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84527103217
2-Pass Model Oil Coolers, BNZ Series, 2-Pass Temperature Control Unit 580.00 psi Shell & Tube Technology To cool hydraulic fluid utilizing shell and tube technology SAE Flange 23.34 lb 19.10 ftò 3217 Copper
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84527103246
4-Pass Model Oil Coolers, BNZ Series, 4-Pass Temperature Control Unit 580.00 psi Shell & Tube Technology To cool hydraulic fluid utilizing shell and tube technology BSPP 19.06 lb 12.60 ftò 3246 Copper
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84527103302
4-Pass Model Oil Coolers, BNZ Series, 4-Pass Temperature Control Unit 580.00 psi Shell & Tube Technology To cool hydraulic fluid utilizing shell and tube technology SAE Flange 52.18 lb 60.70 ftò 3302 Copper
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84527103383
4-Pass Model Oil Coolers, BNZ Series, 4-Pass Temperature Control Unit 580.00 psi Shell & Tube Technology To cool hydraulic fluid utilizing shell and tube technology SAE O-Ring 60.14 lb 82.60 ftò 3383 Copper
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84527103363
2-Pass Model Oil Coolers, BNZ Series, 2-Pass Temperature Control Unit 580.00 psi Shell & Tube Technology To cool hydraulic fluid utilizing shell and tube technology NPT 60.14 lb 82.60 ftò 3363 Copper Steel
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84527103241
4-Pass Model Oil Coolers, BNZ Series, 4-Pass Temperature Control Unit 580.00 psi Shell & Tube Technology To cool hydraulic fluid utilizing shell and tube technology SAE Flange 23.34 lb 19.10 ftò 3241 Copper
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84527103247
4-Pass Model Oil Coolers, BNZ Series, 4-Pass Temperature Control Unit 580.00 psi Shell & Tube Technology To cool hydraulic fluid utilizing shell and tube technology BSPP 29.78 lb 29.70 ftò 3247 Copper
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84527103206
1-Pass Model Oil Coolers, BNZ Series, 1-Pass Temperature Control Unit 580.00 psi Shell & Tube Technology To cool hydraulic fluid utilizing shell and tube technology NPT 23.34 lb 19.10 ftò 3206 Copper Steel
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84527103320
1-Pass Model Oil Coolers, BNZ Series, 1-Pass Temperature Control Unit 580.00 psi Shell & Tube Technology To cool hydraulic fluid utilizing shell and tube technology SAE O-Ring 42.92 lb 39.60 ftò 3320 Copper
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84527103208
1-Pass Model Oil Coolers, BNZ Series, 1-Pass Temperature Control Unit 580.00 psi Shell & Tube Technology To cool hydraulic fluid utilizing shell and tube technology BSPP 25.48 lb 22.80 ftò 3208 Copper
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84527103235
1-Pass Model Oil Coolers, BNZ Series, 1-Pass Temperature Control Unit 580.00 psi Shell & Tube Technology To cool hydraulic fluid utilizing shell and tube technology NPT 48.54 lb 59.70 ftò 3235 Copper Steel
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84527103115
1-Pass Model Oil Coolers, BNZ Series, 1-Pass Temperature Control Unit 580.00 psi Shell & Tube Technology To cool hydraulic fluid utilizing shell and tube technology BSPP 11.66 lb 11.70 ftò 3115 Copper
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84527103122
1-Pass Model Oil Coolers, BNZ Series, 1-Pass Temperature Control Unit 580.00 psi Shell & Tube Technology To cool hydraulic fluid utilizing shell and tube technology SAE O-Ring 9.13 lb 6.40 ftò 3122 Copper
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84527103200
1-Pass Model Oil Coolers, BNZ Series, 1-Pass Temperature Control Unit 580.00 psi Shell & Tube Technology To cool hydraulic fluid utilizing shell and tube technology BSPP 23.34 lb 19.10 ftò 3200 Copper
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84527103322
1-Pass Model Oil Coolers, BNZ Series, 1-Pass Temperature Control Unit 580.00 psi Shell & Tube Technology To cool hydraulic fluid utilizing shell and tube technology SAE O-Ring 52.18 lb 60.70 ftò 3322 Copper
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84527103330
1-Pass Model Oil Coolers, BNZ Series, 1-Pass Temperature Control Unit 580.00 psi Shell & Tube Technology To cool hydraulic fluid utilizing shell and tube technology NPT 42.92 lb 39.60 ftò 3330 Copper Steel
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84527103234
1-Pass Model Oil Coolers, BNZ Series, 1-Pass Temperature Control Unit 580.00 psi Shell & Tube Technology To cool hydraulic fluid utilizing shell and tube technology NPT 36.15 lb 39.50 ftò 3234 Copper Steel
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84527103127
1-Pass Model Oil Coolers, BNZ Series, 1-Pass Temperature Control Unit 580.00 psi Shell & Tube Technology To cool hydraulic fluid utilizing shell and tube technology SAE O-Ring 15.85 lb 20.50 ftò 3127 Copper
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84527103232
1-Pass Model Oil Coolers, BNZ Series, 1-Pass Temperature Control Unit 580.00 psi Shell & Tube Technology To cool hydraulic fluid utilizing shell and tube technology NPT 19.06 lb 12.60 ftò 3232 Copper Steel
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84527103244
1-Pass Model Oil Coolers, BNZ Series, 1-Pass Temperature Control Unit 580.00 psi Shell & Tube Technology To cool hydraulic fluid utilizing shell and tube technology SAE Flange 36.15 lb 39.50 ftò 3244 Copper
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Hydraulic Components
General Guide & Overview
Hydraulic components are at the heart of a hydraulic system, playing a vital role in its operation. These components, collectively known as the components of a hydraulic system, are essential for the efficient and reliable performance of hydraulic systems in various applications.
The components of a hydraulic system can be broadly categorized into four main types: hydraulic pumps, control valves, actuators, and hydraulic accessories. Each of these components serves a specific purpose in ensuring the smooth functioning of the hydraulic system.
Hydraulic pumps are responsible for providing the necessary hydraulic oil to meet the system's requirements. They play a crucial role in converting mechanical energy into hydraulic energy, ensuring a continuous flow of hydraulic fluid.
Control valves are another crucial element of hydraulic systems, as they regulate and control pressure, direction, and flow in the system. These valves enable precise control and manipulation of the hydraulic fluid, allowing for smooth operation of the system.
Actuators, such as hydraulic cylinders and motors, convert the hydraulic energy provided by the hydraulic pump into linear or rotary motion. These components are responsible for the physical work performed by the hydraulic system, such as lifting or moving objects.
Hydraulic accessories complement the main components of the system, performing supporting roles. These accessories include seals, filters, accumulators, and coolers, among others, ensuring the proper functioning and longevity of the hydraulic system.
Understanding the characteristics and classification of hydraulic components is crucial for designing, maintaining, and troubleshooting hydraulic systems. By gaining knowledge about the components of a hydraulic system, individuals can optimize the performance of hydraulic systems and ensure their efficient operation.
Hydraulic Pumps - The Power Element of Hydraulic Systems
Hydraulic pumps are the vital components that provide the power needed for hydraulic systems. These pumps convert mechanical energy into hydraulic energy by supplying the necessary hydraulic oil to the system. Understanding the different types of hydraulic pumps is crucial for selecting the most suitable pump for specific applications.
There are three main types of hydraulic pumps:
1. Gear Pumps
Gear pumps are widely used in hydraulic systems due to their simplicity and cost-effectiveness. They consist of two meshing gears that create a vacuum, drawing in hydraulic oil and transferring it to the system.
2. Vane Pumps
Vane pumps offer higher efficiency and lower noise levels compared to gear pumps. They use vanes that slide in and out of slots to create suction and discharge, ensuring a continuous flow of hydraulic oil.
3. Axial Piston Pumps
Axial piston pumps are known for their high-pressure capabilities and precise control. They use pistons arranged in an axial configuration to deliver hydraulic oil to the system. These pumps are often used in applications that require high forces and accurate control, such as heavy machinery and industrial equipment.
Hydraulic pumps can also be classified based on pressure levels. Low-pressure pumps are suitable for applications where a lower pressure is sufficient. Medium and low-pressure pumps strike a balance between pressure and flow requirements. High-pressure pumps, as the name suggests, are designed to handle demanding applications that require high forces.
Additionally, hydraulic pumps can have different displacement capabilities. Displacement refers to the volume of hydraulic oil displaced per revolution of the pump. Pumps with larger displacements are used in applications that require higher flow rates, while smaller displacement pumps are suitable for applications with lower flow requirements.
Some hydraulic pumps have a fixed displacement, meaning the amount of hydraulic oil delivered per revolution remains constant. On the other hand, variable displacement pumps allow for adjustment, enabling the system to control the flow and pressure according to its needs.
In conclusion, hydraulic pumps are the power elements that drive hydraulic systems. Gear pumps, vane pumps, and axial piston pumps are the main types of pumps used in various applications. Understanding the different types, pressure levels, and displacement capabilities of hydraulic pumps is essential for selecting the right pump and ensuring optimal performance of hydraulic systems.
Control Valves - Regulating Pressure, Direction, and Flow
Control valves play a crucial role in hydraulic systems by regulating and controlling the pressure, direction, and flow of hydraulic fluid. These valves ensure the proper operation and efficiency of the system.
Pressure valves, such as overflow valves, pressure reducing valves, and sequence valves, are responsible for controlling the pressure levels within the system. These valves prevent damage and maintain the system's integrity.
Directional valves, including reversing valves and one-way valves, control the flow direction in the hydraulic circuit. By opening or closing these valves, the on-off control of hydraulic actuators is enabled.
Flow valves, such as speed control valves and throttle valves, regulate the flow rate to control the movement speed of hydraulic actuators. These valves allow for precise control over the actuator's motion.
The failure of control valves can result in pressure imbalances, improper sequencing of actions, and loss of control in the hydraulic system. Therefore, proper maintenance and monitoring of control valves are essential for the reliable operation of hydraulic systems.
By selecting the appropriate control valves and ensuring their proper functioning, engineers and technicians can optimize the performance and longevity of hydraulic systems.
Hydraulic components are the lifeline of hydraulic systems, enabling them to function seamlessly and efficiently. This comprehensive guide has provided valuable insights into the various hydraulic components that make up a hydraulic system, including hydraulic pumps, control valves, actuators, and hydraulic accessories.
By understanding the characteristics, classification, and roles of these components, individuals can design, maintain, and troubleshoot hydraulic systems with confidence. Hydraulic pumps ensure a steady supply of hydraulic oil, while control valves regulate and control fluid flow. Actuators convert hydraulic energy into mechanical motion, and hydraulic accessories provide essential support to the overall system operation.
Proper selection, installation, and maintenance of hydraulic components are crucial in achieving optimal performance and reliability in various applications. With the knowledge gained, individuals can navigate the world of hydraulic components and optimize the performance of hydraulic systems in their specific industries.
Remember, hydraulic components are the backbone of hydraulic systems. Through careful consideration and implementation, the right combination of hydraulic components can deliver efficient and reliable performance, ensuring smooth operations and maximized productivity.
FAQ
What are hydraulic components?
Hydraulic components are the basic components of a hydraulic system. They include hydraulic pumps, control valves, actuators, and hydraulic accessories.
What is the role of hydraulic pumps in a hydraulic system?
Hydraulic pumps are responsible for providing hydraulic oil to meet the system's requirements. They convert mechanical energy into hydraulic energy.
What are the main types of hydraulic pumps?
The main types of hydraulic pumps are gear pumps, vane pumps, and axial piston pumps.
What are the functions of control valves in a hydraulic system?
Control valves regulate and control the pressure, direction, and flow of hydraulic fluid in a system.
What are the different types of control valves?
The different types of control valves include pressure valves, directional valves, and flow valves.