Product Description
Product Description
Quick details
Gland —-High grade ductile iron
Tube —–Cold drawn honed tubling
Piston—–High grade ductile iron
Piston rod—-Chromed C45
Piston seal—-Urethane seal
End cap—-Casting seel
Mounting style—-Pins and clips included
Gland seals—-Polyurethane U-cup
Rod wiper—-Urethane snap in
Paint color—-Semi-gloss black, grey, red
1.Light-weight,high strength
Base on the nature of construction work,the hydraulic cylinders need to suit for high strength,high
using frequency,high fatigability.to promise the sability and reliablity of application.
2.the seal system
select the excellent seal kits from japan and germany.adopt the advanced physical design,make
sure the hydraulic cylinder get the best piston rod oil film
3.cylinder body
adopt the good-quality alloy honed tube,though cold-drawing and rolling,to reach an excellent
toughness and surface hardness.improve the wear-resistance.
4.piston rod
middle frequency induction hardening and tempering,chrome plated on rod surface to improve the
anti-rust ,wear-resistance and anti-scratch property.
5.safety/cushioning fuction
The inside of cylinder set up an cushioning device in the end of stroke,it can absorb the juge inpact.
Technical Specification size.
|
cylinder diameter (mm) |
piston rod diameter (mm) |
max stroke (mm) |
||
|
40 |
20 |
22 |
25 |
500 |
|
50 |
25 |
28 |
32 |
600 |
|
63 |
32 |
35 |
45 |
800 |
|
80 |
40 |
45 |
55 |
2000 |
|
90 |
45 |
50 |
63 |
2000 |
|
100 |
50 |
55 |
70 |
4000 |
|
110 |
55 |
63 |
80 |
4000 |
|
125 |
63 |
70 |
90 |
4000 |
|
140 |
70 |
80 |
100 |
4000 |
|
150 |
75 |
85 |
105 |
4000 |
|
160 |
80 |
90 |
110 |
4000 |
|
180 |
90 |
100 |
125 |
4000 |
|
200 |
100 |
110 |
140 |
4000 |
|
220 |
110 |
125 |
160 |
4000 |
|
250 |
125 |
140 |
180 |
4000 |
Cylinder tube machining
Piston
Application boom cylider, stick cylinder, Dozer cylinder.
| Excavator Type | Name | Stroke (mm) | Installation Diameter(mm) | Cylinder Diameter(mm) | Rod Diameter(mm) |
| 5.5T | Boom Cylinder | 710 | 1120 | 115 | 65 |
| Stick Cylinder | 815 | 1210 | 90 | 55 | |
| Bucket Cylinder | 605 | 945 | 85 | 55 | |
| Dozer Cylinder | 150 | 500 | 110 | 60 | |
| 6.5T | Boom Cylinder | 885 | 1311 | 110 | 65 |
| Stick Cylinder | 900 | 1300 | 90 | 60 | |
| Bucket Cylinder | 730 | 1120 | 80 | 50 | |
| Dozer Cylinder | 145 | 565 | 130 | 70 | |
| 11.5T | Left Boom Cylinder | 980 | 1480 | 100 | 70 |
| Right Boom Cylinder | 980 | 1480 | 100 | 70 | |
| Stick Cylinder | 1571 | 1530 | 115 | 80 | |
| Bucket Cylinder | 885 | 1375 | 95 | 65 | |
| 18.5T | Left Boom Cylinder | 1195 | 1790 | 120 | 85 |
| Right Boom Cylinder | 1195 | 1790 | 120 | 85 | |
| Stick Cylinder | 1405 | 2000 | 130 | 95 | |
| Bucket Cylinder | 1110 | 1630 | 110 | 80 | |
| 20T | Boom Cylinder | 1285 | 1870 | 120 | 85 |
| Stick Cylinder | 1490 | 2075 | 135 | 95 | |
| Bucket Cylinder | 1120 | 1680 | 115 | 80 | |
| 23T | Boom Cylinder Assembly | 1295 | 1870 | 130 | 90 |
| Stick Cylinder Assembly | 1675 | 2225 | 140 | 100 | |
| Bucket Cylinder Assembly | 1156 | 1744 | 130 | 90 | |
| 26T | Boom Cylinder Assembly | 1420 | 1980 | 139 | 100 |
| Stick Cylinder Assembly | 1748 | 2348 | 149 | 110 | |
| Bucket Cylinder Assembly | 1130 | 1753 | 134 | 100 | |
| 40T | Boom Cylinder Assembly | 1495 | 2135 | 160 | 110 |
| Stick Cylinder Assembly | 1790 | 2480 | 170 | 110 | |
| Bucket Cylinder Assembly | 1285 | 1990 | 160 | 110 |
Q: Are you trading company or manufacturer ?
A: We are factory.
Q: How long is your delivery time?
A: Generally it is 5-10 days if the goods are in stock. or it is 15-20 days if the goods are not in stock, it is according to quantity.
Q: Do you provide samples ? is it free or extra ?
A: Yes, we could offer the sample for free charge but do not pay the cost of freight.
Q: What is your terms of payment ?
A: Payment 30%TT in advance. 70% T/T before shippment
| Certification: | GS, RoHS, CE, ISO9001 |
|---|---|
| Pressure: | High Pressure |
| Work Temperature: | Normal Temperature |
| Acting Way: | Single Acting |
| Working Method: | Straight Trip |
| Adjusted Form: | Switching Type |
| Samples: |
US$ 120/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
|
|
|---|
Can hydraulic cylinders be integrated with modern telematics and remote monitoring?
Yes, hydraulic cylinders can indeed be integrated with modern telematics and remote monitoring systems. The integration of hydraulic cylinders with telematics and remote monitoring technology offers numerous benefits, including enhanced operational efficiency, improved maintenance practices, and increased overall productivity. Here’s a detailed explanation of how hydraulic cylinders can be integrated with modern telematics and remote monitoring:
1. Sensor Integration:
– Hydraulic cylinders can be equipped with various sensors to gather real-time data about their performance and operating conditions. Sensors such as pressure transducers, temperature sensors, position sensors, and load sensors can be integrated directly into the cylinder or its associated components. These sensors provide valuable information about parameters such as pressure, temperature, position, and load, enabling remote monitoring and analysis of the cylinder’s behavior.
2. Data Transmission:
– The data collected from the sensors in hydraulic cylinders can be transmitted wirelessly or through wired connections to a central monitoring system. Wireless communication technologies such as Bluetooth, Wi-Fi, or cellular networks can be employed to transmit data in real-time. Alternatively, wired connections such as Ethernet or CAN bus can be utilized for data transmission. The choice of communication method depends on the specific requirements of the application and the available infrastructure.
3. Remote Monitoring Systems:
– Remote monitoring systems receive and process the data transmitted from hydraulic cylinders. These systems can be cloud-based or hosted on local servers, depending on the implementation. Remote monitoring systems collect and analyze the data to provide insights into the cylinder’s performance, health, and usage patterns. Operators and maintenance personnel can access the monitoring system through web-based interfaces or dedicated software applications to view real-time data, receive alerts, and generate reports.
4. Condition Monitoring and Predictive Maintenance:
– Integration with telematics and remote monitoring enables condition monitoring and predictive maintenance of hydraulic cylinders. By analyzing the collected data, patterns and trends can be identified, allowing for the detection of potential issues or anomalies before they escalate into major problems. Predictive maintenance algorithms can be applied to the data to generate maintenance schedules, recommend component replacements, and optimize maintenance activities. This proactive approach helps prevent unexpected downtime, reduces maintenance costs, and maximizes the lifespan of hydraulic cylinders.
5. Performance Optimization:
– The data collected from hydraulic cylinders can also be utilized to optimize their performance. By analyzing parameters such as pressure, temperature, and load, operators can identify opportunities for improving operational efficiency. Insights gained from the remote monitoring system can guide adjustments in system settings, load management, or operational practices to optimize the performance of hydraulic cylinders and the overall hydraulic system. This optimization can result in energy savings, improved productivity, and reduced wear and tear.
6. Integration with Equipment Management Systems:
– Telematics and remote monitoring systems can be integrated with broader equipment management systems. This integration allows hydraulic cylinder data to be correlated with data from other components or related machinery, providing a comprehensive view of the overall system’s performance. This holistic approach enables operators to identify potential interdependencies, optimize system-wide performance, and make informed decisions regarding maintenance, repairs, or upgrades.
7. Enhanced Safety and Fault Diagnosis:
– Telematics and remote monitoring can contribute to enhanced safety and fault diagnosis in hydraulic systems. Real-time data from hydraulic cylinders can be used to detect abnormal conditions, such as excessive pressure or temperature, which may indicate potential safety risks. Fault diagnosis algorithms can analyze the data to identify specific issues or malfunctions, enabling prompt intervention and reducing the risk of catastrophic failures or accidents.
In summary, hydraulic cylinders can be effectively integrated with modern telematics and remote monitoring systems. This integration enables the collection of real-time data, remote monitoring of performance, condition monitoring, predictive maintenance, performance optimization, integration with equipment management systems, and enhanced safety. By harnessing the power of telematics and remote monitoring, hydraulic cylinder users can achieve improved efficiency, reduced downtime, optimized maintenance practices, and enhanced overall productivity in various applications and industries.
Impact of Hydraulic Cylinders on Overall Productivity of Manufacturing Operations
Hydraulic cylinders play a crucial role in enhancing the overall productivity of manufacturing operations. These versatile devices are widely used in various industrial applications due to their ability to generate powerful and controlled linear motion. Let’s explore how hydraulic cylinders impact the overall productivity of manufacturing operations:
- Powerful Force Generation: Hydraulic cylinders are capable of generating high forces, which enables them to handle heavy loads and perform demanding tasks. By providing the necessary force, hydraulic cylinders facilitate efficient and effective operation of machinery and equipment in manufacturing processes. This ability to exert substantial force contributes to increased productivity by enabling the handling of larger workpieces, enhancing process efficiency, and reducing manual labor requirements.
- Precision and Control: Hydraulic cylinders offer precise control over the movement of loads, allowing for accurate positioning, alignment, and repetitive tasks. The smooth and controlled linear motion provided by hydraulic cylinders ensures precise operation in manufacturing processes, such as assembly, material handling, and machining. This precision and control minimize errors, rework, and scrap, leading to improved productivity and higher-quality output.
- Speed and Efficiency: Hydraulic cylinders can operate at high speeds, enabling rapid movement and cycle times in manufacturing operations. The combination of high force and speed allows for faster operation of machinery and equipment, reducing production cycle times and increasing overall throughput. By optimizing the speed and efficiency of manufacturing processes, hydraulic cylinders contribute to improved productivity and output.
- Flexibility and Adaptability: Hydraulic cylinders are highly flexible and adaptable to different manufacturing applications. They can be customized to meet specific requirements, such as load capacity, stroke length, and mounting options. This versatility allows hydraulic cylinders to be integrated into a wide range of machinery and equipment, accommodating diverse manufacturing needs. The ability to adapt to different tasks and environments enhances overall productivity by enabling efficient utilization of resources and facilitating process optimization.
- Reliability and Durability: Hydraulic cylinders are known for their robustness and durability, making them suitable for demanding manufacturing environments. Their ability to withstand heavy loads, repeated use, and harsh operating conditions ensures reliable performance over extended periods. Minimizing downtime due to cylinder failure or maintenance requirements contributes to increased productivity and uninterrupted manufacturing operations.
In summary, hydraulic cylinders have a significant impact on the overall productivity of manufacturing operations. Their powerful force generation, precision and control, speed and efficiency, flexibility and adaptability, as well as reliability and durability, contribute to optimized processes, increased throughput, improved quality, and reduced labor requirements. By leveraging the capabilities of hydraulic cylinders, manufacturers can enhance productivity, streamline operations, and achieve greater efficiency in their manufacturing processes.
How do hydraulic cylinders accommodate variations in stroke length and force requirements?
Hydraulic cylinders are designed to accommodate variations in stroke length and force requirements, providing flexibility and adaptability for different applications. They can be tailored to meet specific needs by considering factors such as piston diameter, rod diameter, hydraulic pressure, and cylinder design. Here’s a detailed explanation of how hydraulic cylinders accommodate variations in stroke length and force requirements:
1. Cylinder Size and Design:
– Hydraulic cylinders come in various sizes and designs to accommodate different stroke lengths and force requirements. The cylinder’s diameter, piston area, and rod diameter are key factors that determine the force output. Larger cylinder diameters and piston areas can generate greater force, while smaller diameters are suitable for applications requiring lower force. By selecting the appropriate cylinder size and design, stroke lengths and force requirements can be effectively accommodated.
2. Piston and Rod Configurations:
– Hydraulic cylinders can be designed with different piston and rod configurations to accommodate variations in stroke length. Single-acting cylinders have a single piston and can provide a stroke in one direction. Double-acting cylinders have a piston on both sides, allowing for strokes in both directions. Telescopic cylinders consist of multiple stages that can extend and retract, providing a longer stroke length compared to standard cylinders. By selecting the appropriate piston and rod configuration, the desired stroke length can be achieved.
3. Hydraulic Pressure and Flow:
– The hydraulic pressure and flow rate supplied to the cylinder play a crucial role in accommodating variations in force requirements. Increasing the hydraulic pressure increases the force output of the cylinder, enabling it to handle higher force requirements. By adjusting the pressure and flow rate through hydraulic valves and pumps, the force output can be controlled and matched to the specific requirements of the application.
4. Customization and Tailoring:
– Hydraulic cylinders can be customized and tailored to meet specific stroke length and force requirements. Manufacturers offer a wide range of cylinder sizes, stroke lengths, and force capacities to choose from. Additionally, custom-designed cylinders can be manufactured to suit unique applications with specific stroke length and force demands. By working closely with hydraulic cylinder manufacturers, it is possible to obtain cylinders that precisely match the required stroke length and force requirements.
5. Multiple Cylinders and Synchronization:
– In applications that require high force or longer stroke lengths, multiple hydraulic cylinders can be used in combination. By synchronizing the movement of multiple cylinders through the hydraulic system, the stroke length and force output can be effectively increased. Synchronization can be achieved using mechanical linkages, electronic controls, or hydraulic circuitry, ensuring coordinated movement and force distribution across the cylinders.
6. Load-Sensing and Pressure Control:
– Hydraulic systems can incorporate load-sensing and pressure control mechanisms to accommodate variations in force requirements. Load-sensing systems monitor the load demand and adjust the hydraulic pressure accordingly, ensuring that the cylinder delivers the required force without exerting excessive force. Pressure control valves regulate the pressure within the hydraulic system, allowing for precise control and adjustment of the force output based on the application’s needs.
7. Safety Considerations:
– When accommodating variations in stroke length and force requirements, it is essential to consider safety factors. Hydraulic cylinders should be selected and designed with an appropriate safety margin to handle unexpected loads or variations in operating conditions. Safety mechanisms such as overload protection valves and pressure relief valves can be incorporated to prevent damage or failure in situations where the force limits are exceeded.
By considering factors such as cylinder size and design, piston and rod configurations, hydraulic pressure and flow, customization options, synchronization, load-sensing, pressure control, and safety considerations, hydraulic cylinders can effectively accommodate variations in stroke length and force requirements. This flexibility allows hydraulic cylinders to be tailored to meet the specific demands of a wide range of applications, ensuring optimal performance and efficiency.
editor by CX 2023-11-27