Product Report of ARG20 – 01G1H Gauge – type Pressure Reducing Valve

I. Product Overview

1.1 Product Introduction

The ARG20 – 01G1H gauge – type pressure reducing valve, as a crucial pressure regulation device, is meticulously developed to meet the stringent requirements of various industrial and civil scenarios for precise and stable pressure output. This pressure reducing valve utilizes a specific internal valve structure to efficiently reduce the input pressure through throttling control of the flowing medium. It also relies on an advanced feedback regulation mechanism to ensure that the output pressure remains stable within the preset range. Using compressed air, various gases, and some liquids as the working medium, it plays an indispensable role in pressure regulation in numerous systems. It is widely applied in fields such as automated production lines, pneumatic control systems, medical equipment, and building heating, ventilation, and air – conditioning (HVAC) systems, providing reliable guarantee for the stable operation of related equipment.

1.2 Product Positioning

The ARG20 – 01G1H gauge – type pressure reducing valve is mainly targeted at the high – end application market with extremely high requirements for pressure regulation accuracy and the need for the equipment to operate stably under complex working conditions. Whether in the gas supply system of precision instruments that are extremely sensitive to air pressure fluctuations or in the industrial automation process where precise pressure control is required to ensure safety and performance, this pressure reducing valve can stand out with its excellent performance and become a trusted pressure regulation solution for users. It is committed to creating a core pressure control component for users that is easy to install, simple to maintain, and has excellent cost – effectiveness, so as to adapt to the increasingly diversified and complex modern production and living needs.

II. Product Features

2.1 High – precision Pressure Regulation

It adopts advanced pressure sensing and feedback regulation technology, enabling extremely precise control of the output pressure. The precisely machined valve core and seat inside, combined with the optimized throttling structure, can control the pressure regulation accuracy within a very small error range, ensuring the stability and reliability of the output pressure. Whether facing frequent fluctuations in the input pressure or different flow requirements, it can always maintain a constant output pressure, meeting the demanding requirements of industries such as electronics manufacturing and medical equipment for pressure accuracy.

2.2 Wide – range Pressure Adaptation

It has excellent pressure adaptation ability and can operate normally within a wide input pressure range. By flexibly adjusting the preload of the internal pressure regulating spring and related regulating components, it can easily cope with different gas source pressure conditions and precisely regulate them to the required output pressure level. This wide – range pressure adaptation characteristic allows the ARG20 – 01G1H gauge – type pressure reducing valve to operate stably in various complex gas source environments, greatly expanding its application scenarios and scope.

2.3 Compact and Lightweight Structural Design

In the design, full consideration is given to space utilization efficiency, and a compact and lightweight structural layout is adopted. Compared with traditional pressure reducing valves, its volume is significantly smaller and its weight is lighter, effectively reducing the occupied installation space. This makes it easy to install inside equipment with limited space or in narrow pipeline systems. At the same time, the simple structural design also reduces the maintenance difficulty and improves the overall reliability and maintainability of the equipment.

2.4 Multiple Connection Methods and Installation Flexibility

To meet the installation requirements of different users, the ARG20 – 01G1H gauge – type pressure reducing valve provides a variety of connection methods. Whether it is the common threaded connection, flange connection, or quick – connect connection suitable for specific pipeline systems, users can choose flexibly according to the actual situation. In addition, the installation direction of this pressure reducing valve is not strictly limited. It can be installed horizontally, vertically, or obliquely according to the on – site pipeline layout and equipment structure, greatly improving its installation convenience and adaptability in different engineering scenarios.

2.5 Reliable Sealing and Durability

High – quality sealing materials and advanced sealing processes are selected to ensure that the pressure reducing valve maintains good sealing performance under different working pressures and temperature conditions, effectively preventing medium leakage. At the same time, key components have undergone special surface treatment and strengthening processes, with excellent wear resistance and fatigue resistance. They can operate stably in harsh environments with long – term continuous work, greatly extending the product’s service life and reducing the user’s maintenance costs and equipment downtime risks.

III. Technical Parameters

3.1 Pressure Regulation Range

The output pressure regulation range is [X] MPa to [X] MPa (the specific pressure range needs to be determined according to the actual product), which can meet the application scenarios with various different pressure requirements. Users can easily achieve precise setting of the output pressure through the regulating knob or supporting control device to adapt to the diverse pressure requirements of different equipment and processes.

3.2 Maximum Input Pressure

The maximum input pressure that this pressure reducing valve can withstand is [X] MPa (the specific pressure value needs to be determined according to the actual product). Within this pressure range, the pressure reducing valve can operate stably and effectively regulate the pressure. This parameter enables the ARG20 – 01G1H gauge – type pressure reducing valve to be suitable for a variety of high – pressure gas sources and provides a reliable solution for pressure regulation in high – pressure systems.

3.3 Flow Characteristics

Under standard working conditions, the rated flow of the pressure reducing valve is [X] m³/h (the specific flow value needs to be determined according to the actual product). Its flow characteristic curve is smooth, and the output pressure fluctuation is extremely small under different flow requirements, ensuring that the system can obtain a stable pressure supply under different working loads. Through reasonable selection and system design, this pressure reducing valve can meet the pressure regulation requirements of systems with various flow rates.

3.4 Working Temperature Range

It has good temperature adaptability, with a working temperature range of [X] °C to [X] °C (the temperature range needs to be determined according to the actual product). Whether in a cold industrial environment or a high – temperature production workshop, it can maintain stable working performance and is not significantly affected by changes in the ambient temperature, ensuring that the equipment can operate continuously and reliably in different seasons and working environments.

3.5 Pressure Characteristics

When the input pressure fluctuates within the allowable range, the fluctuation range of the output pressure is controlled within a very small value (such as ±[X] MPa, and the specific fluctuation range needs to be determined according to the actual product). This excellent pressure characteristic enables the ARG20 – 01G1H gauge – type pressure reducing valve to always provide stable and reliable pressure output for downstream equipment under complex and changeable gas source conditions, effectively guaranteeing the normal operation and working accuracy of the equipment.

IV. Working Principle

The working principle of the ARG20 – 01G1H gauge – type pressure reducing valve is based on the force balance and throttling pressure reduction mechanism. When the medium with higher pressure enters the pressure reducing valve from the inlet, it first passes through the throttling port between the valve core and the valve seat. At this time, the pressure of the medium is rapidly reduced due to the throttling effect. At the same time, the pressure at the output end acts on the pressure sensing element (such as a diaphragm or piston) through the feedback channel. When the output pressure changes, the pressure sensing element will generate a corresponding displacement, which in turn drives the valve core to move and change the opening degree of the throttling port. For example, when the output pressure rises, the force on the pressure sensing element increases, pushing the valve core upward to reduce the opening degree of the throttling port, increase the throttling resistance, and reduce the output pressure to the set value; conversely, when the output pressure decreases, the pressure sensing element drives the valve core downward to increase the opening degree of the throttling port, reduce the throttling resistance, and increase the output pressure to the set value. Through this dynamic feedback regulation process, the pressure reducing valve can continuously and stably regulate the input pressure to the preset output pressure value, providing a stable pressure supply for downstream equipment.

V. Application Fields

5.1 Pneumatic Control Systems of Automated Production Lines

In modern automated production lines, various pneumatic devices have extremely high requirements for the stability of the gas source pressure. The ARG20 – 01G1H gauge – type pressure reducing valve can provide precise and stable pressure for pneumatic actuators (such as cylinders, air motors, etc.), ensuring the accuracy and consistency of equipment operation. For example, in the precision assembly process of electronic components, stable air pressure can ensure that the pneumatic grippers can accurately grasp and place tiny components, effectively improving production efficiency and product quality, and helping enterprises achieve efficient and high – quality automated production.

5.2 Medical Equipment and Instruments

In the medical field, many devices and instruments have almost strict requirements for the accuracy and stability of gas pressure. Equipment such as ventilators and anesthesia machines, their working performance is directly related to the life safety and treatment effect of patients. With its high – precision pressure regulation characteristics, the ARG20 – 01G1H gauge – type pressure reducing valve can provide stable and reliable gas source pressure for these medical devices, ensuring that the devices can always maintain precise gas flow and pressure control during operation, providing a strong guarantee for the accuracy and safety of medical diagnosis and treatment.

5.3 Building HVAC Systems

In the HVAC systems of large commercial buildings and high – end residential buildings, it is necessary to precisely regulate the pressure of steam or hot water to ensure the stability of heating and cooling effects. The ARG20 – 01G1H gauge – type pressure reducing valve can be installed in the pipeline system to regulate the pressure of high – temperature and high – pressure steam or hot water to an appropriate working pressure range, ensuring that various terminal devices (such as radiators, fan – coil units, etc.) can operate normally and efficiently. At the same time, its good sealing performance and durability can adapt to the long – term continuous operation environment of the HVAC system, reducing maintenance costs and equipment failure risks.

VI. Summary of Product Advantages

6.1 Precision and Stability Advantages

The high – precision pressure regulation ability and excellent pressure stability enable it to meet the requirements of industries with extremely high pressure accuracy. In fields such as precision manufacturing and medical care, it ensures the accuracy and reliability of equipment operation, effectively improves production efficiency and product quality, and creates higher value for users.

6.2 Adaptability and Installation Advantages

The wide – range pressure adaptation ability and multiple flexible connection and installation methods enable this pressure reducing valve to easily adapt to various complex gas source conditions and engineering installation environments. Whether it is the design and installation of a new system or the upgrading and transformation of an old system, it can be completed quickly and conveniently, reducing the difficulty and cost of engineering implementation.

6.3 Maintenance and Cost Advantages

The reliable sealing performance and excellent durability greatly reduce the equipment maintenance frequency and maintenance costs. The simple structural design and easily accessible components make daily maintenance work easy and convenient. When a failure occurs, components can be quickly disassembled and replaced, effectively reducing equipment downtime and bringing good economic benefits and return on investment to users.

VII. Conclusion

The ARG20 – 01G1H gauge – type pressure reducing valve, with its characteristics such as high – precision pressure regulation, wide – range pressure adaptation, and compact structure, highly meets the requirements of numerous industrial and civil scenarios in terms of technical parameters. Widely used in fields such as automated production lines, medical equipment, and building HVAC systems, it provides precise and efficient pressure regulation solutions for various systems through flexible installation, stable performance, and convenient maintenance. From improving pressure control accuracy and adapting to complex working conditions to saving installation space and reducing maintenance costs, this pressure reducing valve fully demonstrates its outstanding advantages and is a powerful pressure control component that promotes the stable operation and technological upgrading of equipment in various industries

ARG40-04G4

ARG20-02G3H-1

ARG40-03G1H-N

ARG30-02G1H-B

ARG20-02BG1-B

ARG20K-02G4H

ARG20-02G1-1-B

ARG30-03G1

ARG20-02G1H-B

ARG20K-02G1H-B

ARG30K-03G2-B

ARG20-01G2H-B

ARG20K-01BG1-B

ARG30-03G1-1-B

ARG20-02BG1H

ARG30-03BG4

ARG30-03G2-B

ARG30K-03G4H-B

ARG20K-01G2H

ARG20-02G2H-1

ARG20-02G3H-B

ARG30-03G2H-1-B

ARG20-01G1-B

ARG30-03BG1-B

ARG20K-01G1H

ARG30K-03BG1

ARG20-02G3H

ARG30-03G4H-B

ARG20-01BG4

ARG30-02G4H-N-X406

ARG30-03G5H-B-X2101C

ARG30-03G2

ARG30P-260S

ARG20-F02BG1

ARG20-01BG1-B-X406

ARG40-04G1H-B