Product Description

Dear friends!
My name is Irina Mamoshina. Please pay a moment of your attention : -).
Our company HangZhou CHINAMFG International Trade Co., Ltd is engaged in the production and sale of auto parts for Chinese special equipment, engines and equipment assembly. We also produce metal parts ourselves, such as gears, fingers, filters, etc.
Our products include:
 
ZL30G, ZL40G, ZL50G, ZL50GL, ZL60G, LW3 46 190 пневматический регулирующий контрольный клапан  bearing pneumatic regulating control valve 12JS160T-17 0571 1 54 191 сальник манжетка oil seal cuff F91444 88 192 удлиненный промежуточный вал вспомогательной КПП в сборе elongated intermediate shaft of the auxiliary gearbox assembly 192311E 18 193 Поршень цилиндра переключения диапазонов передач Gear Shift cylinder piston 14341  60 194 О-образное уплотнительное кольцо O-shaped O-ring 14344  140 195 О-образное уплотнительное кольцо O-shaped O-ring 14345  140 196 Прокладка уплотнительная крышки головки блока цилиндров Cylinder head cover sealing gasket 14349  80 197 О-образное уплотнительное кольцо O-shaped O-ring 14765  140 198 Цилиндр переключения диапазонов передач Gear shift cylinder gear shift 12JS160T-1707062 50 199 крышка цилиндра переключения передач управления вспомогательной КПП cylinder cover for auxiliary gearbox control F99857 30 2 50 201 прокладка крышки заднего подшипника демультипликатора шпинделя rear bearing cover gasket for spindle JS180-17 0571 6 50 202 толкатель demultiplicator pusher 615-6 4 272 пробка конусная housing cone plug Q61304 40 273 крышка подшипника первичного вала primary shaft bearing cover primary shaft JS180A-1757140-3 4 274 гайка первичного вала nut JS180A-1757136 10 275 кольцо стопорное locking ring C57120 12 276 Подшипник Bearing 155712К 8 277 втулка шестерни gear bushing 16463  8 278 кольцо стопорное locking ring 14750  8 279 вал первичный primary shaft JS180A-1757130-3 4 280 Шестерня 5-ой передачи вторичного вала The gear of the 5th gear of the secondary shaft 12JS2 12 295 Болт М10х22 Bolt M10x22 С571 20 296 Вал выходной демультипликатора Output shaft of the demultiplier 12JS2 6 306 крышка Cover 10JS160-17571 10 307 манжета крышки заднего подшипника cuff of the rear bearing cover С57132 40 308 манжета cuff F91 40 372 подшипник вторичного вала в сборе bearing secondary shaft assembly 12JS160T-17 0571 1 10 373 стальной шарик steel ball 12.7G1, A, , B7615-1571/411B/Yuchai YC6B125/YC6108 12 527 Палец рулевого цилиндра Steering cylinder pin 251405716/251757103/40*140 20 528 Палец балансира заднего моста (вилка) Rear axle balance pin (fork) 255715712/Z3.8.5/255715712/Z3.8.5/50*145 10 529 Палец вилка (рама гц ковша) Pin fork (bucket hydraulic cylinder frame) Z5G.6.21/251405710/80*240 6 530 Трубка топливная (обратка форсунок) двигателя Fuel tube (return of injectors) of the CHINAMFG engine , BA/YC6B125/YC6108/Yuchai 1 531 Шайба медная форсунки двигателя Copper washer of the engine nozzle 630-1112,, 411 1 550 Вал КПП задней передачи Reverse gear gearbox shaft LW3 1 551 Вал основной ступичный Main hub shaft 83513201/SP105819/PY180.39.02-01 1 552 Вилка фланцевая вала карданного промежуточного Flange fork of the cardan intermediate shaft Z3.4.2-01/LW3 4 560 Втулка нижняя Lower bushing ZL50E-6-2/2504C 2 601 Насос гидравлический Hydraulic pump CBT-E316/CBN-F316 1 602 Насос гидравлический Hydraulic pump CBG2040/JHP2040/W0606A 2 638 Тяга рулевая Steering rod 001500031 1 639 Механический указатель давления масла двигателя 0-1МРа Mechanical engine oil Pressure Gauge 0-1MRa 8 0571 7159/LW300 2 640 Указатель температуры воды Water temperature indicator 8 0571 7110/4130005715 2 641 Фильтр гидравлический Hydraulic filter 157110157 10 642 Фильтр гидравлическй Hydraulic filter 50G2-06571 10 643 Фильтр гидробака обратной магистрали (200*190) Return line hydraulic tank filter (200*190) 250400462/ZL50E.7.3.4/LW560F.7.1.13.2/9314932/ZL50G 10 644 КПП фильтр сетка Gear shift box filter grid ZL40A.30.4.2/4110000184138 10 645 Фильтр топливный грубой очистки Coarse fuel filter 860118458/D00-305-01 10 646 Фланец Flange 250300341/ZL50.2A.1A.3.1-2A/9352558 2 647 Фланец Flange 25260571 2 648 Фланец Flange Z5G.6-10 2 649 Фланец Flange Z5G.6-11 2 650 Фланец вала гидромуфты Hydraulic coupling shaft flange 860114582/ZL30D-11-12/LW300 2 651 Фланец вала карданного Cardan shaft flange 860118415 2 652 Фланец насоса Pump flange CBGj3125/LW300F (251705713/300F.7.2-2/9364967) 2 653 Верхний фланец поворота Upper turning flange Z3G.8-1 2 654 Фонарь задний Rear light 8 0571 6733 4 655 Червь Worm drive (worm) HX8000A-15 1 656 Шайба Puck 001215718 4 657 Шайба Puck 001210110 4 658 Шайба Puck 52060006 10 659 Шайба Puck 7560571 10 660 Шестерня Gear НХ8000А-14 1 661 Шестерня на полуось Gear on the half-axle 83000802/W4405710/W5710571/860115239 2 662 Шестерня сателлита Satellite Gear 83000801/29070012711/W57100491/860115217 2 663 Шестерня солнечная (РАЗБОРНАЯ ПОД СТОПОР) Z-67/61 шлиц  Solar gear (COLLAPSIBLE UNDER THE STOPPER) Z-67/61 slot ZL60D.24.1-19-1/ZL60D.24.1-23/ZL60D.24.1-3/LG50F.04428A-1 1 664 Солнечная шестерня Солнечная шестерня 7750571/77500940/7750571BD 1 665 Шестерня солнечная Z=49 Solar gear Z=49 SP15714/76157131 1 666 Шкворень (длинный) Pin (long) 001500571 2 667 Шпилька колеса с гайкой Wheel stud with nut 255711/2557116 100 668 Шпилька колесная с гайкой Wheel stud with nut 3382 100 669 Шпилька колесная с гайкой Wheel stud with nut 3399 100 670 Шпилька колесная с гайкой Wheel stud with nut 3700 100 671 Шпилька колесная с гайкой Wheel stud with nut 5143 100 672 Шпилька колесная с гайкой Wheel stud with nut 7936 100 673 Шпилька колесная с гайкой Wheel stud with nut 805200052/29070000621 100 674 Шпилька колесная с гайкой Wheel stud with nut 9106 100 675 Вал карданный Cardan shaft Z32571160 1 676 Вал карданный Cardan shaft Z5B366100 1 677 Вал карданный задний Rear cardan shaft Z525710030 1 678 Вал привода насоса ГМП Hydromechanical transmission pump drive shaft W571200151/W571300030B 1 679 Втулка Bushing 60*75*28/Z3B00303000 6 680 Втулка Bushing 75*66*60/Z3B00303200 6 681 Втулка Bushing 80*95*40/MG19057139 4 682 Втулка Bushing MG19026014 6                                                                                

 
 

After-sales Service: Yes
Warranty: Yes
Type: Boom Lift Hydraulic Cylinder Right
Application: Hoisting Machinery
Certification: CE, ISO9001: 2000
Condition: New

hydraulic cylinder

What role do hydraulic cylinders play in optimizing power distribution and efficiency?

Hydraulic cylinders play a significant role in optimizing power distribution and efficiency in various applications. They are widely used in industries such as construction, manufacturing, agriculture, and transportation, where efficient power transmission and precise control are essential. Here’s a detailed explanation of the role hydraulic cylinders play in optimizing power distribution and efficiency:

1. Power Transmission:

– Hydraulic cylinders serve as a means of power transmission in hydraulic systems. They convert the hydraulic fluid’s pressure and flow into linear mechanical force, allowing for controlled movement of loads. Hydraulic cylinders efficiently transmit power from an energy source, such as a hydraulic pump, to the working components of the system. The ability to transmit power over long distances with minimal energy losses makes hydraulic cylinders an efficient choice for various applications.

2. High Power Density:

– Hydraulic cylinders offer high power density, meaning they can generate significant force relative to their size. This characteristic enables compact and lightweight hydraulic systems while delivering substantial power output. Hydraulic cylinders can produce high forces even at low operating speeds, making them suitable for heavy-duty applications. The high power density of hydraulic cylinders contributes to the optimization of power distribution by maximizing the force output while minimizing the system’s overall size and weight.

3. Load Handling and Control:

– Hydraulic cylinders provide precise load handling and control capabilities, contributing to power distribution optimization. By adjusting the flow of hydraulic fluid to the cylinder, operators can control the speed, force, and direction of the cylinder’s movement. This level of control allows for accurate positioning and smooth operation of loads, reducing energy waste and improving overall system efficiency. Hydraulic cylinders enable precise load handling and control, leading to optimal power distribution and improved energy efficiency.

4. Variable Force and Speed:

– Hydraulic cylinders offer the advantage of variable force and speed control. By regulating the flow of hydraulic fluid, the force exerted by the cylinder can be adjusted as needed. This flexibility enables hydraulic systems to adapt to different load requirements, optimizing power distribution. Hydraulic cylinders can operate at varying speeds, allowing for efficient power distribution across different stages of an operation. The ability to vary force and speed according to the application’s demands enhances energy efficiency and overall system performance.

5. Energy Recovery:

– Hydraulic cylinders can contribute to energy efficiency through energy recovery mechanisms. In certain applications, hydraulic systems utilize accumulators to store and release energy. Hydraulic cylinders can store energy during deceleration or when the load is lowering, and then release it to assist in subsequent movements. This energy recovery process reduces the overall energy consumption of the system, optimizing power distribution and improving efficiency. The ability to recover and reuse energy enhances the sustainability and cost-effectiveness of hydraulic systems.

6. Integrated Control Systems:

– Hydraulic cylinders can be integrated into advanced control systems, such as servo control or proportional control systems. These systems utilize electronic feedback, sensors, and control algorithms to optimize power distribution and efficiency. By continuously monitoring and adjusting the flow of hydraulic fluid, the control systems ensure that the cylinder operates at the most efficient operating point, minimizing energy losses and maximizing power distribution. Integrated control systems enhance the overall energy efficiency of hydraulic systems and contribute to power optimization.

7. System Efficiency Improvement:

– Hydraulic cylinders, when combined with other components in a hydraulic system, contribute to overall system efficiency improvement. The integration of efficient hydraulic pumps, valves, and actuators helps minimize energy losses, pressure drops, and heat generation. By optimizing the design and configuration of the hydraulic system, including the selection of appropriate cylinder sizes, operating pressures, and control strategies, power distribution can be optimized, leading to improved energy efficiency. Proper system design and component selection are critical for achieving optimal power distribution and efficiency.

In summary, hydraulic cylinders play a crucial role in optimizing power distribution and efficiency in various applications. They enable efficient power transmission, offer high power density, provide precise load handling and control, allow for variable force and speed control, facilitate energy recovery, can be integrated into advanced control systems, and contribute to overall system efficiency improvement. By leveraging the capabilities of hydraulic cylinders, industries can achieve better power utilization, reduced energy consumption, and improved system performance.

hydraulic cylinder

Advancements in Hydraulic Cylinder Technology Improving Corrosion Resistance

Advancements in hydraulic cylinder technology have led to significant improvements in corrosion resistance. Corrosion is a major concern in hydraulic systems, especially in environments where cylinders are exposed to moisture, chemicals, or corrosive agents. These advancements aim to enhance the durability and longevity of hydraulic cylinders. Let’s explore some of the key advancements in hydraulic cylinder technology that have improved corrosion resistance:

  1. Corrosion-Resistant Materials: The use of corrosion-resistant materials is a fundamental advancement in hydraulic cylinder technology. Stainless steel, for example, offers excellent resistance to corrosion, making it a popular choice in marine, offshore, and other corrosive environments. Additionally, advancements in metallurgy have led to the development of specialized alloys and coatings that provide enhanced corrosion resistance, extending the lifespan of hydraulic cylinders.
  2. Surface Treatments and Coatings: Various surface treatments and coatings have been developed to protect hydraulic cylinders from corrosion. These treatments can include electroplating, galvanizing, powder coating, and specialized corrosion-resistant coatings. These coatings create a barrier between the cylinder surface and corrosive elements, preventing direct contact and inhibiting the onset of corrosion. The selection of appropriate coatings depends on the specific application and environmental conditions.
  3. Sealing Technology: Effective sealing systems are crucial in preventing water, moisture, and contaminants from entering the cylinder and causing corrosion. Advancements in sealing technology have led to the development of high-quality seals and advanced sealing designs that offer superior resistance to corrosion. These seals are typically made from materials specifically engineered to withstand corrosive environments, ensuring long-term sealing performance and minimizing the risk of corrosion-related issues.
  4. Improved Surface Finishes: The surface finish of hydraulic cylinders plays a role in their resistance to corrosion. Advancements in machining and polishing techniques have allowed for smoother and more uniform surface finishes. Smoother surfaces reduce the likelihood of corrosion initiation and make it easier to clean and maintain hydraulic cylinders. Additionally, specialized finishes, such as passivation or chemical treatments, can be applied to further enhance corrosion resistance.
  5. Environmental Protection Features: Hydraulic cylinders can be equipped with additional features to protect against corrosion. These features may include protective boots, bellows, or shields that guard vulnerable areas from exposure to corrosive agents. By incorporating these protective elements into the design, hydraulic cylinders can withstand harsh environments and minimize the risk of corrosion-related damage.

In summary, advancements in hydraulic cylinder technology have significantly improved corrosion resistance. The use of corrosion-resistant materials, advanced surface treatments and coatings, innovative sealing technology, improved surface finishes, and the incorporation of environmental protection features have all contributed to enhanced durability and longevity of hydraulic cylinders in corrosive environments. These advancements ensure reliable performance and reduce the maintenance and replacement costs associated with corrosion-related issues.

hydraulic cylinder

What are the common signs of wear or leakage that indicate hydraulic cylinder issues?

Hydraulic cylinders are critical components in hydraulic systems, and wear or leakage can lead to performance issues and potential system failures. It is important to be aware of the common signs that indicate hydraulic cylinder problems. Here’s a detailed explanation of the common signs of wear or leakage that indicate hydraulic cylinder issues:

1. Fluid Leakage:

– Fluid leakage is one of the most obvious signs of hydraulic cylinder problems. If you notice hydraulic fluid leaking from the cylinder, it indicates a seal failure or damage to the cylinder. Leaking fluid may be visible around the rod, piston, or cylinder body. It is important to address fluid leakage promptly as it can lead to a loss of system efficiency, contamination of the surrounding environment, and potential damage to other system components.

2. Reduced Performance:

– Wear or internal damage to the hydraulic cylinder can result in reduced performance. You may notice a decrease in the cylinder’s force output, slower operation, or difficulty in extending or retracting the cylinder. Reduced performance can be indicative of worn seals, damaged piston or rod, internal leakage, or contamination within the cylinder. Any noticeable decrease in the cylinder’s performance should be inspected and addressed to prevent further damage or system inefficiencies.

3. Abnormal Noise or Vibrations:

– Unusual noise or vibrations during the operation of a hydraulic cylinder can indicate internal wear or damage. Excessive noise, knocking sounds, or vibrations that are not typical for the system may suggest problems such as worn bearings, misalignment, or loose internal components. These signs should be investigated to identify the source of the issue and take appropriate corrective measures.

4. Excessive Heat:

– Overheating of the hydraulic cylinder is another sign of potential issues. If the cylinder feels excessively hot to the touch during normal operation, it may indicate problems such as internal leakage, fluid contamination, or inadequate lubrication. Excessive heat can lead to accelerated wear, reduced efficiency, and overall system malfunctions. Monitoring the temperature of the hydraulic cylinder is important to detect and address potential problems.

5. External Damage:

– Physical damage to the hydraulic cylinder, such as dents, scratches, or bent rods, can contribute to wear and leakage issues. External damage can compromise the integrity of the cylinder, leading to fluid leakage, misalignment, or inefficient operation. Regular inspection of the cylinder’s external condition is essential to identify any visible signs of damage and take appropriate actions.

6. Seal Failure:

– Hydraulic cylinder seals are critical components that prevent fluid leakage and maintain system integrity. Signs of seal failure include fluid leakage, reduced performance, and increased friction during cylinder operation. Damaged or worn seals should be replaced promptly to prevent further deterioration of the cylinder’s performance and potential damage to other system components.

7. Contamination:

– Contamination within the hydraulic cylinder can cause wear, damage to seals, and overall system inefficiencies. Signs of contamination include the presence of foreign particles, debris, or sludge in the hydraulic fluid or visible damage to seals and other internal components. Regular fluid analysis and maintenance practices should be implemented to prevent contamination and address any signs of contamination promptly.

8. Irregular Seal Wear:

– Hydraulic cylinder seals can wear over time due to friction, pressure, and operating conditions. Irregular seal wear patterns, such as uneven wear or excessive wear in specific areas, may indicate misalignment or improper installation. Monitoring the condition of the seals during regular maintenance can help identify potential issues and prevent premature seal failure.

It is important to address these common signs of wear or leakage promptly to prevent further damage, ensure the optimal performance of hydraulic cylinders, and maintain the overall efficiency and reliability of the hydraulic system. Regular inspection, maintenance, and timely repairs or replacements of damaged components are key to mitigating hydraulic cylinder issues and maximizing system longevity.
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editor by CX 2023-11-01