic cylinders in cranes are designed to handle significant loads. They provide the necessary lifting force to support heavy loads at various boom lengths. The cylinder's bore size, rod diameter, and overall construction are engineered to withstand the forces exerted during lifting and to deliver the required lifting capacities.
Variety of crane types:
Telescopic cylinders are utilized in various types of cranes, including mobile cranes, truck-mounted cranes, and crawler cranes. These cranes are widely used in construction sites, infrastructure projects, and other lifting and material handling applications. The versatility of telescopic cylinders allows them to be integrated into different crane designs and configurations.
Advantages of telescopic cylinders in cranes:
Telescopic cylinders offer several advantages in crane applications. These include:
- Compactness: Telescopic cylinders enable the boom to be retracted to a compact size, making it easier to transport and maneuver the crane in confined spaces.
- Reach and height capabilities: The telescopic design allows the crane to achieve extended reach and height, enabling it to access elevated work areas or reach over obstacles.
- Efficiency: The controlled extension and retraction of telescopic cylinders contribute to efficient operation, allowing the crane to adjust its boom length quickly and precisely.
- Stability: Telescopic cylinders provide stability to the crane by supporting the boom and load, ensuring safe lifting and lowering of heavy objects.
Overall, telescopic cylinders are integral components of construction equipment like cranes. They enable the extension and retraction of crane booms, contribute to efficient and controlled operation, and enhance the lifting capabilities of cranes in various construction and material handling tasks.
It's important to consult the crane manufacturer's documentation and guidelines for specific information on the telescopic cylinder's capabilities, maintenance requirements, and safety considerations.
How do telescopic cylinders handle variations in hydraulic seal technology?
Telescopic cylinders are designed to accommodate variations in hydraulic seal technology. Here's a detailed explanation:
Compatibility with different seal types:
Telescopic cylinders are engineered to be compatible with various types of hydraulic seals available in the market. Whether it's a standard O-ring seal, lip seal, V-ring seal, or any other seal design, the cylinder's construction takes into account the requirements of different seal technologies. This compatibility ensures that telescopic cylinders can effectively handle variations in hydraulic seal technology.
Seal retention and protection:
Telescopic cylinders incorporate features to retain and protect hydraulic seals. The cylinder design includes seal grooves, seal retainers, or other mechanisms that securely hold the seals in place, preventing their displacement or damage during operation. This seal retention and protection mechanism ensures the longevity and effectiveness of the seals, regardless of the specific seal technology used.
Seal lubrication and contamination prevention:
Telescopic cylinders address the lubrication and contamination concerns associated with different seal technologies. The cylinder's hydraulic system is designed to provide proper lubrication to the seals, ensuring smooth movement and reducing friction. Additionally, measures such as seal scrapers or wipers are implemented to prevent the ingress of contaminants, such as dust, dirt, or moisture, which could compromise the performance of the seals. These lubrication and contamination prevention mechanisms cater to the specific requirements of various seal technologies.
Seal replacement and maintenance:
Telescopic cylinders are designed to facilitate seal replacement and maintenance procedures. The cylinder construction allows for easy access to the seals, simplifying the replacement process when necessary. This feature is advantageous when dealing with different seal technologies, as it enables swift and efficient maintenance, regardless of the specific seal design being used.
Adaptability to seal advancements:
Telescopic cylinder designs often incorporate adaptability to advancements in hydraulic seal technology. Manufacturers continuously develop new seal technologies to improve performance, durability, and efficiency. Telescopic cylinders are designed with flexibility to accommodate future advancements, ensuring compatibility with emerging seal technologies and allowing for upgrade possibilities without significant modifications to the cylinder itself.
Overall, telescopic cylinders are engineered to handle variations in hydraulic seal technology through compatibility with different seal types, seal retention and protection features, seal lubrication and contamination prevention mechanisms, ease of seal replacement and maintenance, and adaptability to seal advancements. These design considerations ensure that telescopic cylinders can effectively work with different seal technologies, providing reliable and efficient performance in hydraulic systems.
It's important to consult the equipment manufacturer's documentation and guidelines for specific information on the recommended seal types and maintenance practices for telescopic cylinders.
How does a telescopic cylinder contribute to precise reach and positioning?
A telescopic cylinder plays a crucial role in achieving precise reach and positioning in various applications. Here's a detailed explanation:
Nested structure:
The nested structure of a telescopic cylinder, consisting of multiple stages or sleeves that retract inside one another, enables precise reach and positioning. Each stage can be extended or retracted individually, allowing for incremental adjustments in the cylinder's length. This modular design provides fine-tuning capabilities, enabling operators to achieve the desired reach and positioning with accuracy.
Controlled extension and retraction:
The hydraulic control system of a telescopic cylinder ensures controlled extension and retraction of the stages. By regulating the flow of hydraulic fluid to each stage, operators can precisely control the speed and movement of the cylinder. This control allows for smooth and gradual extension or retraction, facilitating precise reach and positioning without abrupt or jerky movements.
Adjustable stroke length:
Telescopic cylinders offer the advantage of adjustable stroke length. The hydraulic system can be adjusted to vary the extension and retraction distance, allowing for customization based on the specific reach and positioning requirements of the application. This adjustability enables operators to adapt the cylinder's stroke length to different tasks and working conditions, ensuring precise and optimized reach.
Position feedback systems:
In some applications, telescopic cylinders may be equipped with position feedback systems. These systems utilize sensors or transducers to provide real-time feedback on the cylinder's extension or retraction position. By monitoring the position, operators can precisely track and control the reach and positioning of the cylinder, enhancing accuracy and repeatability.
Stability and rigidity:
Telescopic cylinders are designed to maintain stability and rigidity during operation. The nested structure, along with the hydraulic system, helps minimize unwanted oscillations or vibrations that could affect reach and positioning accuracy. This stability ensures that the cylinder maintains its intended position without undesired movement or deflection.
Overall, a telescopic cylinder contributes to precise reach and positioning through its nested structure, controlled extension and retraction, adjustable stroke length, position feedback systems (if equipped), and stability. These features enable operators to achieve accurate and repeatable reach and positioning in various applications.
It's important to consult the manufacturer's guidelines and specifications, as well as follow proper maintenance practices, to ensure the reliable and precise performance of telescopic cylinders in achieving reach and positioning requirements.
editor by CX 2023-11-16