Product Description

STHangZhouRD FEATURES: 

Double-acting applications;
Standard color: Black;
All Seals: Manufactured to EU specification;
Ports: SAE(NPTF port or other can be available);
100% hydro-pressure test;
Rod surface treatment: Superior quality chrome plated;
Standard: B type piston(optional: A type piston);
Apply LOCTITE to rod end thread.

 

SPECIFICATION(mm)

MODEL

D

AL

S

STROKE

K

CM

E

L

L1

H1

F

H

V

W.T.(KG)

CYEU0160050

35

25

16

50

160

31

1/4″

23

22

35

12.1

25

25

1.00

CYEU0165710

35

25

16

100

210

31

1/4″

23

22

35

12.1

25

25

1.20

CYEU0160150

35

25

16

150

260

31

1/4″

23

22

35

12.1

25

25

1.40

CYEU0165710

35

25

16

200

310

31

1/4″

23

22

35

12.1

25

25

1.70

 

CYEU5710050

42

32

20

50

205

51

1/4″

33

35

40

16.2

30

35

1.70

CYEU5715710

42

32

20

100

255

51

1/4″

33

35

40

16.2

30

35

2.10

CYEU5710150

42

32

20

150

305

51

1/4″

33

35

40

16.2

30

35

2.40

CYEU5715710

42

32

20

200

355

51

1/4″

33

35

40

16.2

30

35

2.80

CYEU5715710

42

32

20

250

405

51

1/4″

33

35

40

16.2

30

35

3.10

CYEU5710300

42

32

20

300

455

51

1/4″

33

35

40

16.2

30

35

3.50

CYEU5710400

42

32

20

400

555

51

1/4″

33

35

40

16.2

30

35

4.20

CYEU5710500

42

32

20

500

655

51

1/4″

33

35

40

16.2

30

35

4.80

 

CYEU1255710

50

40

25

100

270

42

3/8″

40

45

50

20.5

40

40

3.23

CYEU1250150

50

40

25

150

320

42

3/8″

40

45

50

20.5

40

40

3.71

CYEU1255710

50

40

25

200

370

42

3/8″

40

45

50

20.5

40

40

4.16

CYEU1255710

50

40

25

250

420

42

3/8″

40

45

50

20.5

40

40

4.66

CYEU1250300

50

40

25

300

470

42

3/8″

40

45

50

20.5

40

40

5.12

CYEU1250400

50

40

25

400

570

42

3/8″

40

45

50

20.5

40

40

6.05

CYEU1250500

50

40

25

500

670

42

3/8″

40

45

50

20.5

40

40

6.99

CYEU1250600

50

40

25

600

770

42

3/8″

40

45

50

20.5

40

40

7.95

CYEU1250700

50

40

25

700

870

42

3/8″

40

45

50

20.5

40

40

8.87

CYEU1250800

50

40

25

800

970

42

3/8″

40

45

50

20.5

40

40

9.82

 

CYEU235710

60

50

30

100

300

47

3/8″

43

58

60

25.5

50

45

5.11

CYEU2300150

60

50

30

150

350

47

3/8″

43

58

60

25.5

50

45

5.74

CYEU235710

60

50

30

200

400

47

3/8″

43

58

60

25.5

50

45

6.33

CYEU2305710

60

50

30

250

450

47

3/8″

43

58

60

25.5

50

45

6.97

CYEU2300300

60

50

30

300

500

47

3/8″

43

58

60

25.5

50

45

7.60

CYEU2300400

60

50

30

400

600

47

3/8″

43

58

60

25.5

50

45

8.83

CYEU2300500

60

50

30

500

700

47

3/8″

43

58

60

25.5

50

45

10.05

CYEU2300600

60

50

30

600

800

47

3/8″

43

58

60

25.5

50

45

11.27

CYEU2300700

60

50

30

700

900

47

3/8″

43

58

60

25.5

50

45

12.40

CYEU2300800

60

50

30

800

1000

47

3/8″

43

58

60

25.5

50

45

13.73

 

CYEU335710

70

60

30

100

300

48

3/8″

50

58

70

25.5

50

45

6.30

CYEU3300150

70

60

30

150

350

48

3/8″

50

58

70

25.5

50

45

6.97

CYEU335710

70

60

30

200

400

48

3/8″

50

58

70

25.5

50

45

7.67

CYEU3305710

70

60

30

250

450

48

3/8″

50

58

70

25.5

50

45

8.31

CYEU3300300

70

60

30

300

500

48

3/8″

50

58

70

25.5

50

45

8.97

CYEU330 0571

70

60

30

350

550

48

3/8″

50

58

70

25.5

50

45

9.66

CYEU3300400

70

60

30

400

600

48

3/8″

50

58

70

25.5

50

45

10.36

CYEU3300450

70

60

30

450

650

48

3/8″

50

58

70

25.5

50

45

10.99

CYEU3300500

70

60

30

500

700

48

3/8″

50

58

70

25.5

50

45

11.71

CYEU3300600

70

60

30

600

800

48

3/8″

50

58

70

25.5

50

45

13.10

CYEU3300700

70

60

30

700

900

48

3/8″

50

58

70

25.5

50

45

14.35

 

CYEU3355710

70

60

35

200

400

48

3/8″

50

58

70

25.5

50

45

8.00

CYEU3350300

70

60

35

300

500

48

3/8″

50

58

70

25.5

50

45

9.55

CYEU3350400

70

60

35

400

600

48

3/8″

50

58

70

25.5

50

45

11.10

CYEU3350500

70

60

35

500

700

48

3/8″

50

58

70

25.5

50

45

12.65

CYEU3350600

70

60

35

600

800

48

3/8″

50

58

70

25.5

50

45

14.20

CYEU3350700

70

60

35

700

900

48

3/8″

50

58

70

25.5

50

45

15.75

 

CYEU445710

80

70

40

200

410

48

3/8″

50

58

80

30.5

50

55

10.45

CYEU4405710

80

70

40

250

460

48

3/8″

50

58

80

30.5

50

55

11.37

CYEU4400300

80

70

40

300

510

48

3/8″

50

58

80

30.5

50

55

12.31

CYEU440 0571

80

70

40

350

560

48

3/8″

50

58

80

30.5

50

55

13.30

CYEU4400400

80

70

40

400

610

48

3/8″

50

58

80

30.5

50

55

14.22

CYEU4400450

80

70

40

450

660

48

3/8″

50

58

80

30.5

50

55

15.20

CYEU4400500

80

70

40

500

710

48

3/8″

50

58

80

30.5

50

55

16.11

CYEU4400600

80

70

40

600

810

48

3/8″

50

58

80

30.5

50

55

18.12

CYEU4400700

80

70

40

700

910

48

3/8″

50

58

80

30.5

50

55

19.94

 

CYEU545710

92

80

40

200

410

38

3/8″

60

58

90

30.5

50

55

13.26

CYEU5405710

92

80

40

250

460

38

3/8″

60

58

90

30.5

50

55

14.46

CYEU5400300

92

80

40

300

510

38

3/8″

60

58

90

30.5

50

55

15.54

CYEU540 0571

92

80

40

350

560

38

3/8″

60

58

90

30.5

50

55

16.72

CYEU5400400

92

80

40

400

610

38

3/8″

60

58

90

30.5

50

55

18.00

CYEU5400500

92

80

40

500

710

38

3/8″

60

58

90

30.5

50

55

20.00

CYEU5400600

92

80

40

600

810

38

3/8″

60

58

90

30.5

50

55

22.00

CYEU5400700

92

80

40

700

910

38

3/8″

60

58

90

30.5

50

55

24.50

 

CYEU655710

115

100

50

200

425

46

3/8″

82

50

115

30.5

65

70

26.00

CYEU6500300

115

100

50

300

525

46

3/8″

82

50

115

30.5

65

70

30.00

CYEU6500400

115

100

50

400

625

46

3/8″

82

50

115

30.5

65

70

34.00

CYEU6500500

115

100

50

500

725

46

3/8″

82

50

115

30.5

65

70

38.00

CYEU6500700

115

100

50

700

925

46

3/8″

82

50

115

30.5

65

70

46.00

 

Material: Steel
Usage: Automation and Control
Structure: Piston Cylinder
Power: Hydraulic
Standard: Standard, Nonstandard
Pressure Direction: Double-acting Cylinder
Samples:
US$ 50/Piece
1 Piece(Min.Order)

|

hydraulic cylinder

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.

hydraulic cylinder

Contribution of Hydraulic Cylinders to the Precision of Robotic and Automation Systems

Hydraulic cylinders play a significant role in enhancing the precision of robotic and automation systems. These systems rely on precise and controlled movements to perform various tasks with accuracy and repeatability. Let’s explore how hydraulic cylinders contribute to the precision of robotic and automation systems:

  1. Precise Positioning: Hydraulic cylinders enable precise positioning of robotic arms or automation components. They provide accurate control over the linear motion required for tasks such as picking, placing, and assembly. By precisely controlling the extension and retraction of the hydraulic cylinder, the system can achieve the desired position with high accuracy, ensuring precise alignment and consistent results.
  2. Controlled Motion: Hydraulic cylinders offer controlled and smooth motion, which is crucial for precise operation in robotic and automation systems. The flow of hydraulic fluid can be precisely regulated to control the speed and acceleration of the cylinder’s movement. This precise control allows for gentle and controlled movements, minimizing vibrations, overshooting, or jerky motions that could affect the accuracy of the system.
  3. Force Control: Hydraulic cylinders provide force control capabilities that contribute to precision in robotic and automation systems. By adjusting the hydraulic pressure, the force exerted by the cylinder can be precisely controlled. This is particularly valuable in applications that require delicate force-sensitive tasks, such as gripping fragile objects or performing precise force feedback during assembly or testing processes.
  4. Load Handling: Hydraulic cylinders are capable of handling heavy loads, allowing robotic and automation systems to manipulate and transport objects with precision. The high force capabilities of hydraulic cylinders ensure secure and stable handling of loads, minimizing the risk of slippage or imprecise positioning. This is crucial in applications where precise control over heavy objects is required, such as material handling or industrial assembly processes.
  5. Durability and Reliability: Hydraulic cylinders are known for their durability and reliability in demanding industrial environments. The ability to withstand repeated use, high loads, and harsh conditions ensures consistent performance over time. This reliability contributes to the precision of robotic and automation systems, as any deviation or failure in the cylinder’s movement could lead to inaccuracies or disruptions in the system’s operation.

In summary, hydraulic cylinders make significant contributions to the precision of robotic and automation systems by enabling precise positioning, controlled motion, force control, load handling, and offering durability and reliability. These capabilities ensure accurate and repeatable movements, minimize errors, and enhance the overall precision of the system. By incorporating hydraulic cylinders into robotic and automation systems, manufacturers can achieve higher levels of precision, efficiency, and productivity in various industrial applications.

hydraulic cylinder

What maintenance practices are essential for extending the lifespan of hydraulic cylinders?

Maintaining hydraulic cylinders is crucial for extending their lifespan and ensuring optimal performance. Regular maintenance helps prevent premature wear, damage, and failure, ultimately reducing downtime and saving costs. Here are some essential maintenance practices to consider for extending the lifespan of hydraulic cylinders:

1. Regular Inspections:

– Conduct routine visual inspections of hydraulic cylinders to identify any signs of damage, leaks, or wear. Inspect the cylinder body, piston rod, seals, and mounting points. Look for fluid leaks, rust, dents, or any abnormal wear patterns. Early detection of issues allows for timely repairs or replacements, preventing further damage and extending the lifespan of the cylinder.

2. Cleanliness:

– Maintain a clean environment around hydraulic cylinders to prevent contaminants from entering the system. Dust, dirt, and debris can damage seals and other internal components, leading to accelerated wear and reduced performance. Regularly clean the cylinder and its surroundings to minimize the risk of contamination.

3. Proper Lubrication:

– Adequate lubrication is critical for the smooth operation and longevity of hydraulic cylinders. Follow the manufacturer’s recommendations for lubrication intervals and use the appropriate lubricant. Apply lubrication to the cylinder’s moving parts, such as the piston rod, to reduce friction and minimize wear.

4. Seal Maintenance:

– Seals play a vital role in preventing hydraulic fluid leaks and maintaining the cylinder’s performance. Inspect and replace worn or damaged seals promptly. Ensure that seals are properly installed and lubricated. Regularly clean the seal grooves to remove any debris that could compromise seal effectiveness.

5. Pressure Checks:

– Periodically check the hydraulic system’s pressure to ensure it is within the recommended operating range. Excessive pressure can strain the cylinder and its components, leading to premature wear. Monitor pressure levels and make adjustments as necessary to prevent overloading the cylinder.

6. Control Valve Maintenance:

– Maintain and inspect control valves that regulate the flow and direction of hydraulic fluid. Ensure that the valves are functioning correctly and not causing excessive stress or pressure spikes in the cylinder. Clean or replace control valves if they are damaged or malfunctioning.

7. Cylinder Alignment:

– Proper alignment of hydraulic cylinders is essential for their longevity. Misalignment can cause excessive side loads, leading to uneven wear and potential damage. Ensure that the cylinder is correctly aligned with other components and that the mounting points are secure.

8. Preventing Overloading:

– Avoid subjecting hydraulic cylinders to loads exceeding their rated capacity. Overloading can cause internal damage, seal failure, and reduced lifespan. Ensure that the load requirements are within the cylinder’s capabilities and consider using safety devices like overload protection systems when necessary.

9. Training and Operator Awareness:

– Provide proper training to equipment operators on the correct use and handling of hydraulic cylinders. Operators should be aware of the cylinder’s limitations, safe operating procedures, and the importance of regular maintenance. Promote a culture of proactive maintenance and encourage operators to report any potential issues promptly.

10. Documentation and Record-Keeping:

– Maintain detailed documentation of all maintenance activities, including inspections, repairs, and replacements. Keep records of lubrication schedules, pressure checks, and any maintenance performed on the hydraulic cylinders. This documentation helps track the cylinder’s history, identify recurring issues, and plan future maintenance effectively.

By following these maintenance practices, hydraulic cylinder lifespan can be extended, ensuring reliable performance and reducing the risk of unexpected failures. Regular inspections, cleanliness, proper lubrication, seal maintenance, pressure checks, control valve maintenance, cylinder alignment, preventing overloading, operator training, and documentation contribute to the overall longevity and optimal functioning of hydraulic cylinders.

China high quality 20mpa Double Acting Welded Hydraulic Cylinder   vacuum pump for ac	China high quality 20mpa Double Acting Welded Hydraulic Cylinder   vacuum pump for ac
editor by CX 2023-11-02