Product Description
Detailed Photos
Product Parameters
Urban waste soil
| Box size (L-W*H/mm) |
Box rear suspension (mm) |
Top cover form | Recommended cylinder model |
lifting foree (/Ton) |
lifting angle (/°) |
| 5600*2350*900 | 600 | Butterfly iron cover | EFA149-4-4320 | 46 | 46.7 |
| Swing ara top cover | EFA149-5-4480 | 31.2 | 48.7 | ||
| Tarpaulin high push | EFA169-6-4420 | 32.1 | 47.9 | ||
| 5600*2350*1200 | 600 | Butterfly iron cover/swing arm top cover | EFA149-4-4320 | 49 | 46.7 |
| Tarpaulin high push | EFA149-5-4480 | 33.8 | 48.7 | ||
| Tarpaulin high push | EFA169-6-4420 | 34.8 | 47.9 | ||
| 5600*2350*1500 | 600 | Tarpaulin high push/flat push | FCA137-4-5715-HD | 46.5 | 47.3 |
| 5800*2350*1500 | 650 | Tarpaulin high push/flat push | FCA137-4-5715-HD | 46.7 | 47.8 |
| 6000*2350*1500 | 700 | Tarpaulin high push/flat push | FCA149-4- 0571 5-HD | 60 | 48.2 |
| 6200*2350*1500 | 750 | Tarpaulin high push/flat push | FCA157-5-04850-HD | 48 | 48.7 |
| 6500*2350*1500 | 800 | Tarpaulinhigh push/flat push | FCA169-5-05075-HD | 60.5 | 48.9 |
| 6800*2350*1500 | 850 | Tarpaulin high push/flat push | FCA169-5-05225-HD | 60.5 | 48.3 |
Lightweight
| Box size (L*W*H/mm) |
Box rear suspension (mm) |
Recommended cylinder Modol |
lifting force (Ton) |
ifting angle (/°) |
| 6200*2350*1500 | 750 | FEA157-5-04850-K1289 | 49.9 | 49.3 |
| 6500*2350*1500 | 800 | FEA157-5-05075-K1334 | 49.1 | 49.5 |
| 6800*2350*1500 | 850 | FEA169-5-05225-K1364 | 60.5 | 48.9 |
| 7200*2350*1500 | 900 | FEA179-5-05200-K1372 | 67.2 | 45.8 |
| 7600*2350*1500 | 1000 | FEA179-5-05425-K1417 | 66.9 | 45.8 |
| 8000*2350*1500 | 1100 | FEA179-5- 0571 5-K1457 | 66.2 | 45.5 |
Highway overload
| Box size (L*W*H/mm) |
Box rear suspension (mm) |
Recommended cylinder Modol |
lifting force (Ton) |
ifting angle (/°) |
| 6800*2350*1500 | 950 | FCA169-4-5715-HD | 86.5 | 47.9 |
| 7200*2350*1500 | 1000 | FCA179-4-5715-HD | 98.7 | 47.7 |
| 7600*2350*1500 | 1050 | FCA179-4-05605-HD | 95.9 | 47.3 |
| 8000*2350*1500 | 1100 | FCA191-4-05845 | 110.5 | 46.9 |
| 8400*2350*1500 | 1200 | FCA191-4-06100 | 111.2 | 47.1 |
| 8800*2350*1500 | 1250 | FCA202-4-06100 | 120 | 44.8 |
Flip back half hanging
| Box size (L*W*H/mm) |
Box rear suspension (mm) |
Recommended cylinder Modol |
lifting force (Ton) |
ifting angle (/°) |
| 6200*2350*1200 | 255 | FCA169-4-5715-HD | 65.3 | 47.1 |
| 7700*2350*1200 | 650 | FCA179-5-05825-HD | 55.2 | 45.7 |
| 8200*2350*1200 | 650 | FCA179-5-06571-HD | 52.7 | 44.2 |
| 8600*2350*1200 | 650 | FCA179-5-06375-HD | 52 | 44.6 |
| 9300*2350*1000 | 700 | FCA179-5-06725-HD | 49.5 | 43.6 |
| 9600*2350*1000 | 700 | FCA191-5- 0571 1 | 60.9 | 44.1 |
| 15710*2350*1000 | 750 | FCA191-5-5715 | 59.8 | 43.4 |
Product Details
The CHINAMFG hydraulic cylinder adopts excellent sealing technology and new material applications, which can withstand the worstworking conditions and can adapt to the temperature range of
-40~110°C. It operates continuously and stably in high and low temperature environments, ensuring the safety of drivers and vehicles.
1. Adopts high-quality 27SiMn regulated steel pipe, with high tensile strength, high yield and strong bearing capacity.
2. Patented technology design and advanced production manufacturing are adopted to ensure the stability of product quality.
3. Imported oil seal is adopted, with good sealing performance.
4. Special design, light weight, fast lifting and lowering speed.
5. Surface is chromed to increase the surface hardness and prolong the service life.
Application
We have more hydraulic cylinders, you can initiate inquiries and contact us
Company Introduction
HangZhou CHINAMFG Machinery Co., Ltd. was established in 2002 and is located at the north end of the East Outer Ring Road in HangZhou City (1 kilometer south of thehighway toll station), with convenient transportation. The company is a profes-sional equipment production enterprise dedicated to the design, research and development, and manufacturing of hydraulic machinery products. Leading vari-ous specialized vehicle hydraulic cylinder assemblies and hydraulic system prod-ucts.
The company covers an area of over 100 acres. We have a total of 150 sets of deep hole boring equipment, cold drawing production lines, testing equipment, various CNC machining machines, cylindrical grinding machines, centerless grind-ing machines, welding production lines, etc. The company passed the IS09001d quality system certification in 2003; In 2013, it passed ISO/TSI6949 international quality system certification and was awarded the title of China's Quality Integrity AAA Class Brand Enterprise.
Other products
Packaging & Shipping
After sending, we will track the products for you once every 2 days, until you get the products. When you got the goods, test them, and give me a feedback. If you have any questions about the problem, contact with us, we will offer the solve way for you.
FAQ
Q1: How is the quality?
We adopt patented technology structure design and advanced production process, and have passed the IATF16949:2016 quality control system and ISO9001 to ensure stable product quality.
Q2: What are the advantages of your oil cylinder?
The oil cylinder is manufactured using advanced equipment and processed through strict quality control. The steel has undergone tempering treatment, and all raw mate-
rials are from world-renowned companies with superior quality.
Competitive prices!
Q3: When was your company established?
Our company was established in 2002, specializing in the production of hydraulic cyl-
inders for over 20 years.
Q4: What is the delivery time?
About 30 days.
Q5: What is the quality assurance of hydraulic cylinders?
One year.
To get price list of promotion hydro cylinder, please contact us
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What safety considerations are important when using machinery with telescopic cylinders?
When using machinery with telescopic cylinders, several safety considerations should be taken into account. Here's a detailed explanation:
Operator training and awareness:
Proper training and awareness are crucial for operators working with machinery equipped with telescopic cylinders. Operators should receive comprehensive training on the safe operation of the machinery, including the correct use of telescopic cylinders. They should be familiar with the controls, safety features, and best practices to ensure their own safety and the safety of others in the vicinity.
Regular inspection and maintenance:
Regular inspection and maintenance of telescopic cylinders are essential for ensuring safe operation. Cylinders should be inspected for signs of wear, damage, or leakage. Any issues should be addressed promptly to prevent potential failures or accidents. Lubrication, if required, should be performed according to the manufacturer's recommendations.
Proper load capacity and stability:
It is important to ensure that the machinery and telescopic cylinders are used within their specified load capacity. Exceeding the load capacity can lead to instability, loss of control, or structural failure. Proper weight distribution and secure attachment of loads are also critical to maintaining stability during operation.
Safe work environment:
Creating a safe work environment is essential when using machinery with telescopic cylinders. This includes maintaining clear and unobstructed pathways for the machinery's movement, removing potential hazards, and implementing appropriate safety measures such as barriers, signage, or warning systems to prevent unauthorized access or accidental contact with the machinery or its cylinders.
Emergency stop and shutdown procedures:
Emergency stop and shutdown procedures should be clearly communicated to operators. They should be trained on how to quickly and effectively stop the machinery's operation in case of an emergency or when a safety hazard is detected. These procedures should be regularly reviewed and practiced to ensure a prompt response in critical situations.
Proper guarding and protection:
Telescopic cylinders should be adequately guarded to prevent accidental contact and potential injuries. Guarding may include physical barriers, shields, or sensors that detect the presence of personnel or objects in the cylinder's path. Additionally, operators should wear appropriate personal protective equipment (PPE) as recommended for the specific task and working environment.
Compliance with regulations and standards:
It is important to ensure compliance with relevant regulations and safety standards when using machinery with telescopic cylinders. These regulations and standards may address aspects such as design, installation, operation, maintenance, and inspection of the machinery and its components. Adhering to these requirements helps mitigate risks and promotes a safe working environment.
Regular risk assessments:
Regular risk assessments should be conducted to identify and address potential hazards associated with the machinery and telescopic cylinders. This includes assessing risks related to operation, maintenance, equipment failure, environmental conditions, and human factors. Mitigation measures should be implemented based on the findings of the risk assessment.
Overall, safety considerations when using machinery with telescopic cylinders involve operator training, regular inspection and maintenance, load capacity and stability, safe work environment, emergency procedures, guarding and protection, compliance with regulations, and regular risk assessments. By addressing these considerations, the risks associated with operating machinery with telescopic cylinders can be minimized, promoting a safer working environment.
It's important to consult the machinery manufacturer's guidelines, safety manuals, and applicable regulations to ensure comprehensive understanding and implementation of safety practices.
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 handle variations in extension and retraction?
A telescopic cylinder is designed to handle variations in extension and retraction through its inherent structure and hydraulic system. Here's a detailed explanation:
Handling variations in extension:
When extending a telescopic cylinder, each stage or sleeve extends successively, one inside the other, to achieve the desired stroke length. This nested structure allows for incremental extension, providing flexibility in adapting to different extension requirements. The hydraulic system supplies pressurized fluid to each stage's piston, generating the necessary force for extension. The internal flow paths in the cylinder ensure synchronized movement of the stages, allowing for controlled and precise extension.
Handling variations in retraction:
During retraction, the telescopic cylinder stages retract in the reverse order of extension. The hydraulic system controls the flow of fluid to each stage, allowing for controlled retraction. The nested structure of the cylinder ensures that each stage retracts smoothly inside the preceding stage. The hydraulic pressure and flow are regulated to prevent rapid or uncontrolled retraction, ensuring safe and stable operation.
Compensating for variations:
Telescopic cylinders are designed to compensate for variations in extension and retraction through their hydraulic control systems. The hydraulic system can be adjusted to vary the flow rate, pressure, or force applied to each stage, allowing for fine-tuning and accommodating different extension and retraction requirements. Additionally, the locking mechanisms incorporated in telescopic cylinders help maintain the extended position securely, compensating for external forces or variations in loads.
Overall, the nested structure, hydraulic system, and locking mechanisms of telescopic cylinders provide the necessary flexibility and control to handle variations in extension and retraction. This enables the cylinders to adapt to different operating conditions, loads, and stroke length requirements in various applications.
It's important to follow the manufacturer's guidelines and recommendations for proper operation, maintenance, and adjustment of telescopic cylinders to ensure their reliable and safe performance.
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editor by Dream 2024-11-05