Product Description

Product Details:

 

Part Number:

10C0114 SP103896 SP157108 SP126437 ZL50C.9.2A

Product Name:

10C0114 SP103896 SP157108 SP126437 Steering Cylinder Bucket cylinder Boom Cylinder

Truck model:

ZL50C CLG856 CLG835 CLG842 

Certification:

ISO9    Pilot  Valve 
2908    rear drive shaft
2908    Support
413     combined lamp L 
412    gear ring 
205095717    pinion and gear 
20509m    alternator 
412    third shaft assy
411    steering union 
412    Priority valve
4129    brake piston
412    air booster 
    engine overhaul gasket
C05AL-1S9543    PIN
2835    SHIM 
2835    XIHU (WEST LAKE) DIS. PLATE
2835    SCREW
2835    WASHER
2835    SHAFT
40130571    NUT
2835    NUT
2835        BRACK SHOE
2937        FUSE BOX
2917        FAN
411        BALL JOINT
2808/860124435    AIR COMPRESSOR
13062016/41105714072    AIR COMPRESSOR
12C4724    PILOT VALVE
13C 0571 1        SLEEVE
27A2493    BUSHING
    CONTROL VALVE
Air Filter        41
Wear Plate        
Wear Plate        
Wiper Blade        
Screw        
Nut        
Rubber Plate        
Nut        401300571
Fuel Filter        11215718
Wiper Arm        
Screw        

OUR COMPANY BUSHINESS SCOPE

Wheel loader
LG916 LG918 L918 LG933L L933 LG936L LG938L L938F LG946L L948 L948F LG952N LG952H LG953N L953F L955 L955F L955FN LG956L L956F L956FH LG958L L958F LG959 LG968 L968F
ZL50GN LW300F LW321F LW300KN LW500F LW500FN LW500KN.
XG932 XG955 XG935
CDM855 CDM856 CDM860 CDM835
CLG856 ZL50G CLG835
Backhoe loader 
LGB877 LGB876 WZ30-25 
Motor Grader 
G9138 G9165 G9180 G9190 G9200 G9220
Road Roller 
RS7120 RS7200 RS7260 RS8140 RS8160 RS8180 RS8200 RS8220
Excavator
LG6135E LG6150E LG6210E LG6225E LG6235E LG6250E LG6300E LG6360E LG6400E 
 Bulldozer 
SD16 TY160 /SD22 TY220/ SD32 TY320
2.Engine parts 
(Yuchai(YC6108G) CHINAMFG (Deutz TD226B,WD615) CHINAMFG (C6121),(6BT5.9..)
3.Transmission 
(4WG180,4WG200..) HangZhou advance (ZL30E,ZL50E,YD13,WG180..) 

 Packaging &Shipping

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After-sales Service: Service on Line
Warranty: 1-6 Months
Type: Diesel Engine Spare Part
Application: Wheel Loader Parts
Certification: CE, ISO9001: 2000
Condition: New
Samples:
US$ 50/Piece
1 Piece(Min.Order)

|

Customization:
Available

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boom cylinder

How does a boom cylinder handle variations in load capacity and weight?

A boom cylinder is designed to handle variations in load capacity and weight in heavy machinery. Here’s a detailed explanation:

When a machinery equipped with a boom cylinder is used for different tasks, the load capacity and weight requirements may vary. The boom cylinder is designed to accommodate these variations and ensure optimal performance. Here are the key factors that contribute to how a boom cylinder handles load capacity and weight variations:

  • Force Generation: The boom cylinder generates the necessary force to move the boom, arm, or attachment of the machinery. The force generated by the cylinder can be adjusted based on the load capacity and weight requirements. By controlling the hydraulic pressure and flow rate, the operator can regulate the force exerted by the cylinder, allowing it to handle both lighter and heavier loads.
  • Adjustable Stroke Length: Boom cylinders often have an adjustable stroke length, which is the distance the piston can travel within the cylinder. By adjusting the stroke length, the cylinder can adapt to different load capacities and weight distributions. For heavier loads, a longer stroke may be required to provide the necessary extension or retraction of the boom. Conversely, for lighter loads, a shorter stroke may be sufficient, optimizing the cylinder’s efficiency.
  • Pressure Compensation: Some boom cylinders are equipped with pressure compensation mechanisms. These mechanisms automatically adjust the hydraulic pressure within the cylinder to compensate for variations in load capacity and weight. For example, as the load on the boom increases, the pressure compensation mechanism increases the hydraulic pressure, ensuring consistent force and control throughout the operation.
  • Integration with Load Sensing Systems: Boom cylinders can be integrated with load sensing systems that provide real-time feedback on the load capacity and weight. Load sensing systems use sensors to measure the force exerted on the boom or attachment and transmit this information to the hydraulic control system. The hydraulic control system can then adjust the pressure and flow rate to match the load requirements, optimizing the cylinder’s performance.
  • Multi-Stage Cylinders: In some cases, machinery may be equipped with multi-stage boom cylinders. These cylinders have multiple sections or stages that can be extended or retracted independently. Each stage may have different dimensions and force capabilities. By adjusting the extension or retraction of each stage, the cylinder can adapt to varying load capacities and weight distributions, providing precise control and handling.

By incorporating these design features and mechanisms, a boom cylinder can effectively handle variations in load capacity and weight. This allows the machinery to perform a wide range of tasks with different load requirements, providing versatility and efficiency in industries such as construction, mining, material handling, and more.

boom cylinder

How does a boom cylinder contribute to stable and safe equipment operation?

A boom cylinder plays a crucial role in ensuring stable and safe equipment operation. Here’s a detailed explanation:

A boom cylinder is a hydraulic actuator that is commonly used in various types of equipment, such as cranes, excavators, loaders, and aerial lifts. Its primary function is to provide the necessary force and controlled movement to extend, retract, and articulate the boom or arm of the equipment.

Here are several ways in which a boom cylinder contributes to stable and safe equipment operation:

  • Load Handling: A boom cylinder is responsible for lifting and manipulating loads. By providing the necessary force and controlled movement, it allows operators to handle materials with precision and stability. The cylinder’s ability to support and control the load ensures that it remains stable during lifting, lowering, and positioning, minimizing the risk of accidents or load instability.
  • Operator Control: Boom cylinders enable operators to have precise control over the movement of the equipment’s boom or arm. This control is crucial for performing tasks accurately and safely. The smooth and controlled movement facilitated by the cylinder allows operators to position the equipment and its attachments precisely, reducing the likelihood of unintended movements or sudden shifts in load.
  • Stability and Balance: A properly functioning boom cylinder helps maintain the stability and balance of the equipment. It ensures that the boom or arm remains in the desired position, even when subjected to external forces or uneven terrain. This stability and balance contribute to safe operation, preventing tip-overs, excessive swaying, or loss of control.
  • Overload Protection: Boom cylinders are often equipped with overload protection mechanisms. These mechanisms prevent the equipment from being subjected to excessive loads beyond its capacity. When the load exceeds a safe threshold, the cylinder’s overload protection system activates, either by limiting the movement or providing a warning signal to the operator. This feature helps prevent equipment damage and promotes safe operation.
  • Structural Integrity: Boom cylinders are designed to withstand high forces and loads. They are built with robust materials and undergo rigorous testing to ensure structural integrity and durability. The cylinder’s strength and reliability contribute to the overall stability and safe operation of the equipment.

Overall, a boom cylinder plays a vital role in ensuring stable and safe equipment operation. It provides load handling capabilities, operator control, stability and balance, overload protection, and structural integrity. These factors combine to minimize risks, enhance operator safety, and promote efficient and secure equipment operation.

It’s important to follow the manufacturer’s guidelines and recommendations regarding the installation, operation, and maintenance of boom cylinders to ensure their proper functioning and optimal safety.

boom cylinder

How does a boom cylinder handle variations in boom extension and retraction?

A boom cylinder is designed to handle variations in boom extension and retraction through its inherent construction and hydraulic control system. Here’s a detailed explanation:

  • Hydraulic Control: The boom cylinder is connected to a hydraulic control system that regulates the flow and pressure of hydraulic fluid entering and exiting the cylinder. By adjusting the flow rate and pressure, operators can control the speed and force of the boom’s extension and retraction. This hydraulic control allows for precise and controlled movement, accommodating variations in the desired extension or retraction of the boom.
  • Piston and Cylinder Design: The design of the piston and cylinder accounts for variations in boom extension and retraction. The piston is typically equipped with seals that create a tight seal between the piston and cylinder barrel, preventing hydraulic fluid leakage and maintaining pressure. The cylinder barrel is designed to withstand high-pressure forces and provide structural integrity, ensuring smooth and controlled movement of the piston during variations in boom extension and retraction.
  • Internal Cushions: Some boom cylinders feature internal cushions or shock absorbers. These cushions help handle variations in boom extension and retraction by dampening the impact and reducing vibrations. When the boom extends or retracts rapidly or encounters sudden changes in load, the internal cushions absorb the energy and provide a smoother transition, minimizing the stress on the cylinder and other components.
  • Pressure Relief Valve: Boom cylinders may incorporate a pressure relief valve as a safety measure. The pressure relief valve protects the cylinder and other components from excessive pressure by diverting excess fluid flow back to the hydraulic reservoir. In case of variations in boom extension or retraction that lead to an increase in pressure beyond the cylinder’s capacity, the pressure relief valve ensures the system remains within safe operating limits.
  • Load Sensing: In some advanced hydraulic systems, load-sensing mechanisms are employed to adapt the boom cylinder’s performance to variations in load and operating conditions. Load sensors monitor the force exerted on the boom, and the hydraulic control system adjusts the pressure and flow of hydraulic fluid accordingly. This load-sensing capability allows for optimized performance, improved energy efficiency, and enhanced control over variations in boom extension and retraction.

Collectively, through hydraulic control, piston and cylinder design, internal cushions, pressure relief valves, and load-sensing mechanisms, boom cylinders can effectively handle variations in boom extension and retraction. These features ensure smooth, controlled, and safe operation, regardless of the specific requirements or changes in load and operating conditions.

China supplier 10c0114 Sp103896 Sp102908 10c0114 Sp126437 10c0114 Zl50c. 9.2A Steering Cylinder Bucket Cylinder Boom Cylinder for CZPT Clg856 Zl50c Loader Parts   with Good quality China supplier 10c0114 Sp103896 Sp102908 10c0114 Sp126437 10c0114 Zl50c. 9.2A Steering Cylinder Bucket Cylinder Boom Cylinder for CZPT Clg856 Zl50c Loader Parts   with Good quality
editor by CX 2024-04-13