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H44F46 Fluorine-Lined Swing Check Valve
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H44F46 Fluorine-Lined Swing Check Valve
- Model:H44F46-16C/H44F46-10C/H44F46-16/H44F46-10/H44F46-16P/H44F46-10P
- Specification:DN15-DN500
- Temperature:≤150 ℃
- Medium:Acids, alkalis and corrosive media
- Pressure:PN10,PN16
- Connection method:Flange
- Driving method:automated
- Material:Cast iron, cast steel, stainless steel lined with FEP/PTFE
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- Product Overview
- Performance Data
- Size Weight
H44F46 Fluorine-Lined Swing Check Valve Overview
The H44F46 Fluorine-Lined Swing Check Valve is an automatic check valve specifically designed for highly corrosive media. It features a flanged connection and a swing-type structure. The valve body and the internal flow passage surfaces are fully lined with fluoroplastic materials such as perfluoroalkoxy (FEP/PTFE), while the disc is typically constructed as a fully fluoroplastic-lined or fluoroplastic-coated metal core. The valve operates by swinging open under the pressure of forward-flowing medium and automatically closing under its own weight and reverse flow when the medium stops or reverses direction. This design leverages the exceptional chemical inertness of fluoroplastics, enabling resistance to most strong acids, alkalis, organic solvents, and mixed corrosive media. It is widely used in pipelines handling highly corrosive media across industries such as chemical processing, pharmaceuticals, pesticides, electroplating, and environmental protection. The valve serves as a critical safety device to prevent the backflow of harmful media and protect key equipment.
H44F46 Fluorine-Lined Swing Check Valve Product Image
H44F46 Fluorine-Lined Swing Check Valve Features
1. Comprehensive Corrosion Resistance Protection
The valve body interior and disc surfaces in contact with the medium are fully lined with FEP/PTFE, providing excellent overall anti-corrosion protection. This makes it suitable for most severe corrosive media environments.
2. Flexible Installation and Low Flow Resistance
Utilizing a swing-type structure, the valve can be installed horizontally or in vertical pipelines with upward flow, offering greater adaptability. When fully open, the flow path is unobstructed with minimal pressure loss.
3. Reliable Sealing and Rapid Closure
The optimized fluorine-lined sealing pair design ensures smooth forward flow and tight reverse closure, effectively preventing medium backflow. The disc has low swing inertia, enabling quick closing action.
4. Anti-Adhesion and Easy Maintenance
The smooth surface of the fluoroplastic lining reduces the risk of crystallization or adhesion of viscous media, minimizing disc jamming due to deposits. The relatively simple structure results in fewer potential failure points.
5. Clear Usage Condition Limitations
Its performance is constrained by the fluoroplastic lining, making it suitable for medium to low-pressure and moderate temperature conditions (typically -20°C to 150°C). It is not recommended for pipelines containing hard suspended particles, high abrasion, or extreme vacuum environments. Care must be taken during installation and maintenance to avoid mechanical damage to the lining.
H44F46 Fluorine-Lined Swing Check Valve Structure Diagram
Parts Name Material List
| 序 号NO. | 名称Name | 材料Material |
| 4 | 阀瓣disc | 铸钢,不锈钢,内衬FEP(F46)、PCTFE(F3)、PTFE(F4)Cast Steel, Stainless Steel, Lined with FEP (F46), PCTFE (F3), PTFE (F4) |
| 3 | 阀盖bonnet | 铸钢,不锈钢,内衬FEP(F46)、PCTFE(F3)、PTFE(F4)Cast Steel, Stainless Steel, Lined with FEP (F46), PCTFE (F3), PTFE (F4) |
| 2 | 垫圈gasket | FEP(F46)、PCTFE(F3)、PTFE(F4) |
| 1 | 阀体body | 铸钢,不锈钢,内衬FEP(F46)、PCTFE(F3)、PTFE(F4)Cast Steel, Stainless Steel, Lined with FEP (F46), PCTFE (F3), PTFE (F4) |
| 性能规范表Performance Specification | ||
| 公称压力Nominal Pressure | 1.0/1.6 | Mpa |
| 强度试验压力Shell Test | 1.5/2.4 | |
| 密封试验压力Seal Test | 1.1/1.76 | |
| 适用温度Suitable Temp. | ≤150 | ℃ |
Dimensions Standard Requirements
1. The structural length of the valve shall conform to the standard GB/T 12221.
2. The connecting flange shall conform to the standard JB/T79-94、GB9113.1-26.
H44F46 Fluorine-Lined Swing Check Valve View Drawing
H44F46 Fluorine-Lined Swing Check Valve Dimensions Table
| DN(mm) | NPS(inch) | L | D | D1 | D2 | f | b | Z-Φd | |
| PN1.0(MPa) | |||||||||
| 15 | 1/2 | 130 | 80 | 55 | 40 | 2 | 12 | 4-Φ12 | |
| 20 | 3/4 | 150 | 90 | 65 | 50 | 2 | 14 | 4-Φ12 | |
| 25 | 1 | 160 | 100 | 75 | 60 | 2 | 14 | 4-Φ12 | |
| 32 | 1 1/4 | 180 | 120 | 90 | 70 | 2 | 16 | 4-Φ14 | |
| 40 | 1 1/2 | 200 | 130 | 100 | 80 | 3 | 16 | 4-Φ14 | |
| 50 | 2 | 230 | 140 | 110 | 90 | 3 | 16 | 4-Φ14 | |
| 65 | 2 1/2 | 290 | 160 | 130 | 110 | 3 | 16 | 4-Φ14 | |
| 80 | 3 | 310 | 185 | 150 | 125 | 3 | 18 | 4-Φ18 | |
| 100 | 4 | 350 | 205 | 170 | 145 | 3 | 18 | 4-Φ18 | |
| 125 | 5 | 400 | 235 | 200 | 175 | 3 | 20 | 8-Φ18 | |
| 150 | 6 | 480 | 260 | 225 | 200 | 3 | 20 | 8-Φ18 | |
| 200 | 8 | 495 | 315 | 280 | 255 | 3 | 22 | 8-Φ18 | |
| 250 | 10 | 622 | 370 | 335 | 310 | 3 | 24 | 12-Φ18 | |
| 300 | 12 | 698 | 435 | 395 | 362 | 4 | 24 | 12-Φ23 | |
| 350 | 14 | 787 | 485 | 445 | 412 | 4 | 26 | 12-Φ23 | |
| 400 | 16 | 914 | 535 | 495 | 462 | 4 | 28 | 16-Φ23 | |
| 450 | 18 | 978 | 590 | 550 | 518 | 4 | 28 | 16-Φ23 | |
| 500 | 20 | 978 | 640 | 600 | 568 | 4 | 30 | 16-Φ23 | |
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Complete Guide to Check Valve Selection and Installation: Detailed Explanation of Principles, Selection, and Key Construction Points Check valves, as crucial safety components in pipeline systems, are essential for preventing medium backflow and ensuring safe system operation. This article will provide you with a comprehensive guide to the selection and installation of check valves.
1. Operating Principle and Classification of Check Valves 1.1 What is a Check Valve?
Check valves, also known as one-way valves or non-return valves, belong to the category of automatic valves. Their working principle is to achieve opening and closing through the flow force of the medium itself. Their core function is to prevent the reverse flow of pipeline medium and ensure one-way flow.
1.2 Main application scenario: foot valve (a special type of check valve) at the water pump suction inlet
Various pipeline systems requiring unidirectional flow of medium
Industrial settings where accidents caused by medium backflow are to be prevented
II. Selection Criteria and Guidelines for Check Valves 2.1 Basic Selection Principles Medium Adaptability: Suitable for clean medium conditions, not recommended for pipelines containing solid particles or high viscosity media.
2.2 Selection of pipeline size (DN) based on pipeline size. Recommended valve types. Applicable pressure range: DN<50mm. Butterfly check valve, vertical lift check valve, diaphragm check valve. Low-pressure environment: 50mm
Advantages: Effectively eliminates the water hammer phenomenon
Limitations: Subject to temperature and pressure constraints, suitable for low-pressure and normal-temperature pipelines
Applicable scenario: Water supply pipelines prone to water hammer
Slow-closing check valve:
Slow-closing swing check valve
Slow-closing butterfly check valve
Applicable scenario: pipeline systems that require minimal or no water hammer impact when shut down
III. Installation specifications and construction requirements for check valves 3.1 Preparatory work before installation Appearance inspection:
Check the valve nameplate information to ensure compliance with the GB 12220 "General Valve Marking" standard
Check the integrity of the valve and confirm that it is undamaged
Pressure test requirements:
If the working pressure exceeds 1.0 MPa or the main pipe shut-off valve is involved, a pressure test must be conducted
Strength test: Nominal pressure × 1.5, duration ≥ 5 minutes, no leakage is considered as qualified
Tightness test: nominal pressure × 1.1, determine the duration according to GB 50243 standard
3.2 Installation location and direction: Strictly follow the design drawings to determine the location, height, and inlet and outlet directions
Flow direction indicator: Ensure that the flow direction of the medium is completely consistent with the direction indicated by the arrow on the valve body
Pipe support:
It is prohibited to let the check valve bear the weight of the pipeline
Large check valves must be equipped with independent support structures
Avoid direct impact of piping pressure on the valve
3.3 Lift check valves are required for specific types of installations:
Vertical flap type: It must be installed on a vertical pipeline
Horizontal flap type: It must be installed on a horizontal pipeline
Swing check valve:
Ensure that the valve disc's rotating shaft is in a horizontal position during installation
Special attention should be paid to the flow direction of the medium during inclined installation
IV. Common Installation Errors and Precautions 4.1 Example of Incorrect Installation: Installing a Vertical Lift Check Valve on a Horizontal Pipe
The valve flow direction is reversed
Large valves have no independent support
Pressure testing was not conducted according to specifications
4.2 The selection and installation location of check valves should be considered during the design phase of the professional advice system
Provide complete operating condition parameters to the supplier during procurement to obtain professional selection advice
For complex systems, it is recommended to consult a professional valve engineer
Conduct regular maintenance and inspection to ensure the check valve operates in normal condition
5. Maintenance points: Regularly check whether the valve can be opened and closed flexibly
Monitor for abnormal sounds, such as water hammer impact
Check the sealing performance to prevent internal leakage
Lubricate the moving parts to ensure normal operation
The correct selection and installation of check valves are crucial for ensuring the safe operation of pipeline systems. Following the selection guidelines and installation specifications provided in this article can prevent various accidents caused by medium backflow, extend the service life of valves, and reduce maintenance costs.
In practical applications, it is recommended to consider specific engineering requirements and medium characteristics, and if necessary, consult professional valve technicians to ensure the optimization of the selection and installation plan.
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