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Guangdong HEIDLER Technology Co.Ltd. was founded in 2009, a high tech enterprise, focusing on the design and manufacture of fuel solenoid valve for common rail system, construction machinery electro-hydraulic control valve, transmission electro-hydraulic control valve, clutch control valve.   HEIDLER's hemit brand mainly manufactures hydraulic proportional solenoid valves. With 9 series of more than 560 products, 68 utility model patents, the products are widely applied in automotive common rail system, and various mobile machinery hydraulic control systems like construction, military, engineering, marine, port, agriculture etc. The advantage of excellent cars performance, high tech and great safety, widely recognize by the industries and customers make hemit products the best choice in your hydraulic system solutions.   With an outstanding R&D team, precision lab equipment, hemit is constantly committed to updating technology and new product development, focusing on improving product quality and stability, meeting customers and market demands, and certified with IATF16949 and ISO9001.   Well-established lab equipment provides a guarantee for product quality, reliability and consistency, like high-temperature high-pressure endurance test, thermal shock test, aging test, salt spray test, vibration test, etc.   Hemit has built a number of precision processing production lines to meet customers’ requirement for new development products, like dust-free constant temperature winding workshops, automatic cleaning lines, automatic laser welding production lines, dust-free assembly lines, and special test lines in different fields. Make products with ingenuity, impresses customers with quality, and strives for products excellence.   Products are strictly inspected before ex works to ensure 100% qualified, meeting international quality standards.   Hemit has been praised and recognized by partners at home and abroad, mainly from Europe, America, Southeast Asia, etc, the company has delivered a large number of high quality products to hydraulic system makers and diesel common rail system (OEM) makers worldwide.   Go abroad, embrace the world, and reach a win-win!  

Overview IShino is proud to introduce the new high-performance Multi-Function Valve (OE Number: 0631305857). Designed to meet the demands of modern vehicles for reliability and efficient performance, this product is compatible with a wide range of vehicle models, offering a leading-edge solution in the industry. Product Highlights  Precision Engineering: Manufactured using advanced technologies and premium materials to ensure durability and long-term reliability.  Multi-Functional Design: Optimized for fluid control and management under diverse operating conditions, enhancing vehicle efficiency.   Perfect Fit: Built to meet OE standards for seamless replacement of original parts, ensuring hassle-free installation.   High Compatibility：Suitable for a broad range of vehicle brands and models, meeting extensive market demands.Application Scenarios   Application Scenarios The Multi-Function Valve (OE Number: 0631305857) is widely applicable in cooling systems, braking systems, and other fluid control scenarios for both passenger and commercial vehicles. Whether in everyday driving or extreme conditions, it delivers consistent performance and ensures vehicle efficiency.The Multi-Function Valve (OE Number: 0631305857), with its superior performance, is widely used in John Deere; sugercane harvesters, making it an indispensable part of the supply chain.   Contact Us   For more information about the Multi-Function Valve (OE Number: 0631305857) or other products, please contact us through:   Phone: 86-750-2880213   Email: export1@ishino.cn   Website:http://www.ishinocn.com/    Ishino looks forward to partnering with you for a brighter future!  

 Overview In recent years, the global automotive industry has seen steady growth, particularly in the automotive parts sector, where technological advancements continue to enhance market competitiveness. As one of the most prominent products in this field, 28644102 Pressure Control Valve has become a focal point due to its exceptional performance and reliability.       28644102 Pressure Control Valve is a high-performance component specifically designed for AUDI, SEAT, SKODA. Its key features include:   High Durability: Manufactured using advanced materials to ensure extended service life.   Outstanding Performance: Optimized design guarantees efficient and stable operation under various working conditions.   Eco-Friendly and Energy Efficient: Compliant with the latest environmental regulations, reducing energy consumption and emissions.     Market Applications and Demand According to industry data, 28644102 Pressure Control Valve, with its superior performance, is widely used in AUDI, SEAT, SKODA, making it an indispensable part of the supply chain.     Technological Advancements and Future Trends As automotive technology continues to evolve towards intelligence and electrification, 28644102 Pressure Control Valve is also undergoing upgrades to meet higher efficiency and energy-saving requirements. In the future, the product is expected to feature further design optimizations, enabling broader integration with intelligent systems and expanding its range of applications.     Industry Perspectives Industry experts have noted that the launch of 28644102 Pressure Control Valve not only addresses consumer demand for high-performance automotive components but also raises industry standards. This technological breakthrough injects new momentum into the rapid growth of the global market.

Hydraulic systems and solenoid valves in tunnel boring machines (TBM)   Overview   Tunnel boring machines (TBMs) are an important technology in modern civil engineering, capable of efficiently and safely digging tunnels for a variety of uses, including transportation and utilities. At the heart of a TBM's operation are the hydraulic system and solenoid valves that provide the necessary power, control and precision for the machine's various functions. This article explores the components, applications, and advantages of hydraulic systems and solenoid valves in TBMs, as well as their future trends.   This image shows a tunnel boring machine using SUN’s cartridge valve.   1. Introduction   The advent of TBMs has revolutionized the way underground tunnels are constructed, making digging faster and safer than traditional methods. These machines operate in challenging environments requiring robust systems capable of delivering high power and precise control. Hydraulic systems (enhanced by solenoid valves) play a key role in achieving the performance required for efficient tunnel construction.   2. Hydraulic system of shield machine   The hydraulic system is critical in driving the various movements and functions of the TBM. Hydraulic systems operate according to Pascal's law, which states that pressure exerted on a closed fluid is transmitted evenly throughout the fluid. 2.1 Composition of hydraulic system   The main components of the hydraulic system used by TBM include: Hydraulic Pumps: These devices convert the mechanical energy of an electric motor into hydraulic energy, producing the high-pressure fluid required to operate a hydraulic cylinder. Depending on the required flow and pressure specifications, different types of pumps are used, such as gear pumps and piston pumps. Hydraulic Cylinder: A hydraulic cylinder is responsible for converting hydraulic pressure into mechanical motion. They provide the linear motion required for a variety of operations, including advancing the cutter head, advancing the TBM, and adjusting the machine's position. Hydraulic Oil Tank: The oil tank stores hydraulic oil and allows thermal expansion. It also filters out contaminants and ensures smooth operation of the system. Hydraulic lines and fittings: They carry hydraulic fluid between components and connect pumps, cylinders, valves and other components. Proper sizing and routing are critical to maintaining efficiency and minimizing friction losses. 2.2 Operation of hydraulic system   The operation of a TBM hydraulic system involves several steps: A hydraulic pump draws fluid from a reservoir and pressurizes it. Pressurized fluid is delivered through hydraulic lines to cylinders or valves, depending on the desired operation. Hydraulic cylinders then convert hydraulic energy into mechanical motion, allowing the TBM to perform tasks such as digging, steering and stabilization.   3. Solenoid valves in tunnel boring machines   A solenoid valve is an electromechanical device that controls the flow and direction of hydraulic oil in a system. They are an integral part of the hydraulic operation of tunnel boring machines. 3.1 Function of solenoid valve   The working principle of the solenoid valve is the electromagnetic principle. When an electric current passes through a coil in a valve, it creates a magnetic field that moves the plunger or armature, opening or closing the valve. This action regulates the flow of hydraulic oil. Solenoid valve type: Two-way valves: These valves control flow to a single actuator, allowing it to open or close. Three-way valves: These valves can control flow to two different actuators, directing fluid to one or the other, thereby facilitating movement in multiple directions. Proportional valves: These valves provide variable control of fluid flow, allowing precise control of the speed and position of hydraulic actuators. 3.2 Application of solenoid valve   In tunnel boring machines, solenoid valves are used for: Thrust control: Adjusts the thrust exerted by the hydraulic cylinder to propel the machine. Cutter Head Operation: Controls the position and movement of the cutter head for efficient digging. Steering mechanism: directs hydraulic flow to adjust the trajectory of the machine during tunneling. Safety features: Implement emergency shutdown procedures by quickly cutting off the hydraulic oil supply to prevent accidents.   4. Advantages of hydraulic system and solenoid valve   The integration of hydraulic systems and solenoid valves in tunnel boring machines offers many advantages: 4.1 High power to weight ratio   Hydraulic systems can generate huge amounts of force while maintaining compact dimensions, which is crucial in the tight spaces of tunnel construction. This capability enables the TBM to perform heavy-duty missions without adding weight. 4.2 Precision control   Hydraulic movement can be precisely controlled using solenoid valves. This precision is critical to maintaining the alignment of the TBM and ensuring optimal cutting performance, thereby increasing the overall efficiency of the tunneling process. 4.3 Enhanced security   Hydraulic systems are designed with safety features including pressure relief valves and emergency shutdown systems. These features minimize the risk of accidents and ensure safe operation in challenging environments. 4.4 Flexibility and adaptability   The hydraulic system can be easily adjusted to suit different tunnel construction conditions and requirements. The ability to adjust flow and pressure enables tunnel boring machines to adapt to different geological challenges.   5.Future trends   In the future, the development of shield machine hydraulic systems and solenoid valves is expected to focus on the following key areas: 5.1 Integration with automation and IoT   The integration of Internet of Things (IoT) technology into hydraulic systems will enable real-time monitoring and remote control. This development will increase operational efficiency and reduce downtime through predictive maintenance. 5.2 Advanced Materials and Fluids   Research into new materials for hydraulic components and environmentally friendly hydraulic fluids will increase system durability and reduce environmental impact. Innovations in fluid technology may improve performance and reduce maintenance needs. 5.3 Improve energy efficiency   As sustainability becomes increasingly important, there will be a focus on designing energy-efficient hydraulic systems to minimize power consumption while maintaining performance. This transition may include the development of variable displacement pumps and energy recovery systems.

How rail pressure sensors drive an efficient and environmentally friendly future   Driven by the dual drive of global energy efficiency and emission control, the demand for precise fuel control of diesel engines is more urgent than ever. As one of the core components of the diesel common rail system, the Rail Pressure Sensor plays an indispensable role in optimizing combustion efficiency, improving power response, and reducing exhaust emissions. The following will give you an in-depth understanding of the rail pressure sensor’s technological breakthroughs, application advantages and the key role it plays in green diesel technology.   Rail pressure sensor: the cornerstone of precise diesel power control The rail pressure sensor is designed to monitor the fuel pressure in the common rail in real time and accurately transmit the data to the engine control unit (ECU) to achieve dynamic control of the fuel injection amount. With this closed-loop control mechanism, the rail pressure sensor can ensure that the diesel engine is in an optimal combustion state under different working conditions, which not only improves fuel efficiency, but also significantly reduces harmful gas emissions and meets increasingly stringent environmental regulations.   Frontier of Science and Technology: Working Principle and Technical Advantages of Rail Pressure Sensors Rail pressure sensors convert physical changes in fuel pressure in the rail into electrical signals using piezoresistive or piezoelectric technology. High accuracy and fast response are the core advantages of the rail pressure sensor. It can capture extremely subtle pressure changes and ensure the stability and consistency of fuel injection. In addition, the built-in fault diagnosis function of the rail pressure sensor can monitor abnormal pressure fluctuations and provide more comprehensive safety protection for the diesel system.   Technical characteristics of modern rail pressure sensors include: Fast response and high accuracy: Provides continuous and stable fuel pressure feedback under different load and speed conditions, ensuring that the engine's power output is always efficient and smooth. Improve fuel utilization: Precise fuel adjustment can avoid unnecessary fuel loss and help the engine achieve higher combustion efficiency.   Self-diagnosis capability: When the sensor detects abnormal rail pressure, it can issue an early warning to the system in real time, thereby enabling earlier fault identification and maintenance.   Wide range of applications: How rail pressure sensors are changing industry standards The wide application of rail pressure sensors has gradually changed the operating standards of the diesel industry. From commercial vehicles to heavy industrial equipment to diesel generator sets, rail pressure sensors have become a key component of diesel power systems due to their high efficiency, accuracy and durability. For example: Commercial transportation: In heavy-duty trucks and transport vehicles, rail pressure sensors can help engines optimize fuel consumption and reduce exhaust emissions during long-distance driving, improving operating efficiency. Industrial machinery: Rail pressure sensors ensure that excavators, road rollers and other equipment maintain stable fuel supply in high-load working environments, effectively reducing fuel costs and maintenance frequency. Generator set: By accurately controlling rail pressure, the rail pressure sensor helps the diesel generator set to provide stable power output, which is suitable for complex industrial and commercial environments.   Future Outlook: Blueprint for an Intelligent and Eco-Friendly Diesel System The intelligence and integration of diesel engine technology will continue to push the development frontier of rail pressure sensors. Future rail pressure sensors will be deeply integrated with Internet of Things (IoT) and artificial intelligence (AI) technologies to perform real-time monitoring and remote control through data analysis, further optimizing fuel injection parameters to improve combustion efficiency. At the same time, with the continuous innovation of sensor materials and structures, rail pressure sensors will show stronger durability in more extreme high-pressure and high-temperature environments. In the process of making the diesel system more efficient and environmentally friendly, the rail pressure sensor is not only one of the core driving forces for the advancement of engine technology, but also a key bridge between intelligent diesel systems and a green future. Our company is committed to developing high-precision, high-response rail pressure sensors to meet diversified market needs and support customers to maintain competitive advantages in technological innovation.  

How our products cope with the latest European emission standards   As global emissions regulations tighten, especially in Europe, automakers face unprecedented emissions reduction challenges. The EU's emission standards, from the initial Euro 1 to the upcoming Euro 7, have gradually and strictly restricted the emissions of pollutants such as nitrogen oxides (NOx), carbon monoxide (CO) and particulate matter (PM). This series of regulations puts forward strict requirements for traditional fuel systems, and also prompts major automobile manufacturers to pay more attention to the new generation of fuel control technology. The fuel common rail series solenoid valves launched by our company, including fuel metering valves, fuel pressure sensors (DRV valves) and rail pressure sensors, are important innovative products to meet this demand. They help the engine system achieve high efficiency and low emissions. , helping manufacturers meet the latest requirements of European standards.   Gradual upgrade of European emission standards: from Euro 4 to Euro 7 Since the Euro 4 standards came into effect in 2006, EU emission regulations have continued to increase emission limits for gasoline and diesel engines. The Euro 6 standard has extremely strict requirements on nitrogen oxide and particulate matter emissions, limiting diesel engine NOx emissions to as low as 0.08 g/km and particulate matter emissions as low as 0.005 g/km. The Euro 7 standards that will be implemented in 2025 will be more stringent in emission control: CO emissions: CO emissions from gasoline and diesel vehicles are required to be less than 0.5 g/km. NOx emissions: NOx emissions from diesel vehicles will be further reduced to 0.03 g/km. Particulate matter: Particulate matter emission requirements will approach zero, and stricter limits will be imposed on the particle size and quantity of particulate matter.   Such strict standards require the fuel system to control fuel injection with extremely high precision, which poses new performance challenges to the common rail system. Against this background, our company's series of fuel common rail products - fuel metering valves, fuel pressure sensors (DRV valves) and rail pressure sensors - have become important in the industry with their high precision, high reliability and durability. solution. How our products meet the challenges of European standards Our company focuses on the research and development of fuel common rail solenoid valve products. Through precise fuel pressure and flow control, we ensure that the engine achieves optimal combustion efficiency under various working conditions, thereby effectively reducing emissions. The following are the characteristics of our main products and their advantages in reducing emissions:   Fuel Metering Valve: The fuel metering valve precisely regulates the amount of fuel injected to ensure combustion efficiency. This is especially important under the high precision required by Euro 7 standards. It allows fuel injection to be completed with millisecond accuracy, effectively reducing incomplete combustion and unnecessary pollutant generation.   Fuel pressure sensor (DRV valve): Euro 7 regulations require low emissions under various driving conditions such as cold starts, high and low speeds. Our DRV valve can monitor and adjust fuel pressure in real time to maintain optimal injection volume under different working conditions, achieve efficient combustion, and reduce excess NOx and particulate matter emissions.   Rail pressure sensor: By accurately measuring fuel pressure and providing real-time feedback, the rail pressure sensor provides accurate data support for the engine control system, allowing the common rail system to achieve ideal fuel injection in a variety of driving modes. This real-time performance and high accuracy can help the engine meet the dynamic emission control requirements of Euro 7.   Long-term impact of Euro 7 standards on fuel systems The implementation of Euro 7 standards is not only an upgrade to emission requirements, it also means that vehicles must maintain extremely low emissions throughout their life cycle. In order to meet this requirement, automobile manufacturers need to choose efficient and durable common rail systems to provide continuous and stable emission reduction effects in harsh operating environments. Our company's solenoid valve products are designed for this purpose and have excellent durability and stability under high frequency and high pressure. They can not only meet the requirements of new regulations, but also reduce maintenance costs and provide manufacturers with long-term reliable solutions.   Future Outlook: Facilitating the green transformation of the automotive industry The global automotive industry is at the crossroads of green transformation. With the rapid development of electric vehicles and hybrid vehicles, the optimization of traditional fuel engines remains an important part of market demand. Our fuel common rail solenoid valve series not only provides innovative support for energy saving and emission reduction of fuel engines, but also provides efficient fuel injection solutions for future hybrid systems. Under the continuous promotion of European standard emission regulations, our fuel common rail series solenoid valves will continue to help automobile manufacturers improve fuel economy and achieve the perfect balance of low emissions and high performance, making them competitive in the global market.  

What is a suction control valve (SCV)   What is a suction control valve The oil suction control valve (inlet metering valve) is one of the most important components in the diesel engine fuel supply system and the most important part of the throat. It controls the amount of oil entering the rail to meet the pressure setting requirements of the common rail system, and forms a closed-loop control of rail pressure together with the rail pressure sensor. It is an electromechanical component, and problems with the circuit or mechanical components will cause it to work abnormally. Due to fuel quality issues, it is common for the SCV valve to become stuck or clogged, directly causing the diesel engine to not work properly. To understand how a suction control valve (SCV) works, let’s first look at the following points. What is common rail The common rail is a double rail, a high-pressure rail and a low-voltage rail. After the diesel comes out of the fuel tank, it passes through the diesel filter element and enters the high-pressure oil pump. The high-pressure oil pump comes out with two rails, namely the red high-pressure rail and the yellow low-pressure rail. In the high-pressure rail, the diesel fuel from the high-pressure oil pump enters the high-pressure common rail pipe, and then enters the injector. It is sprayed out from the injector into the combustion chamber of the piston cylinder liner, mixes with the air in the combustion chamber, and is discharged through the exhaust pipe. The low pressure rail is where the diesel fuel exits the high pressure fuel pump and joins the excess diesel from the injectors before returning to the tank.   However, all fuel flow in the diesel engine oil circuit is detected by sensors, and the pressure signal is converted into an electrical signal and then input to the computer. The computer performs logical operations and then outputs it to control the actuator to complete the above actions. The suction control valve (fuel metering valve), referred to as IMV, EFC/MEUN, SCV, PCV, etc., is a mechatronic solenoid valve component, generally installed on the high-pressure fuel pump, controlled by the engine ECU, and measured by the rail pressure sensor Perform closed-loop control; the plug has two wires, which are the power supply voltage and the signal voltage. The engine control computer It is controlled by PCM, so the suction control valve is actually a rail pressure regulator. It is a variable frequency and duty cycle signal. Use a multimeter to measure its resistance, voltage, rating, and duty cycle signal, and you can get its value at the same time. Information such as signal period, pulse width, trigger current, etc. can make a comprehensive evaluation of its performance characteristics and the operation of the entire fuel system. The engine control computer PCM controls it through PWM control, also called duty cycle control. It changes the area of ​​the internal oil passage through the size of the current pulse to control the fuel flow. The general operating frequency of solenoid valves is between 100hz and 200hz. If the frequency is too low, oil will enter in the form of pulsation, causing unevenness. If the frequency is too high, the spring begins to close before it is sucked up, so the solenoid valve does not work. The maximum operating current of the suction control valve (fuel pressure regulator) is 1.8A, the normally closed current at idle speed is 700±20mA, and the normally open current is 1400±20mA. SCV valve control voltage is 12V or 24V

Mobile Hydraulic Equipment Market Analysis (2024-2028) introduction Mobile hydraulic equipment plays an important role in modern engineering and industrial fields and is widely used in construction, agriculture, mining and other industries. As the global market's demand for fuel efficiency and productivity continues to increase, technological innovations in hydraulic systems have also brought many opportunities to this field. This article will provide an in-depth analysis of the mobile hydraulic equipment market in North America, Europe, Asia Pacific, South America, the Middle East, and Africa from 2024 to 2028, including market size, trends, drivers, challenges, and key players.   Market dynamics 1. Driving factors 1.1 Growing demand for fuel efficiency and productivity As the focus on fuel efficiency intensifies across industries, the demand for mobile hydraulic equipment market is growing rapidly. Companies are actively adopting advanced hydraulic systems to improve equipment operating efficiency, reduce fuel consumption and increase productivity. For example, the introduction of intelligent hydraulic technology allows equipment to monitor working status in real time and further optimize performance to meet the high-efficiency requirements of the market. 1.2 Promotion of technological innovation The continuous advancement of hydraulic technology provides new impetus for the development of mobile hydraulic equipment. Many manufacturers are developing more cost-effective and reliable hydraulic systems, especially integrating Internet of Things (IoT) and artificial intelligence (AI) technologies into hydraulic equipment to achieve equipment intelligence. This transformation not only improves the performance of the equipment, but also improves the user's operating experience, allowing hydraulic equipment to work effectively in more complex environments. 1.3 Acceleration of infrastructure investment Rising infrastructure investments in Asia Pacific and South America are also driving the demand for mobile hydraulic equipment. With the acceleration of urbanization and government support for agricultural modernization, the hydraulic equipment market in these regions is expected to expand rapidly. For example, China's "new infrastructure" policy is promoting the application of hydraulic equipment in fields such as construction and agriculture, and the market prospects are broad.   2. Challenge 2.1 High initial investment and maintenance costs Despite strong market demand, high initial investment and maintenance costs for hydraulic equipment remain major challenges facing the industry. The installation and debugging of the hydraulic system requires professional technical support, and subsequent maintenance and replacement of parts may also cause financial burdens for the enterprise. Therefore, when investing in hydraulic equipment, small and medium-sized enterprises need to carefully evaluate the costs and benefits to ensure the rationality of the investment. 2.2 Pressure for technological updates The rapid evolution of hydraulic technology puts companies under constant pressure to update. Companies that fail to keep up with technological advances may lose market competitiveness, especially in emerging economies where companies must continue to innovate to maintain market share.   market segmentation 1. Product type The mobile hydraulic equipment market can be segmented on the basis of product type into: Hydraulic Pumps: Hydraulic pumps hold the largest share of the market due to their widespread use in various mobile equipment. Hydraulic cylinder: It is mainly used to produce linear motion to ensure that the equipment can complete the work tasks efficiently. Hydraulic valve: Responsible for controlling the direction and pressure of hydraulic fluid, it is a key component to ensure the safe operation of the hydraulic system. 2. End users The market is segmented into industries based on end users: Construction industry: The wide application of hydraulic equipment in construction machinery has promoted the rapid growth of the construction industry. Agricultural industry: With the advancement of agricultural mechanization, the use of hydraulic equipment in agriculture is increasing, especially in farming, sowing and harvesting. Mining Industry: Hydraulic equipment is vital in mining and transportation, driving efficient mining operations.   Regional analysis 1. North America and Europe The North American and European markets are mature markets for mobile hydraulic equipment, with high technical levels and strict environmental requirements. Enterprises in these regions pay more attention to high-efficiency and low-emission products when selecting hydraulic equipment, promoting the technological upgrading of hydraulic equipment. 2. Asia Pacific The Asia-Pacific region, especially China and India, is quickly becoming an important market for mobile hydraulic equipment. The acceleration of infrastructure construction and government policy support have led to a surge in demand for hydraulic equipment. The Asia-Pacific region is expected to increase its market share significantly by 2028, becoming one of the fastest growing regions in the world. 3. Middle East and Africa The markets in the Middle East and Africa are relatively lagging behind, but due to the continued demand for oil, gas and mining, hydraulic equipment still has broad application potential in these regions. Improved infrastructure and rising market demand will drive the development of the hydraulic equipment market.   in conclusion Taken together, the mobile hydraulic equipment market faces many opportunities and challenges. The industry is evolving rapidly as technology advances and market demands change. Although high investment and maintenance costs remain major obstacles, through continuous technological innovation and market adaptation, companies can effectively seize future growth opportunities. The hydraulic equipment market is expected to continue to expand in the coming years to meet changing industrial needs.  

PRODUCT NAME :EHPR98-G38CS-0-G-12ER 1804 SOLENOID VALVE OE/OEM NUMBER :EHPR98-G38CS-0-G-12ER 1804 PODUCT DESCRIPTION: "EHPR98-G38CS-0-G-12ER 1804" refers to a specific type of solenoid valve, which is a device used in fluid control systems.   Compatible with: 1.EHPR98-G38CS-0-G-12ER 1804   Here's a breakdown of the components:   - **EHPR**: This stands for Electromagnetic High Pressure Regulator. - **G38CS**: This indicates the size or dimension of the valve, referring to its diameter in millimeters (38mm) and the type of connection (CS likely means compression fitting). - **0**: This refer to a specific feature or setting of the valve. - **G**: This denote the type of actuation, typically indicating a manual override or a feature that allows the valve to be manually opened or closed. - **12ER**: This indicate the power supply voltage or the coil resistance.     Solenoid valves like this one are commonly used in applications requiring precise fluid control, such as in industrial automation, HVAC systems, chemical processing, and water treatment plants. They work by converting electrical signals into mechanical action, opening or closing the valve to regulate flow based on the input signal.   If you need more specific information about this particular model, such as technical specifications, troubleshooting tips, or where to purchase it, you might need to consult the manufacturer's documentation or contact the supplier directly.   PRODUCT IMAGE Writer:Cindy Wechat:+86-18128269902 E-mail:export1@hyhemit.com Skype:ishinosales13@outlook.com

PRODUCT NAME :Parker 393000N012 3767649 TM61302 12V solenoid valve OE/OEM NUMBER :393000N012 3767649TM61302 12V PODUCT DESCRIPTION: The Parker 393000N012 3767649 TM61302 is a 12V solenoid valve ,one of the world's leading suppliers of motion and control technologies and systems.   Solenoid valves are electromechanical devices that regulate the flow of fluids or gases using an electric current. They operate by converting electrical energy into mechanical force through the use of a coil, which generates a magnetic field when an electric current flows through it.   Compatible with: 1.HIAB V80   Here are some key features of the Parker 393000N012 3767649 TM61302:   - **Power Supply**: The valve requires a 12V DC power supply to operate. - **Electrical Connection**: It typically uses a 3-pin connector for electrical connection. - **Function**: It is designed for on-off control applications, where fluid or gas flow is either completely open or closed based on the state of the solenoid coil. - **Material**: The valve may be made of brass or other corrosion-resistant materials, depending on the specific application requirements. - **Working Pressure**: The valve operates under certain pressure ranges, usually specified in the datasheet. - **Operating Temperature**: It also has a specified temperature range within which it can operate effectively. - **Connection Type**: The valve have thread connections, flange connections, or other types depending on its intended application.   Before using this valve, it's crucial to ensure it meets the operational needs of your system, such as fluid type, pressure, and temperature requirements. Always consult the manufacturer's guidelines or datasheet for proper installation and maintenance.   PRODUCT IMAGE Writer:Cindy Wechat:+86-18128269902 E-mail:export1@hyhemit.com Skype:ishinosales13@outlook.com

PRODUCT NAME :Solenoid Valve TM70402 24V For Excavators Accessories 3769592 OE/OEM NUMBER :3769592 TM70402 PODUCT DESCRIPTION: The Solenoid Valve TM70402, powered by 24V, is a crucial component used in excavators as part of their accessories. This type of valve typically controls the flow of hydraulic fluid, enabling precise control over various functions such as arm movement, bucket operation, and other mechanical actions in an excavator. Compatible with: 1.Parker ps25 2.PPC04-HGPPPV 3.PP50bar Pa-25bar 4.24V Key Features:1. **Power Supply**: The valve operates on a 24V power supply, which is common in industrial machinery for its reliability and safety features.2. **Solenoid Operation**: It uses solenoids to switch the flow direction of the hydraulic fluid. The solenoids are activated by electrical signals, allowing for quick and efficient control of the excavator's functions.3. **Compatibility**: The part number (TM70402) and the model (3769592) suggest it is specifically designed for certain excavator models, ensuring compatibility with the hydraulic systems of these machines.4. **Functionality**: In excavators, this valve plays a critical role in managing the hydraulic pressure that powers the machinery's movements. It helps in controlling the speed, force, and direction of the excavator's operations.5. **Maintenance and Repair**: Regular maintenance is essential for keeping the valve functioning properly. Issues like leaks, malfunctioning solenoids, or wear and tear can affect the performance of the excavator, leading to operational inefficiencies.If you need to replace or maintain this part, ensure you use the correct model specific to your excavator to avoid any compatibility issues. Always refer to the manufacturer's guidelines for proper installation and maintenance procedures. If you encounter technical difficulties or need further assistance, consulting a professional mechanic or the manufacturer's support team is recommended. PRODUCT IMAGE Writer:Cindy Wechat:+86-18128269902 E-mail:export1@hyhemit.com Skype:ishinosales13@outlook.com

PRODUCT NAME :24V 50 Bar Hydraulic Pump Solenoid Valve TM82002 for Diesel Engine OE/OEM NUMBER :TM82002 PODUCT DESCRIPTION: The 24V 50 Bar Hydraulic Pump Solenoid Valve TM82002 is an important component in diesel engine systems, particularly in those that require precise control over hydraulic fluid pressure and flow. This specific model is designed to operate on a 24-volt power supply and can withstand up to 50 bars (approximately 729 psi) of hydraulic pressure, making it suitable for high-pressure applications. Compatible with: 1.PPC04-HGPPPV 2.PP50bar Pa-25bar Here are some key features and considerations when using this type of solenoid valve:1. **Power Supply**: The "24V" indicates that the valve requires a 24-volt DC power supply to operate. Ensure your system can provide this voltage level, as incorrect voltage can damage the valve or prevent it from functioning properly.2. **Hydraulic Pressure**: The "50 Bar" rating means the valve is capable of handling pressures up to 50 bar. This is crucial for diesel engines where high pressure is often required for tasks like fuel injection, hydraulic lift systems, or other high-pressure fluid management needs.3. **Solenoid Valve Operation**: These valves use an electromagnet to move a piston or spool within the valve body, changing the path of the hydraulic fluid. When the solenoid coil is energized, it attracts the magnetic core, moving the spool and allowing fluid to flow through the valve in one direction. When de-energized, the spring returns the spool to its original position, blocking the flow.4. **Compatibility with Diesel Engines**: The specific design of the valve, including its pressure rating and electrical requirements, must match those of the diesel engine system for which it's intended. Incorrect compatibility can lead to performance issues or safety hazards.5. **Maintenance and Safety**: Regular maintenance is necessary to keep the valve functioning efficiently. This includes checking for leaks, ensuring proper sealing, and cleaning to remove contaminants that could affect performance. Safety measures should also be in place to prevent accidental activation of the valve, which could result in fluid spills or system malfunctions.6. **Installation and Wiring**: Proper installation is critical. The valve must be mounted securely, and all connections must be made with care to avoid leaks. Wiring should be done according to the manufacturer's specifications, using the correct polarity and ensuring that the connections are secure.When selecting or specifying a 24V 50 Bar Hydraulic Pump Solenoid Valve TM82002 for a diesel engine application, it's important to consult the manufacturer's documentation to ensure that the valve meets all necessary technical specifications and compatibility requirements for your specific engine and system setup. PRODUCT IMAGE Writer:Cindy Wechat:+86-18128269902 E-mail:export1@hyhemit.com Skype:ishinosales13@outlook.com  

PRODUCT NAME :24V Solenoid Valve 3768317 TM58401 for Parker OE/OEM NUMBER :3768317 TM58401 PODUCT DESCRIPTION: The 24V Solenoid Valve 3768317 TM58401 is a specific model of solenoid valve , a renowned manufacturer of fluid motion and control products. This valve operates on a 24-volt electrical signal to control the flow of liquids or gases in industrial and commercial applications. Compatible with: 1.PVC25 25VDC 2.Parker P70 L90LS Here are some key features and specifications: 1. **Operating Voltage**: The valve is powered by a 24V DC signal, which is common in many automation systems. 2. **Solenoid Type**: The solenoid coil is typically made of high-quality materials to ensure durability and reliability under various operating conditions. 3. **Actuation**: It can be either direct acting or pilot operated, depending on the specific model and application requirements. Direct acting valves open or close immediately when power is applied, while pilot operated valves use an additional small valve (the pilot) to control the main valve. 4. **Flow Rate**: The flow rate will depend on the specific model, but it's designed to handle a range of fluid types and pressures efficiently. 5. **Pressure Rating**: The pressure rating is another critical specification that indicates the maximum pressure the valve can withstand without leaking or failing. This can vary from model to model. 6. **Material Construction**: The valve body and other components are usually made from durable materials such as brass, stainless steel, or plastic, depending on the fluid being handled. 7. **Sealing**: The valve uses high-quality seals to prevent leaks, ensuring reliable operation even under harsh conditions. 8. **Connection**: The valve might have different connection types, such as threaded, flanged, or quick-connect fittings, depending on the application. 9. **Control Signals**: It is designed to respond to control signals from various sources, including PLCs (Programmable Logic Controllers), HMI interfaces, or manual switches.   For optimal performance and safety, it's crucial to match the valve with the correct application, ensuring compatibility with the fluid type, pressure, and flow rate requirements. Regular maintenance and adherence to the manufacturer's guidelines are also essential for maintaining the valve's efficiency and longevity. PRODUCT IMAGE Writer:Cindy Wechat:+86-18128269902 E-mail:export1@hyhemit.com Skype:ishinosales13@outlook.com  

PRODUCT NAME :R900726604 Bosch Rexroth Pressure Reducing Valve FTDRE 2 K3X/18AG12C4V-8 OE/OEM NUMBER :R900917759 PODUCT DESCRIPTION: The R900726604 Bosch Rexroth Pressure Reducing Valve, model FTDRE 2 K3X/18AG12C4V-8, is a specialized hydraulic component designed for precise pressure regulation in industrial systems. Here's an overview of its specifications and potential applications: Compatible with: R900726604 FTDRE 2 K3X/18AG12C4V-8 ### Specifications:- **Model**: FTDRE 2 K3X/18AG12C4V-8- **Type**: Pressure Reducing Valve- **Manufacturer**: Bosch Rexroth- **Capacity**: Not specified in the model number but typically designed for specific flow rates.- **Pressure Range**: Likely designed to handle pressures within a specified range, optimized for efficient operation in industrial settings.- **Connection Type**: Not explicitly mentioned, but could be standard or customized based on application requirements.- **Port Size**: Typically includes standard port sizes suitable for industrial hydraulics (e.g., ISO 4401-01, 1/4" BSP, etc.).### Applications:Pressure reducing valves like the FTDRE 2 K3X/18AG12C4V-8 are commonly used in various industrial applications where precise control over hydraulic fluid pressure is essential. These can include:- **Hydraulic Systems**: In machinery that requires controlled fluid pressure for operations such as lifting, moving, or processing materials.- **Pneumatic Systems**: Though primarily hydraulic, some systems may integrate pneumatic elements, requiring specialized components that can interface between hydraulic and pneumatic pressures.- **Control Systems**: For maintaining a constant output pressure despite varying loads or input pressures, ensuring stable performance and efficiency.### Maintenance and Operation:Proper maintenance and operational guidelines are crucial for the longevity and effectiveness of these valves. Regular inspection, cleaning, and calibration are recommended to ensure optimal performance. Bosch Rexroth typically provides detailed manuals and technical support for their products, which should be consulted for specific maintenance procedures and troubleshooting tips.### Safety Considerations:When handling or installing such valves, it's important to follow safety guidelines to prevent leaks, overpressure, or other hazards that could lead to injury or equipment damage.For more detailed information, including installation instructions, maintenance procedures, and troubleshooting tips, it would be beneficial to consult the official Bosch Rexroth product manual or contact their customer support directly. PRODUCT IMAGE Writer:Cindy Wechat:+86-18128269902 E-mail:export1@hyhemit.com Skype:ishinosales13@outlook.com  

PRODUCT NAME :R900917759 for Rexroth Control Pump Solenoid Valve OE/OEM NUMBER :R900917759 PODUCT DESCRIPTION: The part number R900917759 is associated with a Rexroth control pump solenoid valve.    A control pump solenoid valve is used to control the flow of fluid in hydraulic systems by operating a valve with an electric signal sent through a solenoid. These valves are crucial components in many applications, including but not limited to, machinery, construction equipment, and manufacturing processes.   Compatible with: 1.FTWE2KC31/150AG24C4V-3 2.FTWE2KC32/150AG24C4V-3 3.FTWE2KC33/150AG24C4V-3   Here are some details about this specific part:   - **Rexroth**: Manufacturer of the product. - **Control Pump Solenoid Valve**: Type of component. - **R900917759**: Part number, which uniquely identifies the specific model or variant of the valve.   To find out more information about the specific function, specifications, compatibility, pricing, or availability of this part, you might need to refer to the manufacturer's catalog or contact Rexroth directly. They can provide detailed information, including manuals, technical data sheets, and application notes that could be useful for your needs. Additionally, authorized distributors of Rexroth products might also have this information available.   If you need assistance with troubleshooting, maintenance, or repair of this part, it would be beneficial to consult Rexroth’s technical support team or relevant manuals. Ensure you have all necessary safety precautions in place when handling or working on hydraulic components.   PRODUCT IMAGE Writer:Cindy Wechat:+86-18128269902 E-mail:export1@hyhemit.com Skype:ishinosales13@outlook.com

PRODUCT NAME :Rexroth R900578533 directional-control valve OE/OEM NUMBER :R900578533 PODUCT DESCRIPTION: The Rexroth R900578533 is a 4-way, manual directional control valve designed for use in various industrial applications. This type of valve is used to control the direction of fluid flow in hydraulic systems, allowing for precise control over the movement of machinery and equipment.   Compatible with: FTWE 2 KC3X/100AG12C4V Here are some key features of the Rexroth R900578533:1. **Function**: It has a 4-way function, meaning it can direct fluid flow to four different positions or directions: forward, reverse, neutral, and lock (depending on the application).2. **Manual Operation**: The valve is manually operated, which means its position can be changed by physically moving a lever or handle.3. **Size and Compatibility**: The specific dimensions and compatibility details will depend on the particular model number, but typically these valves are designed to fit into standard hydraulic systems. Ensure that the valve's size matches the requirements of your system.4. **Pressure Rating**: The pressure rating of the R900578533 is important to consider when selecting a valve. It should be able to withstand the pressures encountered in your hydraulic circuit.5. **Flow Rate**: The valve's ability to handle certain flow rates is crucial for its performance in different applications. Make sure the valve can manage the required volume of fluid without causing issues like overheating or damage to components.6. **Durability and Quality**: As a product from Bosch Rexroth, a reputable manufacturer in the field of hydraulics, you can expect high-quality materials and construction. This ensures reliability and longevity in harsh industrial environments.7. **Maintenance and Service**: Understanding how to maintain and service the valve is important for keeping your hydraulic system running smoothly. Regular cleaning, inspection, and potential replacement of seals and other parts may be necessary depending on usage conditions.8. **Safety Considerations**: Always ensure that the valve is installed and operated safely, following all relevant safety guidelines and practices.If you need further assistance with installation, troubleshooting, or maintenance of the Rexroth R900578533 directional control valve, consulting the manufacturer's documentation or seeking advice from a professional hydraulic technician would be advisable.   PRODUCT IMAGE Writer:Cindy Wechat:+86-18128269902 E-mail:export1@hyhemit.com Skype:ishinosales13@outlook.com

PRODUCT NAME :Rexroth R900578535 directional-control valve OE/OEM NUMBER :R900578535 PODUCT DESCRIPTION: The Rexroth R900578535 is a 4-way, manually operated directional control valve designed for use in various hydraulic systems. This type of valve allows the direction of fluid flow to be changed by moving the control lever.   Compatible with:   1.FTWE2KC33/100(24V) 现代/福田/龙工 1.FTWE2KC35/100AG24C4V 2.FTWE2KC36/100AG24C4V 3.FTWE2KC371100AG24C4V 4.FTWE2KC38/100AG24C4V 5.FTWE2KC39/100AG24C4V Key Features:1. **Compact Design**: The R900578535 is compact, making it suitable for applications where space is limited.2. **Manual Operation**: It's manually operated which means it can be controlled directly without the need for electrical or pneumatic signals.3. **4-Way Functionality**: As a 4-way valve, it provides four positions: Full Forward, Full Reverse, Neutral (Park), and Free Spin (when used with a lock).4. **Robust Construction**: The valve is built to withstand harsh operating conditions, ensuring reliability and durability.5. **Versatile Applications**: It can be used in a wide range of industrial applications such as material handling equipment, construction machinery, and agricultural equipment.6. **Easy Maintenance**: The manual design also simplifies maintenance procedures, as no complex electronics or hydraulics require periodic checks.Please note that proper installation, operation, and maintenance are crucial to ensure the valve operates effectively and safely within its designated application. Always refer to the manufacturer's specifications and guidelines for specific instructions and requirements.   PRODUCT IMAGE Writer:Cindy Wechat:+86-18128269902 E-mail:export1@hyhemit.com Skype:ishinosales13@outlook.com

PRODUCT NAME :Bosch Rexroth Proportional Pressure Reducing Valve – R900701407 / FTDRE 2 K3X/18AG24C4V-8 OE/OEM NUMBER :R900701407 PODUCT DESCRIPTION: The Bosch Rexroth Proportional Pressure Reducing Valve model R900701407 / FTDRE 2 K3X/18AG24C4V-8 is a high-performance, proportional pressure reducing valve designed for precise and dynamic control applications in hydraulic systems. This valve is particularly useful in industries requiring high accuracy and responsiveness such as manufacturing, automotive, and aerospace. Compatible with: 1.FTDRE2K37/18-8(24) 2.FTDRE 2 K3Z/18AG24C47-8 3.FTDRE 2 K3Z/18AG24C47-8 Here are some key features of this valve:Technical Specifications:1. **Valve Type**: Proportional Pressure Reducing Valve.2. **Model Number**: R900701407 / FTDRE 2 K3X/18AG24C4V-8.3. **Flow Rate**: Up to 24 l/min (liters per minute).4. **Pressure Range**: From 0 to 350 bar (depending on the specific application requirements).5. **Operating Temperature**: -20°C to +80°C.6. **Electrical Input**: Typically 24 VDC, but can vary depending on the controller used.7. **Proportional Control**: Enables smooth and continuous adjustment of the output pressure.Functionality:- **Reduction of Pressure**: It reduces the incoming hydraulic pressure to a lower level that can be precisely controlled.- **Proportional Control**: The valve allows for the pressure reduction to be adjusted in proportion to the input signal, providing fine control over the system's dynamics.- **Safety Features**: Includes features like relief valves to protect against overpressure conditions.Applications:- **Positioning Systems**: Precise control in robotic arms or CNC machines.- **Pressure Control Systems**: In industrial machinery where accurate pressure regulation is crucial.- **Hydraulic Drives**: For applications requiring smooth and responsive operation, such as in electric vehicles or aerospace landing gear.Installation and Maintenance:- **Installation**: Ensure proper alignment and correct mounting to avoid leakage or damage to the valve.- **Maintenance**: Regular inspection for wear and tear, cleaning, and replacement of worn parts as necessary. Proper maintenance ensures long service life and optimal performance.For detailed installation instructions, safety guidelines, and maintenance procedures, refer to the manufacturer's technical documentation or contact a qualified technician. Bosch Rexroth provides comprehensive resources including manuals, datasheets, and application notes to support users effectively. PRODUCT IMAGE Writer:Cindy Wechat:+86-18128269902 E-mail:export1@hyhemit.com Skype:ishinosales13@outlook.com

PRODUCT NAME :0281002985 A6420722146 0281002827 A6420780249 PRESSURE REGULATOR VALVE OE/OEM NUMBER :0281002985 A6420722146 0281002827 A6420780249 PODUCT DESCRIPTION: 1. **0281002985** and **0281002827** - These part of a serial number or a model identifier for the pressure regulator valve. The first three digits (028) indicate a specific manufacturer or series.   2. **A6420722146** and **A6420780249** - These is  unique identifiers, batch numbers, part numbers, or SKU numbers. The prefix 'A' denote a certain type of code used by a company, indicating that it is an internal identifier for tracking purposes.   Compatible with: MERCEDES-BENZ: E-CLASS,AMG (W124, W210,W211, W212,W213,C207.238)2009-2016   When dealing with product information, especially in a professional setting, it's important to refer to the documentation provided by the manufacturer or supplier for the most accurate interpretation and use of these codes. If you need further assistance in identifying these items or locating specific products, please provide more context or details about your requirements.   PRODUCT IMAGE Writer:Cindy Wechat:+86-18128269902 E-mail:export1@hyhemit.com Skype:ishinosales13@outlook.com

PRODUCT NAME :28249292 High Pressure Valve For JCB OE/OEM NUMBER :28249292 PODUCT DESCRIPTION: The product is a high-pressure valve designed specifically for use with a JCB (Jowett Cars and Construction) equipment. JCB is renowned for manufacturing construction equipment, agricultural machinery, and material handling equipment. Compatible with: 1.28252069 JCB 320/06832 2.28361994 JCB 320/06914 SUPERSESSIONS: 1.JCB 320/06624 2.AS10243 3.9307-515A 9307515A A high-pressure valve in this context typically plays a crucial role in regulating the flow of hydraulic fluid under high pressure within the hydraulic system of the machinery. This ensures smooth operation of the equipment's various functions such as lifting, moving, or rotating heavy loads. Given that the part number is 28249292, it suggests that this is a specific model or part number that has been manufactured or supplied by JCB or an authorized supplier for their machinery. The high-pressure valve used in a variety of applications depending on the particular JCB model, such as excavators, telehandlers, telescopic handlers, etc. When sourcing replacement parts like this, it's important to ensure that you obtain them from a reputable supplier to guarantee quality and compatibility with your JCB equipment. If you need to replace or repair this valve, it would be wise to consult the JCB service manual or contact a JCB authorized service center for assistance. If you need more detailed information or help finding this part, please provide more context or specifications if possible. PRODUCT IMAGE Writer:Cindy Wechat:+86-18128269902 E-mail:export1@hyhemit.com   Skype:ishinosales13@outlook.com