Product Description

Product Description

Light Hydraulic Jack/Ram HR-100S
Used to support the object and prevent the object moving.
Scope of application:
1. Various accidents, traffic accident rescue, earthquake, building collapse and other disaster rescue.
2. Used to support the object by holding the top and lift the top,and prevent the object moving to keep the weight stable.
Hydraulic rescue kit( hydraulic cutter, hydraulic spreading cutter, hydraulic spreader, hydraulic telescopic ram, high-pressure motor pump), is specially designed for traffic accidents. the vehicle extrication kit contains everything that you need. All of the tools have adequate reserves to cope with modern types of vehicles.

Product Parameters

Product name   Light Hydraulic Jack/Ram
 Model HR-100S
Rated pressure 630bar
Jacking force 100KN
Retracted length 360mm
Piston stroke 200mm
Extension distance 350-550mm
Gross weight 9.8kg
Net weight 8.5kg
Outer Size 510x140x310mm
Machine Size 480x100x290mm
Certificate CE

Detailed Photos

 

Application Scenarios

Company Introduction

ROSPER(HangZhou)TECHNOLOGY CO., LTD is  the metal products and tools for construction and firefighting&rescure protection Manufacturer&Trader.The products scopes:Firefighting&Rescure Products,Hydraulic power machinery and components,widely used in fire, police, security, mining, earthquake bureau, steel, airport, renewable energy and other departments and fields. The materials and manufacturing processes of key components are purchased and produced according to military standards. We also work with the top company who equipped with domestic first-class production equipment and complete testing equipment with high quality and innovative technology as the purpose, to design, research and develop the fire rescue demolition products to suitable for different use scenarios,to provide full guarantee for product quality.
We are committed to putting people first and achieving safe and efficient rescue.

FAQ

1.Are you a trading company or manufacturer?
Prosper is a manufacturer&trader,specialized in the research, development and production of metal products and machines&tools.

2.Can you provide OEM service?
Yes, we can do OEM,ODM,Customization.

3.The price that you offer me, could be more discount?
It will be depended on order quantity.

4.What is your shipping way ?
 By express (DHL,Fedex,TNT),by air ,or sea. We will choose the best way according to customers requirement.

5.What's the International Commercial Terms(Incoterms)?
  EXW,FOB, CFR, CIF,DDU,DDP.

6.How about the delivery time?
Normally 3-15 days after receiving the advance payment. Samples will be prepared within 1-7 days.

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Application: Emergency Rescue/Vehicle Demolition etc.
Using Field: Traffic Accident/Earthquake/Building Collapse etc.
Suitable for: Fire-Fighting/Traffic/Rescue Team etc.
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

How does a hydraulic ram contribute to controlled and precise movement?

A hydraulic ram plays a crucial role in enabling controlled and precise movement. Here's a detailed explanation:

1. Hydraulic Fluid: Hydraulic rams operate by utilizing hydraulic fluid, which acts as a medium for transmitting force. The fluid is incompressible, allowing force to be evenly distributed throughout the system. This property ensures that the movement of the ram is smooth and consistent, contributing to controlled and precise motion.

2. Flow Control: Hydraulic rams incorporate flow control mechanisms to regulate the rate of fluid flow. Flow control valves, such as throttle valves or flow restrictors, can be used to adjust the speed at which the fluid enters or exits the ram. By controlling the flow rate, the speed of the ram's movement can be precisely managed, enabling controlled and precise motion.

3. Pressure Regulation: The hydraulic pressure within the system directly influences the force output and speed of the hydraulic ram. By controlling the pressure using pressure control valves or regulators, the movement of the ram can be finely tuned. Adjusting the pressure allows for precise control over the force applied by the ram, resulting in controlled and precise movement.

4. Piston and Cylinder Design: The design of the piston and cylinder in a hydraulic ram contributes to controlled and precise movement. The fit between the piston and cylinder is designed to minimize leakage and ensure smooth operation. This tight clearance helps maintain accurate positioning and prevents unwanted movement or drift, allowing for precise control over the ram's motion.

5. Proportional Control Systems: Advanced hydraulic ram systems can incorporate proportional control systems that enable precise movement control. These control systems use sensors and feedback mechanisms to monitor and adjust the position, speed, and force of the ram in real-time. By continuously adapting to changing conditions, the control system ensures precise and accurate movement, even in complex applications.

6. Position Sensing: Hydraulic rams can be equipped with position sensing devices, such as linear transducers or encoders, to provide feedback on the ram's position. This feedback allows for precise positioning of the ram and ensures accurate movement control. The position sensing information can be used in conjunction with control systems to achieve the desired level of precision in the ram's motion.

Through the use of hydraulic fluid, flow control mechanisms, pressure regulation, piston and cylinder design, proportional control systems, and position sensing devices, hydraulic rams contribute to controlled and precise movement. These features make hydraulic rams well-suited for applications that require accurate positioning, gradual motion, or precise force application.

Can hydraulic rams be applied in both mobile and stationary machinery?

Yes, hydraulic rams can be applied in both mobile and stationary machinery. Here's a detailed explanation:

Hydraulic rams are versatile components that find applications in various industries and machinery types. Their ability to generate and transmit high forces makes them suitable for a wide range of mobile and stationary applications.

1. Mobile Machinery: Hydraulic rams are commonly used in mobile machinery, such as construction equipment, agricultural machinery, material handling vehicles, and transportation vehicles. In these applications, hydraulic rams are utilized for tasks such as lifting, pushing, pulling, tilting, and steering. Mobile machinery often requires compact and efficient power systems, and hydraulic rams provide the necessary force multiplication capabilities while being adaptable to different operational conditions.

2. Stationary Machinery: Hydraulic rams are also extensively employed in stationary machinery across various industries. Examples include hydraulic presses, industrial robots, machine tools, hydraulic lifts, and heavy-duty equipment. In stationary machinery, hydraulic rams are utilized for precision positioning, applying controlled force, clamping, bending, or pressing operations. The ability to control and adjust the force, speed, and position of hydraulic rams makes them ideal for applications that require accurate and repeatable motion.

3. Common Applications: Hydraulic rams can be found in a wide range of specific applications. For mobile machinery, this may include the hydraulic cylinders used in excavators to control the boom, arm, and bucket movements. In stationary machinery, hydraulic rams are often employed in hydraulic presses for metal forming, hydraulic clamps for workholding, or hydraulic actuators for precise motion control. The flexibility of hydraulic rams allows for customization to suit specific requirements in diverse industries.

4. Advantages in Both Mobile and Stationary Machinery: The use of hydraulic rams provides several advantages in both mobile and stationary machinery. These include high force output, adjustable force and speed, smooth operation, compact design, reliability, and durability. Hydraulic systems offer efficient power transmission and can be easily integrated into different machinery designs, making them a popular choice in a wide range of applications.

Overall, hydraulic rams can be effectively applied in both mobile and stationary machinery, offering the benefits of force multiplication, precise control, and adaptability to diverse operational requirements.

hydraulic cylinder

How does a hydraulic ram contribute to energy-efficient force generation?

A hydraulic ram plays a significant role in energy-efficient force generation. Here's a detailed explanation:

1. Force Multiplication: One of the key advantages of a hydraulic ram is its ability to multiply force. Hydraulic rams utilize the principle of Pascal's law, which states that pressure exerted on a fluid in a confined space is transmitted equally in all directions. By applying a relatively small force to a small piston or plunger, hydraulic rams can generate a significantly larger force at a larger output piston or plunger. This force multiplication allows for the efficient generation of high forces with relatively low input forces, resulting in energy savings.

2. Power Transmission: Hydraulic rams are part of a hydraulic system that efficiently transmits power from a prime mover, such as an electric motor or an internal combustion engine. The hydraulic system uses pressurized fluid to transmit power through pipelines to the hydraulic ram. The fluid acts as a medium to transfer energy from the prime mover to the ram. Hydraulic systems have high power transmission efficiency, minimizing energy losses during power transfer. This efficiency contributes to energy-efficient force generation in hydraulic rams.

3. Variable Force and Speed Control: Hydraulic rams offer the ability to control and adjust the force and speed of operation. By regulating the flow of hydraulic fluid into the ram, the force exerted by the ram can be precisely controlled. This allows for matching the force output to the specific requirements of the task at hand, avoiding unnecessary energy consumption. Additionally, the speed of the ram can be adjusted by controlling the flow rate of the hydraulic fluid. By optimizing the force and speed of operation, hydraulic rams ensure energy-efficient force generation.

4. Regenerative Energy: Hydraulic systems can incorporate regenerative circuits to capture and reuse energy that would otherwise be wasted. Regenerative circuits allow the hydraulic fluid, which carries potential energy, to flow back into the system after completing a task. This energy can be stored or redirected for future use, reducing the overall energy consumption of the hydraulic system. By implementing regenerative circuits, hydraulic rams contribute to energy efficiency by harnessing and recycling energy that would have otherwise been dissipated.

5. Compact Design and Light Weight: Hydraulic rams are compact and lightweight compared to other force generation mechanisms. Their compact design reduces the amount of material required for construction, resulting in lower energy consumption during the manufacturing process. The lightweight nature of hydraulic rams also contributes to reduced energy requirements for transportation and installation. The combination of compact design and light weight makes hydraulic rams an energy-efficient choice for force generation in various applications.

6. System Integration: Hydraulic rams can be easily integrated into complex hydraulic systems, allowing for efficient overall system design. The integration of hydraulic rams with other components, such as valves, pumps, and accumulators, enables precise control and optimization of the force generation process. Proper system design and integration ensure that hydraulic rams operate at their highest efficiency, minimizing energy waste and maximizing force generation capabilities.

In summary, hydraulic rams contribute to energy-efficient force generation through force multiplication, efficient power transmission, variable force and speed control, regenerative energy utilization, compact design and light weight, as well as system integration. These features make hydraulic rams a preferred choice in applications where energy efficiency and precise force generation are essential.

hydraulic cylinder

What are the components and parts of a hydraulic ram?

A hydraulic ram consists of several key components and parts. Here's a detailed explanation:

1. Drive Pipe: The drive pipe is the inlet pipe through which the flowing water enters the hydraulic ram. It is connected to a water source, such as a stream or a river, and carries the water that provides the energy for the hydraulic ram.

2. Delivery Pipe: The delivery pipe is the outlet pipe through which the water is pumped to the desired destination at a higher elevation. It carries the lifted water away from the hydraulic ram.

3. Valve: The valve controls the flow of water within the hydraulic ram. It is responsible for allowing the water to enter the ram during the drive phase and closing to create the water hammer effect during the delivery phase. The valve's opening and closing are crucial for the hydraulic ram's operation.

4. Air Vessel: The air vessel, also known as the air chamber or air dome, is a chamber that contains compressed air. It acts as an accumulator and helps maintain a constant flow of water by absorbing pressure fluctuations during the operation of the hydraulic ram. The compressed air in the air vessel provides a cushioning effect and contributes to the overall efficiency of the ram.

5. Waste Valve: Some hydraulic ram designs include a waste valve. The waste valve is an optional component that allows excess water or air to escape from the hydraulic ram if the pressure becomes too high. It helps protect the ram from damage caused by excessive pressure build-up.

6. Seals and Gaskets: Seals and gaskets are essential components that prevent leakage of water or air from the hydraulic ram. They ensure the proper functioning and efficiency of the ram by maintaining the necessary pressure differentials and preventing loss of energy.

7. Frame and Mounting: The hydraulic ram is typically housed within a sturdy frame or housing that provides support and protection for the components. The frame also serves as a mounting point for installation, securing the ram in the desired location.

8. Control Mechanism (Optional): Some hydraulic ram systems may incorporate a control mechanism, such as a lever or float, to regulate the operation of the ram. This mechanism allows manual or automatic control over the valve opening and closing, providing additional flexibility and adjustability.

These components work together to enable the hydraulic ram to harness the energy of flowing water and pump a portion of that water to a higher elevation without the need for external power sources.

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editor by CX 2024-03-23