The opening and closing parts of H44H/H44Y/H44F cast steel flange swing check valves rely on the flow and force of the medium to open or close on their own to prevent medium back flow. Check valves belong to the automatic valve category and are mainly used in pipelines with unidirectional flow of media. They only allow the media to flow in one direction to prevent accidents caused by sudden pump stop or other reasons causing back flow of pipeline media.
Used for clean media with a nominal pressure of PN1.6~6.4MPa and a working temperature of -29~550 ¡æ. It is not suitable for media containing solid particles and high viscosity. Widely used in pipelines in various working conditions such as petroleum, chemical, pharmaceutical, and power industries. It has the advantages of simple structure, reliable operation, and convenient maintenance.
Explanation for the preparation of check valve models:
Model preparation |
Valve type |
Drive type |
Connection form |
Structural form |
Seal material |
Nominal pressure |
Valve body material |
H:Check valve |
Do not write in this column |
4:Flange |
Swing single lobe type |
T: Copper alloy
X: Rubber
F: Fluoroplastics
H: Alloy steel
Y: Hard alloy
J: Rubber lining
W: Ontology |
-10:PN1.0MPa
-16:PN1.6MPa
-25:PN2.5MPa
-40:PN4.0MPa
-64:PN6.4MPa
-150LB:Class150
-300LB:Class300
-600LB:Class600 |
C: Carbon steel
H: Cr13 series steel
I: Chromium molybdenum steel
K: Malleable cast iron
P: Chromium nickel stainless steel
Q: Ductile iron
R: Chromium nickel molybdenum stainless steel
T: Copper
TI: Titanium and titanium alloys
V: Chromium molybdenum vanadium steel
Z: Gray cast iron |
Product features:
- The selection of materials is meticulous, in accordance with relevant domestic and foreign standards, and the overall quality of the materials is high.
- The swing check valve is a check valve with strong applicability and can be used in various vertical and horizontal installation methods.
- The product is designed and manufactured according to the national standard GB/T12235.
- Various piping flange standards and flange sealing types can be used to meet various engineering needs and user requirements.
- The valve body material variety is complete, and the gasket can be reasonably selected according to actual working conditions or user requirements, which can be suitable for various pressure, temperature, and medium working conditions.
Execution standards:
Design and manufacturing: GB/T12235
Structural length: GB/T12221
Flange standard: JB/T79
Inspection and testing: JB/T9092
Logo: GB/T12220
Supply goods: JB/T7928
Product parts material:
Materials of components for H44H/H44Y/H44F cast steel flange swing check valve |
Valve body |
Valve cover |
Valve disk |
Valve seat |
Applicable medium |
Applicable temperature |
(¡Ü¡æ) |
WCB |
WCB+D507Mo |
WCB+D577 |
Water,steam,oil |
425 |
ZG1Cr18Ni9Ti |
0Cr18Ni9+ |
0Cr18Ni9+ |
Nitric acid |
200 |
Stellite12 |
Stellite6 |
ZG1Cr18Ni2Mo2Ti |
CF8M+Stellite12 |
ZG1Cr18Ni2Mo2Ti |
Phosphoric acid, acetic acid, mixed acid |
200 |
ZG00Cr17Ni14Mo2 |
CF3M+Stellite12 |
CF3M+Stellite6 |
Urea, ammonium formate solution, phosphoric acid |
200 |
ZG1Cr5Mo |
ZG1Cr5Mo+ |
ZG1Cr5Mo+ |
Water,oil,steam |
550 |
Stellite12 |
Stellite6 |
Performance parameter:
Performance parameters of H44H/H44Y/H44F cast steel flange swing check valve |
Nominal pressure£¨ MPa £© |
1.6 |
2.5 |
4.0 |
6.4 |
10.0 |
Shell test |
2.4 |
3.8 |
6.0 |
9.6 |
15.0 |
Seal test |
1.8 |
2.8 |
4.4 |
7.1 |
11.0 |
Valve body material |
WCB(C) |
CF8(P) |
CF 8M (R) |
WC6 |
WC9 |
Working temperature |
¡Ü 425 |
¡Ü 100 |
¡Ü 100 |
¡Ü 550 |
¡Ü 550 |
Applicable medium |
Water,steam,oil |
Nitric acid |
Acetic acid |
Water,steam |
Water,steam |
Product external size and weight:
Main external connection dimensions of H44H/H44Y/H44F cast steel flange swing check valve
Model |
Nominal diameter DN£¨mm£© |
Size£¨mm£© |
Weight£¨kg£© |
L |
D |
D1 |
D2 |
b-f |
Z-Φd |
H |
H44H/H44Y/H44F |
40 |
200 |
145 |
110 |
85 |
3/18 |
4/18 |
114 |
10 |
50 |
230 |
160 |
125 |
100 |
3/20 |
4/18 |
128 |
14 |
65 |
290 |
180 |
145 |
120 |
3/20 |
4/18 |
129 |
18 |
80 |
310 |
195 |
160 |
135 |
3/22 |
4/18 |
152 |
26 |
100 |
350 |
215 |
180 |
155 |
3/22 |
8/18 |
159 |
30.5 |
125 |
400 |
245 |
210 |
185 |
3/24 |
8/18 |
188 |
48 |
150 |
480 |
280 |
240 |
210 |
3/24 |
8/23 |
224 |
66 |
200 |
495 |
335 |
295 |
265 |
3/26 |
3/26 |
252 |
95 |
250 |
622 |
398 |
350 |
320 |
3/28 |
3/28 |
285 |
142 |
300 |
698 |
440 |
400 |
368 |
4/28 |
4/28 |
351 |
200 |
Operation of check valve:
The operation of check valves should avoid the following situations:
- Excessive impact pressure caused by the closure of the check valve.
- The valve closing component quickly oscillates.
To avoid excessive shock pressure caused by closing the check valve, the valve must close quickly. To prevent the formation of excessive back flow velocity. The back flow velocity is the reason for the formation of shock pressure, so the closing speed of the check valve should be correctly matched with the attenuation velocity of the downstream medium.
However, the attenuation rate of the downstream medium may vary greatly in liquid systems. For example, if a liquid system uses a set of parallel pumps and one of them suddenly fails, the check valve at the outlet of the failed pump must be closed almost simultaneously. In addition, if there is only one pump in the liquid system and this pump suddenly fails, such as if the delivery pipe is long and the back pressure and pumping head at the outlet end are low, it is better to close the check valve with a smaller speed.
If the moving parts of the check valve wear out too quickly, it can lead to premature failure of the valve. To prevent this situation from happening, it is necessary to avoid the rapid oscillation action of the closing component. This rapid oscillation action of the closing component can be avoided by selecting a valve that forces the closing component to stably respond to the medium velocity that stops flowing.
This ideal situation is not often obtainable. For example, if the velocity variation range of the downstream medium is large. The minimum flow rate is not enough to force the closing component to stop steadily. In this case, the movement of the closing member can be within a certain range of its movement stroke
Use dampers inside the enclosure to suppress it. If the medium is pulsating flow, the check valve should be placed as far away from the pulsating source as possible. The rapid oscillation of the closing component may also be caused by extreme medium disturbance. In cases where this occurs, check valves should be installed.In the place where the disturbance of the medium is minimal.
Therefore, the first step in choosing a check valve is to understand the operating conditions under which the check valve is located.
Installation precautions for check valves:
The installation of check valves should pay attention to the following matters:
- Do not let the check valve bear weight in the pipeline. Large check valves should be supported independently to prevent them from being affected by the pressure generated by the pipeline system.
- During installation, pay attention to the direction of medium flow, which should be consistent with the arrow direction indicated on the valve body.
- Lift type vertical disc check valves should be installed on vertical pipelines.
- The lifting type horizontal disc check valve should be installed on the horizontal pipeline.
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