KR20130130996A - Expansion seat valve scattering shipment particles - Google Patents

Abstract

An expansion sheet valve for scattering particulate materials is disclosed. The expansion sheet valve for scattering particulate materials is a water-cooled expansion sheet valve and includes a valve body in which a particulate material transfer path is installed inside; a ball controlling the opening and closing of the particulate material transfer path by being arranged in the particulate material transfer path and rotating; and an expansion sheet unit installed in the valve body, fixing the ball by being expanded with high pressure gas, which is supplied when the valve is blocked, and preventing particulate materials from being congested by discharging the high pressure gas supplied prior to the opening of the valve. [Reference numerals] (AA) Water;(BB) High pressure gas

Description

Powder Seat Scattering Shipment Particles

The present invention relates to a powder scattering type expansion seat valve, and more particularly, by spraying a high-pressure gas to the ball contact surface of the expansion seat in the water-cooled expansion seat valve to scatter the powder attached or accumulated around the ball contact surface of the expansion seat A sustainable powder splash type expansion seat valve.

Pipes are used for the transfer of various fluids and powders, and these pipes are generally provided with valves for controlling fluids and powders to be transferred.

Knife gate valves and butterfly valves are widely used in these valves. Knife gate valve is to vertically raise and lower the valve disc to contact the valve seat fixed to the valve body to block the flow of fluid, the butterfly valve is used in the form of coupling the valve seat to the rotating valve disk. .

In recent years, when air or the like is supplied using a valve seat made of rubber to increase airtightness, a technology capable of blocking the leakage of fluid by expanding the valve seat has been widely used.

Such an expansion seat valve may be classified into a dome valve type, a butterfly valve type, a gate valve type, and the like according to the type and operation method of the blocking disk constituting the valve. All of these expansion seat valves have a structure in which an airtight fluid is supplied to a valve seat provided to maintain airtightness to expand the valve seat and then adhered to the outer circumferential surface of a rotating hemispherical or flat block disk.

1 shows an assembly view of an example of a conventional water-cooled expansion seat valve.

As shown in FIG. 1, the expansion seat portion 1 is connected to the top of the valve housing 2.

In more detail, as shown in FIG. 1, as shown in FIG. 1, an expansion seat 3 enters an inside of the valve body 4 and a blocking disk (ball 5) is disposed adjacent thereto to supply and discharge an airtight fluid. As a result of the expansion and contraction of the valve seat, the blocking disk (ball) rotates to control the sealing and opening of the valve.

In the case of the water-cooled valve, a water cooling unit 6 for cooling is disposed.

Conventional expansion seat valve is widely used because the airtightness is maintained even when a part of the powder in the fluid passing through the valve is sandwiched between the blocking disk and the expansion seat, but when the opening and closing operation of the valve for a long time and the expansion seat and As the powder is accumulated between the blocking disks, there is a problem that the expansion sheet is damaged and the airtightness is lowered.

In addition, processes such as power plants or chemical plants, in which expansion seat valves are mainly used, are usually performed at high temperature, and thus, the powder to be transferred is also often high temperature. However, the valve seat is generally made of a material such as general rubber or fluorine rubber. There have been significant limitations, and durability issues have been pointed out.

The present invention is to solve the conventional problems as described above, and to solve the problem of expansion seat damage and airtightness decrease due to the powder accumulation in the opening and closing of the expansion seat valve and the problem of limiting the application at high temperatures.

According to an aspect of the present invention, in the water-cooled expansion seat valve, the valve body provided with a powder transport passage therein, the ball disposed to rotate in the powder transport passage to control the opening and closing of the powder transport passage, and the valve body When the valve is shut off, the powder scattering type includes an expansion sheet for tightly fixing the ball by supplying and expanding the high pressure gas to prevent the accumulation of powder by discharging the high pressure gas supplied before opening the valve. Expansion seat valves may be provided.

The expansion sheet part may be in contact with the ball according to the supply of the high-pressure gas and the cooling water flow path to which the cooling water is supplied to cool the inside of the valve heated by powder transport at high temperature and high pressure, and the expansion sheet capable of tightly fixing the ball. And a high pressure gas flow path for supplying a high pressure gas to the expansion sheet, and a high pressure gas discharge path connected to the high pressure gas flow path so that the high pressure gas discharged from the expansion sheet is injected around the ball contact surface of the expansion sheet. It may include.

The expansion sheet is made of an elastic material and may be expanded when a high pressure gas is supplied therein.

The gate valve may further include a gate valve installed at a front end of the expansion seat valve to prevent the accumulation of powder around the expansion seat by blocking the powder transport passage.

It may further include a ball operating unit coupled to the ball to adjust the rotation of the ball.

According to another aspect of the present invention, in the valve having an expansion seat valve installed in the rotary valve disk of the powder transport pipe, a gate valve is provided in front of the expansion seat valve to the gate prior to blocking the expansion seat valve By closing the valve, an integrated valve can be provided that prevents powder buildup around the expansion seat.

The expansion seat valve is disposed in the powder transport passage is rotated by the rotation of the disk to control the opening and closing of the powder transport passage, and when the valve is shut off by supplying a high-pressure gas to expand the ball tightly fixed and opening the valve By discharging the high-pressure gas supplied in advance may comprise an expansion sheet to block the surrounding powder accumulation.

The expansion sheet unit may be in contact with the ball according to whether the high pressure gas is supplied or not, the expansion sheet capable of tightly fixing the ball, a high pressure gas flow path for supplying a high pressure gas to the expansion sheet, and the high pressure gas flow path. And a high pressure gas discharge passage connected to the high pressure gas discharged from the expansion sheet so as to be injected around the ball contact surface of the expansion sheet.

Powder scattering type expansion seat valve of the present invention is a process of high temperature and high pressure by installing a gate valve for dispersing powder with a high-pressure gas discharged from the expansion sheet to the water-cooled expansion seat valve and the first block of the powder when the valve is shut off. It can be applied also to prevent expansion seat damage and airtightness deterioration due to powder accumulation in the opening and closing of the valve repeatedly.

1 is a schematic assembly diagram of a conventional water-cooled expansion seat valve.
Figure 2 is a schematic cross-sectional view of a powder scattering expansion seat valve according to an embodiment of the present invention.
Figure 3 is a schematic cross-sectional view of the gate valve portion of the powder splash type expansion seat valve according to an embodiment of the present invention.
Figure 4 is a schematic view showing a state from above the powder scattering expansion seat valve according to an embodiment of the present invention.
5 is a cross-sectional view schematically showing a closed state of the valve in the powder scattering expansion seat valve according to an embodiment of the present invention.
6 is a cross-sectional view schematically showing an open state of the valve in the powder scattering expansion seat valve according to an embodiment of the present invention.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings.

Figure 2 is a schematic cross-sectional view of a powder scattering expansion seat valve according to an embodiment of the present invention.

As shown in FIG. 2, the powder splash type expansion seat valve according to an exemplary embodiment of the present invention is a water-cooled expansion seat valve, and includes a valve body 10 having a powder transport passage therein and a powder transport passage. And the ball 20 to control the opening and closing of the powder transport passage by the rotation, and the valve body 10 is provided, and when the valve is blocked, the high pressure gas is supplied and expanded to close and secure the ball 20 before opening the valve. An expansion sheet part 30 which prevents powder accumulation by discharging the supplied high pressure gas is included.

The expansion seat part 30 is controlled by contact with the ball 20 according to whether or not the cooling water flow path 31 is supplied with cooling water to cool the inside of the valve heated by high temperature and high pressure powder transport, and whether or not high pressure gas is supplied to the ball ( An expansion sheet 32 capable of tightly fixing 20, a high pressure gas flow passage 33 for supplying a high pressure gas to the expansion sheet 32, and a high pressure gas flow passage 33, It may include a high pressure gas discharge path 34 to allow the discharged high pressure gas to be injected around the ball 20 contact surface of the expansion sheet (32).

The water-cooled expansion seat valve is a valve that can be installed to control the transport of these fluids and powders in a pipe for transporting various fluids and powders in a process such as a power plant or a chemical plant.

A ball 20 for opening and closing the powder transport passage is disposed in the valve body 10 provided with the powder transport passage for transporting the powder, and when the valve is blocked, the ball 20 blocks the powder transport passage to transport the powder. This is stopped.

The ball 20 for opening and closing the powder transport passage may be generally made of metal, but may also be made of other durable material. As shown in FIGS. 5 and 6, the ball 20 has a hemispherical shape at the top thereof to be in close contact with the expansion seat 32 to block the powder transport passage, and when the valve is opened, the ball 20 is rotated 90 °. The interior is empty to form a sufficient powder transport passage in the state, and the shape is cut out in the hemispherical portion that can interfere with the flow of the powder transport passage. This ball 20 may also be replaced by a planar or other curved blocking disk that may be in close contact with the expansion sheet 32 and may form a powder transport passage when rotated.

However, when the transport pressure of the powder is strong, such a ball 20 or a blocking disk may create a gap through which the powder may escape, and thus, the powder may not be completely blocked, and an expansion that may increase airtightness may prevent such a gap from occurring. The sheet 32 is provided.

The expansion sheet 32 may be made of an elastic material that can expand when a high pressure gas is supplied therein. That is, when the high pressure gas is supplied to the expansion sheet 32 through the high pressure gas flow path 33, the outer surface of the expansion sheet 32 is in close contact with the ball 20 while the expansion sheet 32 is expanded by the high pressure gas. The contact completely blocks the powder transport passage.

Representative elastic material that can be produced by the expansion sheet 32 is rubber. General rubber is about 70 to 80 ℃, Viton (fluorine rubber) material is known to be operating temperature is less than 150 ℃, the expansion seat valve as described above is mainly used in processes such as power plants or chemical plants As a pipe, there was a significant application constraint in high temperature processes.

In order to solve the application constraints to such a high temperature process, the present embodiment employs a water-cooled expansion seat valve.

The water-cooled expansion seat valve is provided with a cooling water flow path 31 through which cooling water is supplied to cool the inside of the valve to which the expansion seat 32 is fastened so that the inside of the valve can be continuously cooled. Application constraints on high temperature processes can be eliminated.

As the ball 20 is rotated in accordance with the supply and discharge of the high pressure gas to the expansion seat 32 as described above, the powder transport passage is opened and closed, and the powder is transported, and the valve is connected to the cooling water flow path 31 provided inside the valve. The interior is constantly cooled. As the opening and closing of the powder transport passage is repeated, a portion of the transported powder may be attached to the expansion sheet 32 or accumulated around the expansion sheet 32, and the powder stack may be expanded even when a high pressure gas is supplied. And ball 20 may be prevented from being in full contact and may cause damage to the expansion sheet 32 and should be removed, for this purpose using the high pressure gas supplied to the expansion sheet 32.

That is, when the valve is opened, the high pressure gas supplied to the expansion seat 32 is discharged to the high pressure gas flow path 33, and then the contact surface of the ball 20 of the expansion seat 32 through the high pressure gas discharge path 34 connected thereto. While being discharged to the surroundings by scattering the powder by the flow of gas to prevent the adhesion and accumulation of powder.

The present embodiment may further include a gate valve 40 installed at the front end of the expansion seat valve to block the powder accumulation around the expansion seat 32 by blocking before the powder transport passage.

The gate valve 40 may be provided with a gate valve operation unit (not shown) for opening and closing the powder transport passage of the gate valve 40.

When the powder scattering expansion seat valve is blocked to close the powder transport passage, the gate valve 40 is blocked before the expansion seat valve is blocked, thereby primarily blocking the flow of powder into the powder transport passage provided inside the valve, and then 20 rotates to block the powder transport passage, and the high-pressure gas is supplied to the expansion sheet 32 so that the expanded expansion sheet 32 tightly fixes the ball 20 or the blocking disk to close the powder transportation passage. .

As such, a cross section of the valve in which the powder transport passage is blocked by the blocking of the powder scattering expansion seat valve according to the present embodiment is schematically illustrated in FIG. 5.

Opening the valve to open the powder transport passage discharges the high pressure gas supplied in the expansion seat 32 prior to opening the expansion seat valve, and the discharged high pressure gas passes through the expansion seat 32 through the high pressure gas discharge path 34. While being discharged around the contact surface of the ball 20, the powder around the sheet is scattered and removed. After the powder is removed, a space opens between the expanded seat 32 and the ball 20 contracted by the discharge of the high pressure gas, and the powder transport resumes when the powder transport passage is opened while the ball 20 freely moves. do.

Thus, the cross section of the valve in which the powder scattering expansion seat valve is opened and the powder is transported through the powder transport passage is schematically shown in FIG. 6.

The present embodiment may further include a ball operation unit 50 coupled to the ball 20 to adjust the rotation of the ball 20.

Ball operation unit 50 is connected to one or both ends of the ball 20, by rotating the ball 20 by rotating to control the opening and closing of the powder transport passage.

The ball operation unit 50 may include a controller (not shown) for controlling the rotational movement.

The inlet of the high pressure gas flow path 33 may be provided with a pressure control unit for measuring and adjusting the pressure of the high pressure gas inside the valve.

In addition, the cooling water flow path 31 may be connected to the outside of the valve and the tube so that the cooling water can be continuously supplied and discharged.

According to another embodiment of the present invention, a valve having an expansion seat valve installed in a rotary valve disk of a powder transport pipe, wherein a gate valve 40 is installed in front of the expansion seat valve, so that the gate is blocked before the expansion seat valve is shut off. By blocking the valve 40, an integrated valve may be provided to prevent powder accumulation around the expansion seat 32.

In the integrated valve, the expansion seat valve is disposed in the powder transport passage and rotated by the rotation of the disk to regulate the opening and closing of the powder transport passage, and when the valve is closed, the expansion seat valve expands by the high pressure gas supplied. It may include an expansion seat portion 30 for tightly fixing the 20 and blocking the powder accumulation around by discharging the high pressure gas supplied prior to opening the valve.

In the integrated valve, the expansion seat portion 30 is in contact with the ball 20 in accordance with the supply of the high pressure gas is adjusted by the expansion seat 32 that can securely hold the ball 20 and the high pressure gas to the expansion seat A high pressure gas flow path 33 for supplying a high pressure gas and a high pressure gas connected to the high pressure gas flow path 33 so that the high pressure gas discharged from the expansion sheet 32 is injected around the contact surface of the ball 20 of the expansion sheet 32. The discharge path 34 may be included.

2 to 6 will be described briefly the operating state of the powder scattering expansion seat valve according to an embodiment of the present invention.

When the powder scattering expansion seat valve according to the present embodiment is blocked in order to close the powder transport passage, the gate valve 40 is blocked before the expansion seat valve is blocked, so that the powder flows to the powder transport passage provided inside the valve. Then, the ball 20 is rotated by the rotation of the ball operating part 50 to block the powder transport passage, and the expanded expansion sheet 32 is expanded by supplying the high pressure gas to the expansion sheet 32. ), The powder transport passage is sealed.

Opening the valve to open the powder transport passage discharges the high pressure gas supplied in the expansion seat 32 prior to opening the expansion seat valve, and the discharged high pressure gas passes through the expansion seat 32 through the high pressure gas discharge path 34. While being discharged around the contact surface of the ball 20, the powder around the sheet is scattered and removed. After the powder is removed, a space is opened between the expansion sheet 32 and the ball 20 contracted by the discharge of the high pressure gas, and the ball 20 freely moved is rotated in accordance with the rotation of the ball operating part 50. The powder transport resumes when the powder transport passage is opened.

As described above, the powder scattering expansion seat valve of the present embodiment may be applied to a high temperature process by adopting a water-cooled expansion seat valve, and the contact surface of the ball 20 of the expansion seat 32 with the high pressure gas discharged from the expansion seat. Peripheral powder can be scattered. In addition, by installing the gate valve 40 to block the powder primarily when the valve is shut off, it is possible to prevent the expansion seat damage and airtightness degradation due to the powder accumulation that may occur during the opening and closing of the valve.

Therefore, the powder scattering type expansion seat valve according to the present embodiment is excellent in durability and can be used semi-permanently, thereby improving the economics and manageability of the process or plant employing the same.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

10: Valve body
20: Ball
30: expansion seat
31: coolant flow path
32: inflated sheet
33: high pressure gas flow path
34: high pressure gas exhaust furnace
40: gate valve
50: ball actuator

Claims (8)

A water cooled expansion seat valve,
A valve body provided with a powder transport passage therein;
A ball arranged in the powder transport passage to rotate to control opening and closing of the powder transport passage; And
It is provided in the valve body and when the valve is shut off by supplying a high pressure gas to expand and secure the ball tightly and discharge the high pressure gas supplied prior to opening the valve characterized in that it comprises an expansion seat portion to prevent powder accumulation Powder scattering expansion seat valve. The method of claim 1, wherein the expansion sheet portion
A cooling water flow path supplied with cooling water for cooling the inside of the valve heated by powder transport at high temperature and high pressure;
An expansion sheet capable of tightly fixing the ball by controlling contact with the ball according to whether high pressure gas is supplied;
A high pressure gas flow path for supplying a high pressure gas to the expansion sheet; And
And a high pressure gas discharge passage connected to the high pressure gas flow passage to allow high pressure gas discharged from the expansion sheet to be injected around the ball contact surface of the expansion sheet. 3. The powder scattering expansion seat valve of claim 2, wherein the expansion seat is made of an elastic material so that the expansion seat can be expanded when a high pressure gas is supplied therein. The method of claim 1,
And a gate valve installed at the front end of the expansion seat valve to block the powder accumulation around the expansion seat by blocking the powder transport passage prior to the blocking of the powder transport passage. The method of claim 1,
Powder scattering expansion seat valve coupled to the ball further comprises a ball operating portion for adjusting the rotation of the ball. In the valve having an expansion seat valve installed in the rotary valve disk of the pipe for powder transport,
A gate valve is provided in front of the expansion seat valve to prevent the accumulation of powder around the expansion seat by blocking the gate valve prior to blocking the expansion seat valve. 7. The expansion seat valve of claim 6 wherein the expansion seat valve
A ball disposed in the powder transport passage to rotate by the rotation of the disk to control the opening and closing of the powder transport passage; And
And a swelling seat portion which closes and secures the ball by supplying and expanding high pressure gas when the valve is shut off, and blocks surrounding powder accumulation by discharging the high pressure gas supplied prior to opening the valve. The method of claim 6, wherein the expansion sheet portion
An expansion sheet capable of tightly fixing the ball by controlling contact with the ball according to whether high pressure gas is supplied;
A high pressure gas flow path for supplying a high pressure gas to the expansion sheet; And
And a high pressure gas discharge passage connected to the high pressure gas flow path to discharge high pressure gas discharged from the expansion sheet to the ball contact surface of the expansion sheet.

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