China manufacturer Tr4008 Bore4″ Stroke 8″ Tie Rod Hydraulic Cylinder vacuum pump diy

Product Description

Standard Tie rod Hydraulic Cylinder
TR2008ASAE  TR3008ASAE TR4008ASAE

 

 

Specificattions:

Part Number Rod Dia. Bore x Stroke Dimensions Port Size Pin Size Weight (lbs)
Retracted Extended
GD TR25-2004 1 1/8” 2”*4” 14 1/4” 18 1/4” 3/8NPT    1” 15
TR25-2006 2”*6” 16 1/4” 22 1/4” 16
TR25-2008 2”*8” 18 1/4” 26 1/4” 18
TR25-2008-ASAE 2”*8” 20 1/4” 28 1/4” 19
TR25-2571 2”*10” 20 1/4” 30 1/4” 19
TR25-2012 2”*12” 22 1/4” 34 1/4” 20
TR25-2014 2”*14” 24 1/4” 38 1/4” 22
TR25-2016 2”*16” 26 1/4” 42 1/4” 24
TR25-2018 2”*18” 28 1/4” 46 1/4” 26
TR25-2571 2”*20” 30 1/4” 50 1/4” 27
TR25-2571 2”*24” 34 1/4” 58 1/4” 30
TR25-2030 2”*30” 40 1/4” 70 1/4” 35
TR25-2036 2”*36” 46 1/4” 82 1/4” 40
TR25-2504 1 1/8” 2.5”*4” 14 1/4” 18 1/4” 3/8NPT    1” 18
TR25-2506 2.5”*6” 16 1/4” 22 1/4” 20
TR25-2508 2.5”*8” 18 1/4” 26 1/4” 22
TR25-2508-ASAE 2.5”*8” 20 1/4” 28 1/4” 22
TR25-2510 2.5”*10” 20 1/4” 30 1/4” 23
TR25-2512 2.5”*12” 22 1/4” 34 1/4” 25
TR25-2514 2.5”*14” 24 1/4” 38 1/4” 27
TR25-2516 2.5”*16” 26 1/4” 42 1/4” 28
TR25-2518 2.5”*18” 28 1/4” 46 1/4” 29
TR25-2520 2.5”*20” 30 1/4” 50 1/4” 31
TR25-2524 2.5”*24” 34 1/4” 58 1/4” 35
TR25-2530 2.5”*30” 40 1/4” 70 1/4” 45
TR25-2536 2.5”*36” 46 1/4” 82 1/4” 50
TR25-3004 1 1/4” 3”*4” 14 1/4” 18 1/4” 1/2NPT 1” 22
TR25-3006 3”*6” 16 1/4” 22 1/4” 24
TR25-3008 3”*8” 18 1/4” 26 1/4” 26
TR25-3008-ASAE 3”*8” 20 1/4” 28 1/4” 27
TR25-3571 3”*10” 20 1/4” 30 1/4” 28
TR25-3012 3”*12” 22 1/4” 34 1/4” 31
TR25-3014 3”*14” 24 1/4” 38 1/4” 33
TR25-3016 3”*16” 26 1/4” 42 1/4” 35
TR25-3016-ASAE 3”*16” 31 1/4” 47 1/4” 1 1/4” 38
TR25-3018 1 1/2” 3”*18” 28 1/4” 46 1/4” 1” 42
TR25-3571 3”*20” 30 1/4” 50 1/4” 44
TR25-3571 3”*24” 34 1/4” 58 1/4” 49
TR25-3030 3”*30” 40 1/4” 70 1/4” 58
GD-TR25-3036 3”*36” 46 1/4” 82 1/4” 67
TR25-3504 1 1/4” 3.5”*4” 14 1/4” 18 1/4” 1/2NPT 1” 29
TR25-3506 3.5”*6” 16 1/4” 22 1/4” 30
TR25-3508 3.5”*8” 18 1/4” 26 1/4” 34
TR25-3508-ASAE 3.5”*8” 20 1/4” 28 1/4” 35
TR25-3510 3.5”*10” 20 1/4” 30 1/4” 37
TR25-3512 3.5”*12” 22 1/4” 34 1/4” 39
TR25-3514 3.5”*14” 24 1/4” 38 1/4” 42
TR25-3516 3.5”*16” 26 1/4” 42 1/4” 44
TR25-3516-ASAE 1 1/2” 3.5”*16” 31 1/4” 47 1/4” 1 1/4” 50
TR25-3518 1 1/4” 3.5”*18” 28 1/4” 46 1/4” 1” 47
TR25-3520 3.5”*20” 30 1/4” 50 1/4” 49
TR25-3524 1 1/2” 3.5”*24” 34 1/4” 58 1/4” 58
TR25-3530 3.5”*30” 40 1/4” 70 1/4” 70
TR25-3536 3.5”*36” 46 1/4” 82 1/4” 72
TR25-4004 1 1/4” 4”*4” 14 1/4” 18 1/4” 1/2NPT 1” 33
TR25-4006 4”*6” 16 1/4” 22 1/4” 36
TR25-4008 4”*8” 18 1/4” 26 1/4” 39
TR25-4008-ASAE 4”*8” 20 1/4” 28 1/4” 41
TR25-4571 4”*10” 20 1/4” 30 1/4” 42
TR25-4012 4”*12” 22 1/4” 34 1/4” 45
GD-TR25-4014 4”*14” 24 1/4” 38 1/4” 47
TR25-4016 4”*16” 26 1/4” 42 1/4” 49
TR25-4016-ASAE 2” 4”*16” 31 1/4” 47 1/4” 1 1/4” 63
TR25-4018 1 1/2” 4”*18” 28 1/4” 46 1/4” 1” 55
TR25-4571 4”*20” 30 1/4” 50 1/4” 58
TR25-4571-150 4”*24” 34 1/4” 58 1/4” 64
TR25-4571-175 1 3/4” 4”*24” 34 1/4” 58 1/4” 68
TR25-4571-200 2” 4”*24” 34 1/4” 58 1/4” 73
TR25-4030 4”*30” 40 1/4” 70 1/4” 84
TR25-4036 4”*36” 46 1/4” 82 1/4” 95
TR25-5004 1 1/2” 5”*4” 16 1/4” 20 1/4” 1/2NPT 1” 53
GD-TR25-5006 5”*6” 18 1/4” 24 1/4” 55
TR25-5008 5”*8” 20 1/4” 28 1/4” 64
TR25-5571 5”*10” 22 1/4” 32 1/4” 68
TR25-5012 2” 5”*12” 24 1/4” 36 1/4” 77
TR25-5014 5”*14” 26 1/4” 40 1/4” 82
TR25-5016 5”*16” 28 1/4” 44 1/4” 87
TR25-5016-ASAE 5”*16” 31 1/4” 47 1/4” 1 1/4” 90
TR25-5018 5”*18” 30 1/4” 48 1/4” 1” 92
TR25-5571 5”*20” 32 1/4” 52 1/4” 96
TR25-5571 5”*24” 36 1/4” 60 1/4” 106
TR25-5030 5”*30” 42 1/4” 72 1/4” 121
GD-TR25-5036 5”*36” 48 1/4” 84 1/4” 136

PART NUMBER INSIDER DIAMETER OUTSIDER DIAMETER *A B *C *D *E F G H 1 *J ROD THREAD PORT
TR2.5-20- 2.00″ 2.37″ 10.25″ 2.00″ 1.01″ 2.00″ 3.75″ 2.25n 1.12″ 2.06″ 2.12″ 2.62″ 1.125-12 UNF 3/8-NPT
TR2.5-25- 2.50″ 2.87″ 10.25″ 2.00″ 1.01″ 2.25″ 3.75″ 2.25″ 1.12″ 2.06″ 2.12″ 2.62″ 1.125-12 UNF 3/8-NPT
TR2.5-30- 3.00″ 3.37″ 10.25″ 2.00″ 1.01″ 2.25″ 3.75″ 2.25″ 1.12″ 2.06″ 2.12″ 2.62″ 1.250-12 UNF 1/2-NPT
TR2.5-35- 3.50″ 3.87″ 10.25″ 2.00″ 1.01″ 2.25″ 3.62″ 2.50″ 1.12″ 2.06″ 2.12″ 2.62″ 1.250-12 UNF 1/2-NPT
TR2.5-40- 4.00″ 4.37″ 10.25″ 2.25″ 1.01″ 2.25″ 3.56″ 2.62″ 1.12″ 2.06″ 2.12″ 2.62″ 1.250-12 UNF 1/2-NPT
TR2.5-50- 5.00″ 5.37″ 12.25″ 2.87″ 1.26″ 2.75″ 4.18″ 3.50″ 1.12″ 2.25″ 2.12″ 3.31″ 1.500-12 UNF 1/2-NPT
*FOR 8.00″ ASAE STROKE :*A= 12.25n AND FOR 16.00″ ASAE STROKE:*A= 15.50″
*FOR 8.00″ STROKE :*E= 5.75″(2.0(T TO 3.00″ BORE) *E= 5.62n(3.50″ BORE) *E = 5.56″(4.0(T BORE)
*FOR 16.00″ ASAE STROKE: *E = 9.00″(2.00″ TO 3.00B BORE) *E = 8.87″(3.50″ BORE) *E = 8.81″(4.00″ BORE)
*FOR TTR2.5-2518 TO TTR2.5-2536: ROD THREAD= 1.125-12 UNF
*FOR TTR2.5-4016-ASAE TO TR2.5-4036:*D= 2.50″ *J = 2.75″ *RODTHREAD= 1.500-12 UNF
*FOR 16.00’ASAE STROKE:*C = 1.26*
SEAL TEMPERATURE RANGE: -30°C/+100°C(-22°F/+212°F)
SEAL MAXIMUM SPEED:3 FT/SEC
MAXIMUM RETRACTED WORKING PRESSURE= 2500 PSI
DIMENSIONS A AND E ARE FOR REFERENCES ONLY AS CLEVIS IS ADJUSTABLE

Packaging 

We use metal case/plywood case /carton or as Customer’s requirements

Delivery time:30-40 days 

Hydraulic cylinders can be built according to your drawings or technical requirement.
Sample order are acceptable.

Certification: GS, RoHS, CE, ISO9001
Pressure: Medium Pressure
Work Temperature: Normal Temperature
Samples:
US$ 30/Piece
1 Piece(Min.Order)

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Order Sample

Customization:
Available

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Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

hydraulic cylinder

Are there any emerging trends in hydraulic cylinder technology, such as smart features?

Yes, there are several emerging trends in hydraulic cylinder technology, including the integration of smart features. As industries continue to adopt advanced technologies and seek greater efficiency, hydraulic cylinders are being equipped with innovative capabilities to enhance their performance and provide additional benefits. Here are some of the emerging trends in hydraulic cylinder technology:

1. Sensor Integration:

– One of the significant trends in hydraulic cylinder technology is the integration of sensors. Sensors can be embedded within the hydraulic cylinder to monitor various parameters such as pressure, temperature, position, and load. These sensors provide real-time data, allowing for condition monitoring, predictive maintenance, and improved operational control. By collecting and analyzing data, operators can optimize the performance of hydraulic systems, detect potential issues in advance, and prevent failures, resulting in increased reliability and reduced downtime.

2. Connectivity and IoT:

– Hydraulic cylinders are being integrated into the Internet of Things (IoT) ecosystem, enabling connectivity and data exchange. By connecting hydraulic cylinders to a network, operators can remotely monitor and control their performance. IoT-enabled hydraulic cylinders facilitate features such as remote diagnostics, performance optimization, and predictive maintenance. The connectivity aspect allows for better integration with overall equipment systems and enables data-driven decision-making for improved efficiency and productivity.

3. Energy-Efficient Designs:

– With the increasing focus on sustainability and energy efficiency, hydraulic cylinder technology is evolving to incorporate energy-saving features. Manufacturers are developing hydraulic cylinders with improved sealing technologies, reduced friction, and optimized fluid flow dynamics. These advancements minimize energy losses and increase overall system efficiency. Energy-efficient hydraulic cylinders contribute to reduced power consumption, lower operating costs, and a smaller environmental footprint.

4. Advanced Materials and Coatings:

– The use of advanced materials and coatings is another emerging trend in hydraulic cylinder technology. Manufacturers are exploring lightweight materials, such as composites and alloys, to reduce the overall weight of hydraulic cylinders without compromising strength and durability. Furthermore, specialized coatings and surface treatments are being applied to improve corrosion resistance, wear resistance, and lifespan. These advancements enhance the longevity and reliability of hydraulic cylinders, particularly in demanding environments.

5. Intelligent Control Systems:

– Hydraulic cylinder technology is embracing intelligent control systems that optimize performance and enable advanced functionalities. These systems utilize algorithms, machine learning, and artificial intelligence to automate processes, adapt to changing conditions, and optimize hydraulic cylinder movements. Intelligent control systems can adjust parameters in real-time, ensuring precise and efficient operation. This trend allows for increased automation, improved productivity, and enhanced safety in hydraulic system applications.

6. Predictive Maintenance:

– Predictive maintenance is gaining prominence in hydraulic cylinder technology. By utilizing data collected from sensors and monitoring systems, predictive maintenance algorithms can analyze the condition and performance of hydraulic cylinders. This analysis helps to identify potential failures or degradation in advance, enabling proactive maintenance actions. Predictive maintenance reduces unplanned downtime, extends the lifespan of hydraulic cylinders, and optimizes maintenance schedules, resulting in cost savings and improved equipment availability.

7. Enhanced Safety Features:

– Hydraulic cylinder technology is incorporating enhanced safety features to improve operator and equipment safety. These features include integrated safety valves, load monitoring systems, and emergency stop functionalities. Safety systems in hydraulic cylinders help prevent accidents, protect against overloads, and ensure reliable operation. The integration of advanced safety features contributes to safer working environments and compliance with stringent safety regulations.

These emerging trends in hydraulic cylinder technology demonstrate the industry’s focus on innovation, performance optimization, and sustainability. The integration of smart features, connectivity, advanced materials, and predictive maintenance capabilities enables hydraulic cylinders to operate more efficiently, provide real-time insights, and enhance overall system performance. As technology continues to advance, hydraulic cylinder technology is expected to evolve further, offering increased functionality and efficiency for various industries and applications.

hydraulic cylinder

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:

  1. 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.
  2. 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.
  3. 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.
  4. 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.
  5. 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.

hydraulic cylinder

Can you explain the role and significance of hydraulic cylinders in machinery?

Hydraulic cylinders play a crucial role in machinery across various industries. They are essential components that provide controlled and powerful linear motion, enabling the operation of heavy equipment and facilitating numerous tasks. The role and significance of hydraulic cylinders in machinery can be explained in detail as follows:

Role of Hydraulic Cylinders:

– Conversion of Hydraulic Energy: Hydraulic cylinders convert hydraulic energy, typically in the form of pressurized hydraulic fluid, into linear force and motion. This conversion allows machinery to perform tasks such as lifting, pushing, pulling, clamping, tilting, and controlling various mechanisms.

– Generation of Linear Motion: Hydraulic cylinders generate linear motion by utilizing the principles of Pascal’s law. When hydraulic fluid is directed into one side of the cylinder, it applies pressure on the piston, resulting in linear movement of the piston and the attached piston rod. This linear motion can be used to actuate other components within the machinery or directly perform the required task.

– Force Generation: Hydraulic cylinders are capable of generating high forces due to the hydraulic pressure applied to the piston. The force output of a hydraulic cylinder depends on the surface area of the piston and the pressure of the hydraulic fluid. This force allows machinery to exert significant power for lifting heavy loads, applying pressure, or overcoming resistance.

– Precise Control: Hydraulic cylinders offer precise control over the linear motion and force exerted. By regulating the flow of hydraulic fluid, the speed and direction of the cylinder’s movement can be accurately adjusted. This level of control is crucial in machinery that requires precise positioning, delicate movements, or synchronization of multiple cylinders.

– Integration with Hydraulic Systems: Hydraulic cylinders are integral parts of hydraulic systems used in machinery. They work in conjunction with hydraulic pumps, valves, and actuators to create a complete hydraulic circuit. This integration allows for efficient power transmission, control, and coordination of various machine functions.

Significance of Hydraulic Cylinders:

– Heavy Equipment Operation: Hydraulic cylinders are vital in heavy machinery used in construction, mining, agriculture, material handling, and other industries. They enable the lifting and movement of heavy loads, the operation of attachments, and the performance of tasks that require high force and precision.

– Versatility and Adaptability: Hydraulic cylinders are versatile components that can be designed and tailored to meet specific machinery requirements. They can be integrated into various types of equipment and customized based on factors such as force capacity, stroke length, speed, and mounting options. This adaptability makes hydraulic cylinders suitable for diverse applications.

– Durability and Reliability: Hydraulic cylinders are built to withstand rigorous operating conditions, including high pressures, heavy loads, and continuous use. They are designed with robust materials, precise machining, and effective sealing systems to ensure durability and reliability over extended periods of operation.

– Safety and Load Control: Hydraulic cylinders provide safe and controlled operation in machinery. They offer overload protection mechanisms, such as relief valves, to prevent damage caused by excessive force or pressure. Additionally, hydraulic cylinders allow for precise load control, minimizing the risk of accidents during lifting, lowering, or positioning of heavy loads.

– Compact Design: Hydraulic cylinders offer a high power-to-size ratio, allowing for compact machinery design. Their relatively small size compared to the forces they can generate makes them suitable for applications where space is limited or weight restrictions apply.

– Energy Efficiency: Hydraulic cylinders contribute to energy efficiency in machinery. The use of hydraulic systems allows for the transfer of power over long distances without significant power losses. Additionally, hydraulic cylinders can incorporate energy-saving features such as load-sensing technology and regenerative circuits, reducing energy consumption.

Overall, hydraulic cylinders play a vital role in machinery by providing controlled and powerful linear motion. Their significance lies in their ability to convert hydraulic energy, generate high forces, offer precise control, integrate with hydraulic systems, and facilitate the operation of heavy equipment across various industries. Hydraulic cylinders contribute to increased productivity, safety, and efficiency in machinery applications, making them indispensable components in modern-day engineering.

China manufacturer Tr4008 Bore4China manufacturer Tr4008 Bore4
editor by CX 2023-11-16