Product Description

Mini Gasoline counterbalance CHINAMFG Engine LPG Forklift Styles Side Shift Cylinders

Our basic equipment:
Japanese CHINAMFG Engine,
Electronic or Hydraulic transmisson,
Load sensing steering priority system
IMPCO Conversion Device
Two stage 3 meter high Mast,
1.2 meter Fork,
oyota Semi-enclosed Seat,
LED lights, Pneumatic Tire. 
Inaddition, You can choose add some equipments to satisfy your needs. such as  Side Shifter, Sealed Cab, CHINAMFG Tire, Air clean assydiesel and son on. We have sevious attachments to convenient your work, welcome to inquiry~


Specification

 

Model UNIT FG20T FG25T FG30T FG35T
Power Unit   GAS/LPG GAS/LPG GAS/LPG GAS/LPG
Transmission Type   Electronic hydraulic Electronic hydraulic Electronic hydraulic Electronic hydraulic
Rated Capacity kg 2000 2500 3000 3500
Load Center mm 500 500 500 500
MaX.Lifting Height mm 3000 3000 3000 3000
Turning Radius mm 2170 2240 2400 2460
Overall Length (without fork) mm 2605 2605 2705 2760
Overall Width mm 1150 1150 1240 1240
Overhead Guard Height mm 2090 2090 2130 2130
Fork Size (L×W×T) mm 1220×122×40 1220×122×40 1220×125×45 1220×125×50
Mast Height (Fork lowered) mm 2090 2090 2140 2140

 

Feature
1.Adopt gradeability improving style electronic hydraulic transmission, compare with other models: efficiency 5% improved, climbing torque 8% increased, noise 3~5dB reduced, thermal equilibrium temperature 8-10decreased.

2.Load sensing priority steering hydraulic system is adopted to reduce pressure loss of hydraulic system, save energy and improve operation comfort.

3.Introducing advances technology from Germany, the unique single chain has greatly enhanced he front view while working.

4.The new suspension system, adjustable seat, allowing the driver to feel more comfortable and reducing fatigue during long operations.

 

IF you have interesting with our forklift or any questions, please chat with me,  Thanks~

After-sales Service: Video Technical Support
Warranty: One Year or 2000hours
Cab Location: Adjustable
Type: Diesel Forklift
Power: Gasoline Engine
Load Capacity: 1T - 5T
Samples:
US$ 13000/Piece
1 Piece(Min.Order)

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Customization:
Available

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forklift hydraulic cylinder

How does a forklift hydraulic cylinder contribute to energy-efficient lifting?

A forklift hydraulic cylinder plays a significant role in facilitating energy-efficient lifting operations. Here's an explanation of how it contributes to energy efficiency:

1. Power Transfer:

The hydraulic cylinder efficiently transfers power from the hydraulic system to the load-bearing structure of the forklift. By converting hydraulic pressure into linear force, it allows the forklift to lift heavy loads with minimal energy expenditure.

2. Load Balancing:

Hydraulic cylinders can be designed to provide load balancing capabilities, ensuring that the lifting force is evenly distributed across multiple cylinders. This feature allows for stable and efficient lifting, as each cylinder shares the load, reducing the strain on individual components and optimizing energy usage.

3. Controlled Fluid Flow:

The hydraulic system of a forklift, including the hydraulic cylinder, operates based on precise control of fluid flow. By regulating the flow rate and direction of the hydraulic fluid, the operator can control the speed and force of the cylinder's extension and retraction. This level of control minimizes energy waste by avoiding sudden or excessive movements.

4. Regenerative Systems:

In some advanced forklift designs, regenerative systems can be incorporated into the hydraulic circuit. These systems capture and reuse energy that would otherwise be dissipated as heat during the lowering of loads. The regenerated energy can be stored and used to power other components of the forklift, contributing to overall energy efficiency.

5. Proper Maintenance:

Maintaining the hydraulic cylinder in good working condition is crucial for energy-efficient lifting. Regular inspection, cleaning, and lubrication of the cylinder and its seals help reduce friction and prevent fluid leakage. Well-maintained cylinders operate with improved efficiency and minimize energy losses.

By employing these energy-saving techniques, a forklift hydraulic cylinder enhances the overall energy efficiency of the lifting process. It enables controlled power transfer, load balancing, regulated fluid flow, and, in some cases, the utilization of regenerative systems. Proper maintenance further ensures optimal performance and energy conservation.

In summary, a forklift hydraulic cylinder contributes to energy-efficient lifting by efficiently transferring power, providing load balancing capabilities, enabling controlled fluid flow, and potentially incorporating regenerative systems. Its proper maintenance enhances energy conservation and overall lifting efficiency.

forklift hydraulic cylinder

How does a forklift hydraulic cylinder contribute to smooth lifting and lowering?

A forklift hydraulic cylinder plays a crucial role in achieving smooth lifting and lowering operations. Here's an explanation of how it contributes to this process:

The smooth lifting and lowering of a forklift's load is made possible by the hydraulic cylinder working in tandem with the hydraulic system. The hydraulic cylinder contributes in the following ways:

1. Controlled Fluid Power:

The hydraulic cylinder utilizes controlled fluid power to lift and lower the load. When the operator activates the hydraulic system, hydraulic fluid is pumped into the cylinder, exerting pressure on the piston inside. This pressure creates a force that raises or lowers the load smoothly and evenly.

2. Piston and Cylinder Design:

The design of the hydraulic cylinder's piston and cylinder bore contributes to smooth lifting and lowering. The piston is precisely machined to fit within the cylinder bore with minimal clearance. This tight fit, along with the use of seals and hydraulic fluid, helps minimize friction and ensure smooth movement of the piston within the cylinder.

3. Valve Control:

The hydraulic cylinder's movement is controlled by valves in the hydraulic system. These valves regulate the flow of hydraulic fluid into and out of the cylinder. By adjusting the valve settings, the operator can control the speed and rate of lifting and lowering. The valves allow for precise control, enabling smooth and gradual movements of the load.

4. Load Balancing:

The hydraulic cylinder contributes to load balancing during lifting and lowering operations. By adjusting the extension or retraction of the cylinder, the operator can maintain a proper balance between the load and the forklift. This balance helps prevent sudden shifts or jerky movements, resulting in smoother and more stable lifting and lowering.

5. Damper Mechanisms:

In some forklift hydraulic systems, dampers or shock absorbers are incorporated to further enhance smooth lifting and lowering. These mechanisms help cushion the movements of the hydraulic cylinder, reducing any sudden jolts or vibrations. The dampers absorb and dissipate energy, resulting in smoother and more controlled load handling.

In summary, a forklift hydraulic cylinder contributes to smooth lifting and lowering operations through controlled fluid power, precise piston and cylinder design, valve control, load balancing, and the potential inclusion of dampers. These factors work together to provide operators with the ability to lift and lower loads smoothly, efficiently, and with enhanced control.

forklift hydraulic cylinder

How Does a Forklift Hydraulic Cylinder Contribute to Precise Load Positioning?

A forklift hydraulic cylinder plays a crucial role in achieving precise load positioning during material handling operations. The hydraulic cylinder, along with the hydraulic system of a forklift, enables operators to accurately lift, lower, and position loads with precision. Here's how a forklift hydraulic cylinder contributes to precise load positioning:

  1. Controlled Lifting and Lowering:
  2. The hydraulic cylinder allows for controlled lifting and lowering of the load. When the operator activates the controls to lift the load, the pressurized hydraulic fluid is directed to the hydraulic cylinder. The hydraulic pressure exerts force on the piston, causing it to extend and lift the load. By regulating the hydraulic pressure and flow, the operator can precisely control the height to which the load is raised. Similarly, during lowering, the hydraulic system enables a controlled descent, allowing for accurate placement of the load.

  3. Smooth and Gradual Movements:
  4. The hydraulic system, including the cylinder, facilitates smooth and gradual movements of the load. This is achieved through the use of control valves and hydraulic fluid flow regulation. By adjusting the valve settings, the operator can control the speed at which the hydraulic fluid enters or exits the cylinder, resulting in smooth and gradual movements. This level of control allows for precise positioning of the load, especially when working in tight spaces or when dealing with fragile or sensitive materials.

  5. Load Sensing and Feedback:
  6. Modern forklifts often incorporate load sensing mechanisms in their hydraulic systems, which further enhance precise load positioning. Load sensing valves continuously monitor the force exerted on the hydraulic cylinder and provide feedback to the hydraulic system. This feedback enables the hydraulic system to adjust the hydraulic pressure and flow rate in real-time, ensuring that the load is positioned accurately and safely. Load sensing technology helps compensate for variations in load weight and provides the operator with greater control and precision.

  7. Fine Adjustment Controls:
  8. Forklift hydraulic systems are typically equipped with fine adjustment controls that allow for precise load positioning. These controls, often in the form of joysticks or knobs, enable the operator to make small, incremental adjustments to the lift height or tilt angle of the forks. By manipulating these controls, the operator can fine-tune the position of the load to align it with racks, shelves, or other designated areas. These fine adjustment controls provide the operator with fine-grained control over load positioning, increasing accuracy and efficiency.

  9. Stability and Balance:
  10. The hydraulic cylinder works in conjunction with the overall design and stability features of the forklift to contribute to precise load positioning. Forklifts are designed with a stable base, a low center of gravity, and features such as tilt cylinders and mast positioners. These elements ensure stability and balance during load handling operations, allowing for more accurate positioning of the load. The hydraulic cylinder's smooth and controlled movements, combined with the stability features of the forklift, enable precise load placement without compromising safety or stability.

In summary, a forklift hydraulic cylinder contributes to precise load positioning through controlled lifting and lowering, smooth and gradual movements, load sensing and feedback mechanisms, fine adjustment controls, and the overall stability and balance of the forklift. These features and capabilities empower operators to handle loads with precision, align them accurately in designated areas, and optimize material handling operations in various industrial settings.

China high quality Mini Gasoline Counterbalance CZPT Engine LPG Forklift Styles Side Shift Cylinders   a/c vacuum pump		China high quality Mini Gasoline Counterbalance CZPT Engine LPG Forklift Styles Side Shift Cylinders   a/c vacuum pump
editor by CX 2023-10-16