Product classification of Kaiweixi

KAI WEI XI CHAN PIN FEN LEI

H61Y Power Plant High-Temperature High-Pressure Welded Check Valve
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Phone：+86（577）6730 7899
Mobile：+86 189 6779 6135
Fax：+86（577）6738 7099
Email：Yannie@kaiweixi.com
Address：No. 1, Linxia Road, Sanqiao Industrial Zone, Oubei Street, Yongjia County, Zhejiang Province，china
Website：https://www.kaiweixi.com

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H61Y Power Plant High-Temperature High-Pressure Welded Check Valve

Model：H61Y-250C/H61Y-320C/P54140V/P54170V/P57170V
Specification：DN10-DN100
Temperature：≤550 ℃
Medium： Water, Oil , Steam

Pressure：20Mpa-32Mpa
Connection method： welded
Driving method：automated
Material： Carbon Steel, forged steel, Cr-Mo-V Steel

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H61Y Power Plant High-Temperature High-Pressure Welded Check ValveOverview

H61Y Power Plant High-Temperature High-Pressure Welded Check Valve Overview

The H61Y Power Plant High-Temperature High-Pressure Welded Check Valve is a high-performance valve specifically designed for critical systems in power plants, featuring welded end connections and a swing-type structure. The valve body and key components are made of high-temperature-resistant materials such as chromium-molybdenum alloy steel or stainless steel, typically conforming to ASTM A182 standards.Internally, the valve employs a metal hard seal overlay-welded with hard alloys. It opens under the pressure of forward-flowing medium and closes rapidly and automatically under the disc's own weight and reverse pressure.Designed for ultra-high parameter applications such as main steam lines and high-temperature feedwater pipelines, this valve must be permanently welded to the pipeline using stringent welding procedures to eliminate any risk of leakage. It serves as a critical component for ensuring the safety of core equipment in power plants, including boilers and turbines, by preventing medium backflow and mitigating water hammer effects in the system.

H61Y Power Plant High-Temperature High-Pressure Welded Check Valve Product Drawing

H61Y Power Plant High-Temperature High-Pressure Welded Check ValveCharacteristic

H61Y Power Plant High-Temperature High-Pressure Welded Check Valve Features

1. Extreme Operating Condition Adaptability

Made from high-quality alloy steel, it can withstand high temperatures and pressures (Class 2500 or higher) and is specifically designed for demanding environments such as supercritical and ultra-supercritical units in power plants.

2. Fully Welded Leak-proof Structure

The valve features butt-weld ends that are permanently welded to the pipeline, fundamentally eliminating the risk of leakage at connection points and ensuring absolute sealing integrity under high pressure and temperature.

3. High-Performance Hard Seal

The sealing surfaces of the disc and seat are overlay-welded with cobalt-based or nickel-based hard alloys, providing exceptional wear resistance, erosion resistance, and high-temperature stability to ensure reliable sealing during long-term operation.

4. Safety, Reliability, and Long Service Life

The structural design fully accounts for thermal stress and pressure impacts, ensuring smooth disc operation. The valve typically complies with stringent fireproof and explosion-proof standards, with a design lifespan aligned with that of the main equipment.

5. Specialized Manufacturing and High Standards

The entire process—from material selection, casting, machining, welding, and heat treatment to inspection—adheres to international standards such as ASME and API, as well as specific power plant regulations. The comprehensive quality traceability system ensures extremely high reliability requirements are met.

H61Y Power Plant High-Temperature High-Pressure Welded Check Valvestructure principle

H61Y Power Plant High-Temperature High-Pressure Welded Check Valve Structure Diagram

Parts Name Material List

NO.	Name	Material
7	bonnet	Carbon Steel, Alloy Steel, Chromium-Molybdenum Steel
6	seal surface	Hard Alloy
5	pin	Carbon Steel, Alloy Steel, Chromium-Molybdenum Steel
4	packing	graphite
3	disc	Carbon Steel, Alloy Steel, Chromium-Molybdenum Steel
2	spring	Spring Steel
1	body	Carbon Steel, Alloy Steel, Chromium-Molybdenum Steel

H61Y Power Plant High-Temperature High-Pressure Welded Check Valvetechnology parameter

Performance Specification
Nominal Pressure	20/25/32	Mpa
Shell Test	30/37.5/48
Seal Test	22/27.5/36
Suitable Temp.	≤550	℃

H61Y Power Plant High-Temperature High-Pressure Welded Check Valvestandard size

Dimensions Standard Requirements

1. The structural length of the valve shall conform to the standard GB/T 15188.1.

2. The connecting flange shall conform to the standard GB/T 12224.

H61Y Power Plant High-Temperature High-Pressure Welded Check Valve View Drawing

H61Y Power Plant High-Temperature High-Pressure Welded Check Valve Dimensions Table

GB 25.0MPa
DN	10	15	20	25	32	40	50	65	80	100
L	120	170	170	170	200	230	350	326	470	560
H	155	200	210	210	245	270	300	410	370	420
Wt	2.5	8.5	9	10	14	21	28	-	-	-
GB 32.0MPa
DN	10	15	20	25	32	40	50	65	80	100
L	120	170	170	170	200	230	350	326	470	560
H	155	200	210	210	245	270	300	410	370	420
Wt	2.5	8.5	9	10	14	21	28	-	-	-
P54140V
DN	10	15	20	25	32	40	50	65	80	100
L	120	170	170	170	200	230	350	326	470	560
H	155	200	210	210	245	270	300	410	370	420
Wt	2.5	8.5	9	10	14	21	28	-	-	一
P54170V
DN	10	15	20	25	32	40	50	65	80	100
L	120	170	170	170	200	230	350	326	470	560
H	155	200	210	210	245	270	300	410	370	420
Wt	2.5	8.	9	10	14	21	28	-	一	-
P57170V
DN	10	15	20	25	32	40	50	65	80	100
L	120	170	170	170	200	230	350	326	470	560
H	155	200	210	210	245	270	300	410	370	420
Wt	2.5	8.5	9	10	14	21	28	-	-	-

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

H61Y Power Plant High-Temperature High-Pressure Welded Check Valve

More Lift Check Valve>>

More check valve>>

More valve>>

H61Y Power Plant High-Temperature High-Pressure Welded Check Valve