When JSV valve triple-offset sealing butterfly valve in a fully open state, the butterfly plate sealing surface will be completely out of the valve seat sealing surface, and the butterfly plate seal and the valve body seal between the formation of double eccentric seal butterfly valve with the same gap,Due to the sealing surface angle offset will make the length and length of the radius of the butterfly plate to the size of the semicircle, the butterfly plate sealing surface rotation trajectory and the valve seat sealing surface to form an angle. When the disc is open, the sealing surface of the disc is immediately removed from the sealing surface of the valve seat. When the disc is closed, only in the closed moment, the butterfly plate sealing surface will contact and press the valve seat sealing surface, thus eliminating the mechanical seal of the seal and bruises. Three eccentric structure so that the closure of the butterfly plate when the seal between the two sealing surface seal pressure can be generated by the conventional valve seat elasticity coupled to the valve stem drive torque generated, not only clear the elastic material aging, failure. But also by the external drive torque changes to achieve its seal than the pressure of any adjustment, so that the sealing performance and service life has been greatly improved.
- Compared to other valves. the structure length is shorter and lighter weight
- Triple-offset structure make the valve seat and butterfly plate almost no friction, no wear and longer life. open torque is smaller, saving effort
- Triple-offset structure make the butterfly board more and more tight, better sealed, to get good leak without leakage effect
- Multi-level sealing structure of the butterfly plate seal with multi-level composite material, with metal hard seal and elastic seal of the double advantages, both in the case of low temperature and high temperature, sealing performance is reliable, no leakage
- Seal ring by the pressure plate caught in the butterfly plate, easy to install, adjust and replace
- Between the stem and the valve body with the sleeve, so that the valve open and close easily, support reliable, good strength, long life.Stem shaft end with nuts, cork pin mechanism to prevent the stem when moving
Design standard
Design basis |
GB |
API |
DIN |
Valve design standard |
JB/T 8527, GB/T 12238 |
API 609 |
BS5155 |
Face to face length |
GB/T 12221 |
API 609 |
ISO5752 |
Flange standard |
GB/T 9113.1 |
ANSI B 16.5 ANSI B 16.47 SERIES B/A |
EN 1092 |
Test and check |
GB/T 13927 |
API 598 |
ISO5208 |
Product execution standard
/ |
Design criteria |
Flange connection size |
Length of the structure |
Inspection and test |
GB |
JB/T 8527, GB/T 12238 |
GB/T 9113.1 |
GB/T 12221 |
GB/T 13927 |
API |
API 609 |
ANSI B 16.5 ANSI B 16.47 SERIES B/A |
API 609 |
API 598 |
Performance specification
Nominal pressure |
PN(Mpa) |
0.6 |
1.0 |
1.6 |
2.5 |
4.0 |
6.4 |
Test pressure |
Shell |
Mpa |
0.9 |
1.5 |
2.4 |
3.75 |
6.0 |
9.6 |
Water |
0.66 |
1.1 |
1.76 |
2.75 |
4.4 |
5.0 |
Air |
0.6 |
|
CLASS(Mpa) |
150(2 Mpa) |
300(5 Mpa) |
Test pressure |
Shell |
Mpa |
3 |
7.5 |
Water |
2.2 |
5.5 |
Air |
0.6 |
Flow coefficient Kv value
Nominal diameter |
50 |
65 |
80 |
100 |
125 |
150 |
200 |
250 |
300 |
350 |
400 |
450 |
1.6Mpa |
24.3 |
43.7 |
68.7 |
110.8 |
177.7 |
260.2 |
453 |
663.8 |
983.7 |
1325.3 |
1764.5 |
2266.4 |
2.5Mpa |
24.3 |
43.7 |
68.7 |
110.8 |
177.7 |
260.2 |
453 |
663.8 |
983.7 |
1325.3 |
1764.5 |
2266.4 |
Nominal diameter |
500 |
600 |
700 |
800 |
900 |
1000 |
1200 |
1400 |
1500 |
|
|
|
1.6Mpa |
2831 |
4721.8 |
5632.5 |
7439.4 |
9497 |
11806 |
16884 |
23208 |
26746 |
|
|
|
2.5Mpa |
|
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Product Dispay