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KAI WEI XI CHAN PIN FEN LEI

H42W Vertical Check Valve
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Fax：+86（577）6738 7099
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Address：No. 1, Linxia Road, Sanqiao Industrial Zone, Oubei Street, Yongjia County, Zhejiang Province，china
Website：https://www.kaiweixi.com

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H42W Vertical Check Valve

Model：H42W-16C/H42W-25P/H42W-40P/H42W-40R
Specification：DN25-200
Temperature：≤ 425 ℃
Medium：Water, Oil , Weakly Corrosive Media

Pressure：PN16,PN25,PN40
Connection method：Flange
Driving method：automated
Material：Carbon Steel, Stainless Steel

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H42W Vertical Check ValveOverview

H42W Vertical Check Valve Overview

The H42W Vertical Check Valve is an automatic valve specifically designed for vertical pipelines, featuring flanged connections and a lift-type structure. The valve body is typically constructed from cast steel or stainless steel, with the internal disc operating through vertical movement to achieve opening and closing.This valve must be installed on vertical pipelines where the medium flows upward from bottom to top. Its working principle relies on the upward flow pressure of the medium to overcome the disc's weight and spring force (if equipped) for opening. When the medium pressure drops or backflow occurs, the disc rapidly returns under its own weight and spring assistance to achieve closure, thereby preventing reverse flow of the medium.Designed specifically to address backflow prevention in vertical pipelines, it is widely used in vertical pipeline sections of building water supply systems, HVAC systems, industrial circulating water systems, and pump discharge lines, serving as a critical component to ensure unidirectional flow in the system.

H42W Vertical Check Valve Product Image

H42W Vertical Check ValveCharacteristic

H42W Vertical Check Valve Features

1. Strict Vertical Installation Design

Specifically engineered for vertical pipelines, this valve must be installed in pipelines where the medium flows upward from bottom to top. The disc’s lifting direction aligns with gravity, ensuring reliable closure under its own weight.

2. Reliable Closure and Sealing Performance

Typically equipped with auxiliary springs or guide rod mechanisms, the valve combines disc weight with these features to ensure rapid and tight closure when pumps stop or pressure drops. This effectively prevents medium backflow and mitigates water hammer.

3. Compact Structure for Space Saving

Optimized for vertical pipeline layouts, the valve’s compact design eliminates the need for additional horizontal space required by horizontally installed check valves, simplifying pipeline arrangements.

4. Relatively Easy Maintenance

Compared to some specialized check valve designs, the structure of this valve is relatively simple. Inspection and maintenance are generally straightforward during system shutdowns, and some models may support online maintenance.

5. Clear Application Scope

Suitable for unidirectional flow control of non-highly corrosive media such as water, steam, and oil products in vertical pipelines. Its performance heavily depends on correct installation orientation, so pipeline layout and flow direction must be clearly identified during selection.

H42W Vertical Check Valvestructure principle

H42W Vertical Check Valve Structure Diagram

Parts Name Material List

NO.	Name	Material
4	disc	Carbon Steel, Chromium-Nickel-Titanium Stainless Steel
3	seal surface	Carbon Steel, Chromium-Nickel-Titanium Stainless Steel
2	pilot valve	Carbon Steel, Chromium-Nickel-Titanium Stainless Steel
1	body	Carbon Steel, Chromium-Nickel-Titanium Stainless Steel

H42W Vertical Check Valvetechnology parameter

Performance Specification
Nominal Pressure	1.6/2.5/4	Mpa
Shell Test	2.4/3.75/6
Seal Test	1.76/2.75/4.4
Suitable Temp.	≤425	℃

H42W Vertical Check Valvestandard size

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 GB/T 17241.6.

H42W Vertical Check Valve View Drawing

H42W Vertical Check Valve Dimensions Table

公称通径DN	L	D	D1	D2	b	f	Z-фd
25	115	115	85	65	16	2	4-ф14
32	120	135	100	78	18	3	4-ф18
40	130	145	110	85	18	3	4-ф18
50	140	160	125	100	20	3	4-ф18
65	160	180	145	120	22	3	8-ф18
80	185	195	160	135	22	3	8-ф18
100	210	230	190	160	24	3	8-ф23
125	250	270	220	168	28	3	8-ф25
150	300	300	250	218	30	3	8-ф25
200	380	360	310	278	34	3	12-ф25

Articles related to technology research and development

Slow-closing wafer check valve patent

The utility model provides a slow-closing wafer check valve, which includes a valve body, a valve disc, a valve shaft, and a torsion spring sleeved on the valve shaft. The valve body is provided with a medium channel for medium circulation in the axial direction, which includes an inlet end and an outlet end. The valve disc, valve shaft, and torsion spring are symmetrically arranged in two groups relative to the center of the valve body. The utility model further includes a damping device located at the inlet end, which includes a cylinder inserted on the valve body, a piston rod located inside the cylinder, a spring, and a cover connected to the outer end of the cylinder. The cylinder is provided with a first cavity and a second cavity that are connected and communicated. The cross-section of the second cavity is square, and its cross-sectional area is larger than that of the first cavity. One end of the piston rod located inside the medium channel is provided with a movable block. The utility model has low noise and technical characteristics of quick opening, slow closing, and water hammer elimination, enabling light-load pump start-up and preventing the generation of water hammer during pump shutdown.
1. A slow-closing wafer check valve, comprising a valve body, a valve disc, a valve shaft, and a torsion spring sleeved on the valve shaft. The valve body is provided with a medium passage for medium circulation in the axial direction, and the medium passage includes an inlet end and an outlet end. The valve disc, valve shaft, and torsion spring are symmetrically arranged in two groups relative to the center of the valve body. The valve also comprises a damping device located at the inlet end. The damping device includes a cylinder inserted on the valve body, a piston rod located inside the cylinder, a spring, and a cover connected to the outer end of the cylinder. The cylinder is provided with a first cavity and a second cavity that are connected and communicated. The cross-section of the second cavity is square, and the cross-sectional area of the second cavity is larger than that of the first cavity. One end of the piston rod is located inside the second cavity, and the other end penetrates through the first cavity and is located inside the medium passage. The end of the piston rod located inside the medium passage is provided with a movable block, and the end of the piston rod located inside the second cavity is provided with an external thread. The second cavity is provided with a limit plate that is adapted to and threadedly connected with the piston rod. The spring is sleeved on the piston rod, with one end abutting against the limit plate and the other end abutting against the inner wall of the second cavity. The side of the valve disc facing the piston rod is provided with a driving block that cooperates with the movable block. During the closing process of the valve disc, the side of the driving block facing the center of the valve body cooperates with the movable block to achieve displacement of the piston rod relative to the cylinder towards the center of the valve body. The damping device is symmetrically arranged in two groups relative to the center of the valve body.
2. A slow-closing wafer check valve according to claim 1, characterized in that a square hole is axially provided at the end of the piston rod located in the second cavity, an adjuster is inserted at a position on the cover corresponding to the square hole, a driving rod adapted to the square hole is provided at the end of the adjuster, and the adjuster is rotatable relative to the cover.
3. A slow-closing wafer check valve according to claim 2, characterized in that a limit slot is provided at the connection between the cover and the regulator, and a limit mechanism is arranged inside the limit slot. The limit mechanism comprises a ball, a tower spring connected to the ball, and a positioning column for fixing the tower spring. At least four engaging slots adapted to the ball are provided circumferentially at the connection between the regulator and the cover.
4. A slow-closing wafer check valve according to claim 3, characterized in that the top edge of the engaging groove is provided with a rounded corner.
5. A slow-closing wafer check valve according to claim 1, characterized in that the valve body is provided with a stepped groove adapted to the cylinder body.
6. A slow-closing wafer check valve according to claim 5, characterized in that a sealing ring is sleeved at the connection between the cylinder and the valve body.
7. A slow-closing wafer check valve according to claim 1, characterized in that the valve disc is provided with a build-up welding layer that is sealed with the valve body. 8. A slow-closing wafer check valve according to claim 7, characterized in that one side of the build-up welding layer is provided with vulcanized rubber that is sealed with the valve body.

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Product classification of Kaiweixi

KAI WEI XI CHAN PIN FEN LEI

H42W Vertical Check Valve

More Lift Check Valve>>

More check valve>>

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H42W Vertical Check Valve