Product Description
****OUR FACTORY
***we are a factory in HangZhou city,ZheJiang province,China
specialized in manufacturing hydraulic breaker ,quick hitch ,ripper ,etc for excavator attachment .
OUR FACTORY | IN HangZhou CITY,ZheJiang PROVINCE ,CHINA |
OUR PRODUCT | SPECAILIZED IN MANUFACTURE HYDRAULIC HAMMER |
MOQ | 1 SET |
OEM | YES.BECAUSE WE ARE A FACTORY |
COLOR | ANY COLOR COULD DO FOR YOU |
PAYMENT | 30% DEPOSIT ,BALANCE BEFORE SHIPPING ,T/T OR L/C |
DELIVERY DATE | 1-50 SET 1-25DAYS. |
SHIPPING | BY SEA O BY AIR |
* HangZhou Factory Direct Price
* Small order is welcome, MOQ 1 set
* Nice quality, 1 year warranty
* Chisel diameter from 35-210mm
* Breaker suit any brand 0.5-70 ton excavator
* Fit to machine as below:
YTCT HYDRAULIC BREAKER HAMMER:
MODE NUMBER | CHISEL DIAMETER | SUIT EXCAVATOR (WEIGHT) | BRAND OF EXCAVATOR | HYDRAULIC OIL FLOW | HYDRAULIC PRESSURE | BLOW FREQUENCY | MAIN BODY WEIGHT | HOSE DIAMETER | ACCUMALATOR PRESSURE |
YTCT | MM | TON | L/MIN | KG/CM2 | BMP | KG | INCH | KG/CM2 | |
YTCT | 35 | 0.5-0.8 | ANY BRAND | 10–20 | 90-120 | 800-1400 | 40 | 1/2 | / |
YTCT10 | 40 | 0.8-2.5 | 15-25 | 90-120 | 800-1400 | 53 | 1/2 | / | |
YTCT20 | 45 | 1.2-3.0 | 20-30 | 90-120 | 700-1200 | 71 | 1/2 | / | |
YTCT30 | 53 | 2.5-4.5 | 25-50 | 90-120 | 600-1100 | 89 | 1/2 | / | |
YTCT40 | 68 | 4–7 | 40-70 | 110-140 | 500-900 | 156 | 1/2 | / | |
YTCT43 | 75 | 6–9 | 50-90 | 120-150 | 400-800 | 214 | 1/2 | / | |
YTCT45 | 85 | 7–14 | 60-100 | 130-160 | 400-800 | 282 | 1/2 | / | |
YTCT50 | 100 | 10–15 | 80-110 | 150-170 | 350-700 | 479 | 3/4 | / | |
YTCT70 | 135 | 16-25 | 130-150 | 160-180 | 400-800 | 850 | 1 | / | |
YTCT81 | 140 | 18-26 | 120-180 | 160-180 | 350-500 | 920 | 1 | / | |
YTCT81A | 140 | 18-26 | 120-180 | 160-180 | 350-500 | 956 | 1 | 60 | |
YTCT100 | 150 | 27-35 | 150-190 | 160-180 | 350-700 | 2218 | 1 | 60 | |
YTCT121 | 155 | 28-35 | 180-240 | 160-180 | 300-450 | 2577 | 1 | 60 | |
YTCT131 | 165 | 30-40 | 200-260 | 160-180 | 250-400 | 1442 | 1 | 60 | |
YTCT140 | 165 | 30-40 | 200-270 | 160-180 | 250-380 | 1590 | 1 | 60 | |
YTCT151 | 175 | 35-40 | 210-290 | 160-180 | 200-350 | 1925 | 5/4 | 60 | |
YTCT151L | 175 | 35-45 | 220-270 | 200-240 | 200-300 | 1933 | 5/4 | 60 | |
YTCT185 | 185 | 40-55 | 220-270 | 180-220 | 250-320 | 2295 | 5/4 | 60 | |
YTCT190 | 190 | 45-60 | 220-290 | 180-220 | 180-200 | 2526 | 5/4 | 60 | |
YTCT195 | 195 | 45-60 | 220-290 | 180-220 | 180-200 | 2600 | 5/4 | 60 |
ALL THE PRICE WITH SPARE PARTS AS BELOW:
1.all the price with wooden box pacakage .
2.all the price with the standard spare parts.
** —–2 chisels
** —–2 oil tube
** —–1 N2 gas bottle.
** —–1 tool box
** —–1 N2 pressure gauge
2.all the price with the standard spare parts.
** —–2 chisels
** —–2 oil tube
** —–1 N2 gas bottle.
** —–1 tool box
** —–1 N2 pressure gauge
PACKING AND SHIPPING
1.Inner is stretch film, outside is export plywood case or as customer’s request
2.Delivery time:Usually 3-7days (1-5sets) after down payment.
3..We can arrange CHINAMFG or air transportation according to your request from any port of China.
HOW TO CHOOSE OUR BREAKER ?
1. PLEASE LET US KNOW YOUR EXCAVATOR MODEL NUMBER OR WEIGHT OF MACHINE.
2.PLEASE LET US KNOW WHAT COLOR DO YOU NEED FOR BREAKER .
3.PLEASE CHECK THE ABCDE SIZE FOR US ,ARM EAR WIDTH ,PIN DIAMETER AND PIN CENTER TO PIN CENTER SIZE .
4.CHOOSE WHAT TYPE OF HYDRAULIC BREAKRE DO YOU NEED ,THANKS.
NEED FREE CATALOG OR MORE PRICE,SEND ME INQUIRY AS BELOW.
MISS EVA WILL REPLY SOON,THANKS.
Type: | Hydraulic Breaker |
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Application: | Excavator |
Certification: | CE |
Condition: | New |
Body Weight Incl.Chisel: | 71kg |
Total Weight: | 95kg |
Customization: |
Available
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Can hydraulic cylinders be integrated with advanced control systems and automation?
Yes, hydraulic cylinders can be integrated with advanced control systems and automation technologies to enhance their functionality, precision, and overall performance. The integration of hydraulic cylinders with advanced control systems allows for more sophisticated and precise control over their operation, enabling automation and intelligent control. Here’s a detailed explanation of how hydraulic cylinders can be integrated with advanced control systems and automation:
1. Electronic Control:
– Hydraulic cylinders can be equipped with electronic sensors and transducers to provide real-time feedback on their position, force, pressure, or velocity. These sensors can be integrated with advanced control systems, such as programmable logic controllers (PLCs) or distributed control systems (DCS), to monitor and control the operation of hydraulic cylinders. By integrating electronic control, the position, speed, and force of hydraulic cylinders can be precisely monitored and adjusted, allowing for more accurate and automated control.
2. Closed-Loop Control:
– Closed-loop control systems use feedback from sensors to continuously monitor and adjust the operation of hydraulic cylinders. By integrating hydraulic cylinders with closed-loop control systems, precise control over position, velocity, and force can be achieved. Closed-loop control enables the system to automatically compensate for variations, external disturbances, or changes in operating conditions, ensuring accurate and consistent performance. This integration is particularly beneficial in applications that require precise positioning, synchronization, or force control.
3. Proportional and Servo Control:
– Hydraulic cylinders can be integrated with proportional and servo control systems to achieve finer control over their operation. Proportional control systems use proportional valves to regulate the flow and pressure of hydraulic fluid, allowing for precise adjustment of cylinder speed and force. Servo control systems, on the other hand, combine feedback sensors, high-performance valves, and advanced control algorithms to achieve extremely precise control over hydraulic cylinders. Proportional and servo control integration enhances the responsiveness, accuracy, and dynamic performance of hydraulic cylinders.
4. Human-Machine Interface (HMI):
– Hydraulic cylinders integrated with advanced control systems can be operated and monitored through human-machine interface (HMI) devices. HMIs provide a graphical user interface that allows operators to interact with the control system, monitor cylinder performance, and adjust parameters. HMIs enable operators to set desired positions, forces, or velocities, and visualize the real-time feedback from sensors. This integration simplifies the operation and monitoring of hydraulic cylinders, making them more user-friendly and facilitating seamless integration into automated systems.
5. Communication and Networking:
– Hydraulic cylinders can be integrated into communication and networking systems, enabling them to be part of a larger automated system. Integration with industrial communication protocols, such as Ethernet/IP, Profibus, or Modbus, allows for seamless information exchange between the hydraulic cylinders and other system components. This integration enables centralized control, data logging, remote monitoring, and coordination with other automated processes. Communication and networking integration enhance the overall efficiency, coordination, and integration of hydraulic cylinders within complex automation systems.
6. Automation and Sequential Control:
– By integrating hydraulic cylinders with advanced control systems, they can be seamlessly incorporated into automated processes and sequential control operations. The control system can execute predefined sequences or programmed logic to control the operation of hydraulic cylinders based on specific conditions, inputs, or timing. This integration enables the automation of complex tasks, such as material handling, assembly operations, or repetitive motions. Hydraulic cylinders can be synchronized with other actuators, sensors, or devices, allowing for coordinated and automated operation in various industrial applications.
7. Predictive Maintenance and Condition Monitoring:
– Advanced control systems can also enable predictive maintenance and condition monitoring for hydraulic cylinders. By integrating sensors and monitoring capabilities, the control system can continuously monitor the performance, health, and condition of hydraulic cylinders. This integration allows for the detection of abnormalities, wear, or potential failures in real-time. Predictive maintenance strategies can be implemented based on the collected data, optimizing maintenance schedules, reducing downtime, and enhancing the overall reliability of hydraulic systems.
In summary, hydraulic cylinders can be integrated with advanced control systems and automation technologies to enhance their functionality, precision, and performance. The integration allows for electronic control, closed-loop control, proportional and servo control, human-machine interface (HMI) interaction, communication and networking, automation and sequential control, as well as predictive maintenance and condition monitoring. These integrations enable more precise control, automation, improved efficiency, and optimized performance of hydraulic cylinders in various industrial applications.
Ensuring Consistent Force Output for Repetitive Tasks with Hydraulic Cylinders
Hydraulic cylinders are designed to ensure consistent force output for repetitive tasks. This consistency is essential for maintaining precise control, achieving uniform results, and optimizing the performance of hydraulic systems. Let’s explore how hydraulic cylinders achieve consistent force output for repetitive tasks:
- Design and Manufacturing Standards: Hydraulic cylinders are manufactured to meet strict design and manufacturing standards. These standards ensure that the cylinders are built with precision and accuracy, enabling them to deliver consistent force output. The components, such as the piston, cylinder barrel, seals, and valves, are engineered to work together harmoniously, minimizing variations in force generation.
- Pressure Regulation: Hydraulic systems incorporate pressure regulation mechanisms to maintain a constant pressure level. Pressure relief valves, pressure regulators, and pressure-compensated pumps help maintain a consistent hydraulic pressure throughout the system. By regulating the pressure, hydraulic cylinders receive a consistent supply of pressurized fluid, resulting in consistent force output for repetitive tasks.
- Flow Control: Flow control valves are utilized in hydraulic systems to manage the flow rate of hydraulic fluid. These valves regulate the speed at which the fluid enters and exits the hydraulic cylinder, influencing the force output. By controlling the flow rate, hydraulic cylinders can achieve consistent force output for repetitive tasks. This is particularly important when it comes to tasks that require precise and uniform force application.
- Effective Seal Performance: Sealing systems play a crucial role in hydraulic cylinders by preventing fluid leakage and maintaining pressure integrity. High-quality seals and proper installation ensure effective sealing throughout the cylinder’s operation. By minimizing internal leakage, hydraulic cylinders can maintain consistent force output, even during repetitive tasks.
- Maintenance and Inspection: Regular maintenance and inspection of hydraulic cylinders are essential for ensuring consistent force output. By following maintenance schedules, replacing worn-out components, and monitoring cylinder performance, any potential issues that could affect force consistency can be identified and addressed promptly. This proactive approach helps maintain the reliability and performance of hydraulic cylinders over time.
In summary, hydraulic cylinders employ various mechanisms to ensure consistent force output for repetitive tasks. Adherence to design and manufacturing standards, pressure regulation, flow control, effective seal performance, and regular maintenance all contribute to achieving consistent force output. By maintaining precision, minimizing variations, and addressing potential issues, hydraulic cylinders provide reliable and consistent force generation, facilitating the successful completion of repetitive tasks in various applications.
How do hydraulic cylinders accommodate variations in stroke length and force requirements?
Hydraulic cylinders are designed to accommodate variations in stroke length and force requirements, providing flexibility and adaptability for different applications. They can be tailored to meet specific needs by considering factors such as piston diameter, rod diameter, hydraulic pressure, and cylinder design. Here’s a detailed explanation of how hydraulic cylinders accommodate variations in stroke length and force requirements:
1. Cylinder Size and Design:
– Hydraulic cylinders come in various sizes and designs to accommodate different stroke lengths and force requirements. The cylinder’s diameter, piston area, and rod diameter are key factors that determine the force output. Larger cylinder diameters and piston areas can generate greater force, while smaller diameters are suitable for applications requiring lower force. By selecting the appropriate cylinder size and design, stroke lengths and force requirements can be effectively accommodated.
2. Piston and Rod Configurations:
– Hydraulic cylinders can be designed with different piston and rod configurations to accommodate variations in stroke length. Single-acting cylinders have a single piston and can provide a stroke in one direction. Double-acting cylinders have a piston on both sides, allowing for strokes in both directions. Telescopic cylinders consist of multiple stages that can extend and retract, providing a longer stroke length compared to standard cylinders. By selecting the appropriate piston and rod configuration, the desired stroke length can be achieved.
3. Hydraulic Pressure and Flow:
– The hydraulic pressure and flow rate supplied to the cylinder play a crucial role in accommodating variations in force requirements. Increasing the hydraulic pressure increases the force output of the cylinder, enabling it to handle higher force requirements. By adjusting the pressure and flow rate through hydraulic valves and pumps, the force output can be controlled and matched to the specific requirements of the application.
4. Customization and Tailoring:
– Hydraulic cylinders can be customized and tailored to meet specific stroke length and force requirements. Manufacturers offer a wide range of cylinder sizes, stroke lengths, and force capacities to choose from. Additionally, custom-designed cylinders can be manufactured to suit unique applications with specific stroke length and force demands. By working closely with hydraulic cylinder manufacturers, it is possible to obtain cylinders that precisely match the required stroke length and force requirements.
5. Multiple Cylinders and Synchronization:
– In applications that require high force or longer stroke lengths, multiple hydraulic cylinders can be used in combination. By synchronizing the movement of multiple cylinders through the hydraulic system, the stroke length and force output can be effectively increased. Synchronization can be achieved using mechanical linkages, electronic controls, or hydraulic circuitry, ensuring coordinated movement and force distribution across the cylinders.
6. Load-Sensing and Pressure Control:
– Hydraulic systems can incorporate load-sensing and pressure control mechanisms to accommodate variations in force requirements. Load-sensing systems monitor the load demand and adjust the hydraulic pressure accordingly, ensuring that the cylinder delivers the required force without exerting excessive force. Pressure control valves regulate the pressure within the hydraulic system, allowing for precise control and adjustment of the force output based on the application’s needs.
7. Safety Considerations:
– When accommodating variations in stroke length and force requirements, it is essential to consider safety factors. Hydraulic cylinders should be selected and designed with an appropriate safety margin to handle unexpected loads or variations in operating conditions. Safety mechanisms such as overload protection valves and pressure relief valves can be incorporated to prevent damage or failure in situations where the force limits are exceeded.
By considering factors such as cylinder size and design, piston and rod configurations, hydraulic pressure and flow, customization options, synchronization, load-sensing, pressure control, and safety considerations, hydraulic cylinders can effectively accommodate variations in stroke length and force requirements. This flexibility allows hydraulic cylinders to be tailored to meet the specific demands of a wide range of applications, ensuring optimal performance and efficiency.
editor by CX 2023-10-30