KR100287815B1 - Butterfly valve - Google Patents

Abstract

According to the present invention, when the valve disc closes the fluid passage by rotating the valve shaft, the roller pin installed on the valve side moves the airtight holding ring installed on the valve shaft in the axial direction to open the through hole portion of the rubber seat ring into which the valve shaft is inserted. By providing a butterfly valve through which the through-hole closes the valve shaft to the pressure of the fluid and completely prevents the fluid from leaking through the hollow hole of the valve body, thereby greatly improving the airtightness to the valve shaft. A valve body having a fluid passage through which the fluid flows in the other direction, a valve disc for opening or closing the fluid passage of the valve body, a valve shaft for rotating the valve disc in the fluid passage of the valve body, The valve disc is kept airtight with the valve body and the valve disc when the fluid passage of the valve body is closed. A key is a butterfly valve having a rubber seat ring, which is installed on the valve shaft through a hollow hole of the valve body in which the valve shaft is installed, so as to be linearly movable in the axial direction, the upper surface of which is opposed to each other. A cam surface formed by a tapered portion is formed, and a plurality of airtight holding portions whose lower surfaces are in contact with the periphery of the through-holes of the rubber seat ring are provided in plural numbers so as to face the copper ring and the valve shaft at right angles to the axial direction. It is rotated together and positioned on the cam surface of the hermetic holding ring is a roller pin characterized by consisting of a roller pin to seal the valve shaft direction of the rubber seat ring when the valve disc is closed by linearly moving the hermetic holding ring in accordance with the rotation of the valve shaft. .

Description

Butterfly valve

The present invention relates to a butterfly valve, in particular, the valve shaft through the valve body to install the airtight holding ring to the linear movement and the valve shaft to install the roller pin to linearly move the airtight holding ring to the butterfly valve of the When the flow path is closed (closed), the roller pin moves the airtight holding ring to keep the rubber seat ring in close contact with the through hole so that airtightness can be maintained in the axial direction of the valve shaft. It is related to the butterfly valve which makes it possible to keep the air tightly.

In general, a butterfly valve is installed on a passage through which a fluid, for example, water, oil, or gas, flows and is used to open or close the flow of a fluid, and has a feature of using less installation space than other valves. have.

1 is a partial cross-sectional view of a conventional butterfly valve is shown in a perspective view.

As shown in the drawing, the butterfly valve includes a valve body 10 having a fluid passage 11 therethrough so that fluid flows from one side to the other, and the fluid passage 11 of the valve body 10. Opening or closing valve disk 30 and the valve disk 30 and the plurality of bolts 23 are fastened to rotate the valve disk 30 in the fluid passage 11 of the valve body 10. The valve shaft 20 and the fluid passage 11 are installed in the inner diameter so that the valve disc 30 is closed when the fluid passage 11 of the valve body 10 is closed. Rubber seat ring 40 to maintain the airtight forms a major component.

In addition, the packing shaft 21 and the bush 22 are installed in the valve shaft 20 installed through the hollow hole 12 of the valve body 10 to maintain the airtight in the axial direction.

On the other hand, the upper end of the valve shaft 20 can be manually or automatically rotated by the valve shaft 20 to open or close the valve disc 30, the conventional handle (lever) or operating unit (drive means) not shown This is installed.

In the drawings, reference numeral 13 denotes a flange portion, and 14 denotes a bolt hole formed in the flange portion 13 to connect the piping material to both sides of the flange portion.

In the conventional butterfly valve configured as described above, as shown in FIG. 1, the flow of fluid is maintained when the valve disc 30 is rotated by 90 degrees with respect to the radial direction of the fluid passage 11 in the valve body 10. It is completely open.

That is, the valve disk 30 is the maximum of the flow rate of the fluid in the fully open state of the fluid passage (11).

On the other hand, when the valve shaft 20 is rotated 90 degrees by the operation unit (not shown) in the above state, the valve disk 30 completely closes the fluid passage 11 of the valve body 10, the butterfly valve The flow of the fluid that flowed through is blocked and the outer circumferential surface of the valve disc 30 is brought into close contact with the inner circumferential surface of the rubber seat ring 40.

Meanwhile, as the valve disc 30 is in close contact with the rubber seat ring 40 to block the flow of the fluid, a high pressure is applied to the fluid passage 11. The shaft 20 flows into the hollow hole 12 of the valve body 10 through the through hole 41 of the rubber seat ring 40 through which the fluid flowing through the hollow hole 12 passes. 12 is blocked by the packing 21 is installed.

However, when the fluid flow 11 is closed by the valve disk 30 to block the flow of the fluid as described above, when the blocking pressure is higher than the allowable pressure, the hollow hole (through the through hole 41) The fluid flowing to 12 reaches the packing 21 and causes outflow problems.

In particular, as the valve shaft 20 reciprocatingly rotates and wears the packing 21 according to the repeated opening / closing operation of the valve disc 30, the fluid leakage through the packing 21 becomes more serious. In particular, when installed in the pipeline to control the gas tightness of dangerous gases, it may cause an accident caused by the outflow of gas.

The present invention has been made to solve the problems of the prior art as described above, when the valve disc to close the fluid passage by rotating the valve shaft, the roller pin installed on the valve shaft in the axial direction of the airtight holding ring installed on the valve shaft By moving and compressing the through-hole of the rubber seat ring with the valve shaft inserted, the through-hole closes the valve shaft even at the high pressure of the fluid, completely preventing the fluid from leaking through the hollow hole in the valve body, and greatly improving airtightness to the valve shaft. It is an object of the present invention to provide a butterfly valve.

In order to achieve the above object, the present invention provides a valve body having a fluid passage through which the fluid flows from one side to the other, a valve disc for opening or closing a fluid passage of the valve body, and the valve disc. The valve in the butterfly valve having a valve shaft for rotating in the fluid passage of the valve body, and the rubber seat ring for maintaining the air tightness of the valve body and the valve disk when the valve disk is closed the fluid passage of the valve body. Sliding is installed in the valve shaft through the hollow hole of the valve body is installed shaft is installed so as to linearly move in the axial direction, the upper surface is formed with the cam surface by the tapered portion facing each other, the lower surface is the rubber seat An airtight movable ring contacted with a periphery of the through hole of the ring, and a plurality of opposing orthogonal to the valve shaft It is installed at the cam surface of the hermetic retaining ring and is rotated together with the rotation of the valve shaft, and the hermetic retaining ring is linearly moved in accordance with the rotation of the valve shaft to seal the direction of the valve shaft of the rubber seat ring when the valve disc is closed. It is characterized by consisting of a roller pin.

1 is a partial cross-sectional perspective view of a conventional butterfly valve,

Figure 2 is a cross-sectional view illustrating an open state of the butterfly valve of the present invention,

3 is a main portion of FIG.

Figure 4 is a cross-sectional view illustrating a closed state of the butterfly valve of the present invention,

5 is a perspective view of FIG. 4.

<Explanation of symbols for the main parts of the drawings>

10 valve body 11: fluid passage

12: hollow hole 20: valve shaft

30: valve disc 40: rubber seat ring

41: through hole 42: flat surface

50: airtight holding ring 52: cam surface

52a: low surface contact 52b: high surface contact

54 surface 60: roller pin

70: key

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

In the description of the present invention, the same or equivalent parts as in the prior art will be described with the same reference numerals.

Figure 2 is a cross-sectional view illustrating an open state of the butterfly valve of the present invention, Figure 3 is a main perspective view of Figure 2, Figure 4 is a cross-sectional view illustrating a closed state of the butterfly valve of the present invention, Figure 5 4 illustrates a main portion perspective view of FIG. 4.

As shown in FIGS. 2 to 5, the valve body 10 and the fluid passage 11 of the valve body 10 have a permeable fluid passage 11 therein so that fluid flows from one side to the other. The valve disc 30 that opens or closes, the valve shaft 20 which rotates the valve disc 30 in the fluid passage 11 of the valve body 10, and the valve disc 30 is the valve body. The rubber seat ring 40 is configured to maintain the airtightness of the valve body 10 and the valve disc 30 when the fluid passage 11 of 10 is closed.

In the hollow hole 12 of the valve body 10 in which the valve shaft 20 is installed, a hermetic holding ring 50 is installed as a key 70 and the hermetic holding ring 50 is a hollow hole. At 12, it is installed to be capable of vertical linear movement, and the airtight holding ring 50 is inserted into the valve shaft 20 by sliding.

In addition, the airtight holding movable ring 50 has a cam surface 52 formed by a tapered portion facing each other on its upper surface, and the cam surface 52 has a low surface contact portion 52a and a high surface contact portion 52b due to a height difference. It is formed in a), the cam pin 52 is positioned so that the roller pin 60 is fixed to the valve shaft 20 to be orthogonal to the axial direction and fixed in a plurality.

The lower surface 54 of the hermetic movable ring 50 is in contact with the periphery 41 of the rubber seat ring 40.

In the butterfly valve of the present invention configured as described above, as shown in FIGS. 2 and 3, the valve disc 30 is rotated at 90 degrees with respect to the radial direction of the fluid passage 11 in the valve body 10. The fluid flow is completely open. In this way, when the valve disc 30 is in the fully open state of the fluid passage 11, the passage flow rate of the fluid is maximum.

At this time, the plurality of roller pins 60 installed on the valve shaft 20 are placed in a state in which the lower surface contact portion 52a of the cam surface 52 is positioned.

When the valve shaft 20 is rotated 90 degrees by the operation unit not shown in the above state, as shown in FIGS. 4 and 5, the valve disc 30 is connected to the fluid passage 11 of the valve body 10. ) Is completely closed so that the flow of the fluid flowing through the butterfly valve is blocked and the outer circumferential surface of the valve disc 30 is in close contact with the inner circumferential surface of the rubber seat ring 40.

When the valve shaft 20 is rotated as described above, the roller pin 60 fixed thereto is also rotated so that the cloud moves from the low surface contact portion 52a to the high surface contact portion 52b along the tapered portion of the cam surface 52. As a result, the airtightly movable mold 50 has a linear movement (downward linear movement as shown in FIGS. 4 and 5) in the hollow hole 12 by the height difference of the cam surface 52. By compressing the periphery of 41, the through hole 41 is hermetically sealed to completely block the fluid that is about to flow into the hollow hole 12 through the through hole 41.

Since the valve shaft 20 is rotated by the operation unit (not shown) to open the fluid passage 11 of the valve body 10, the roller pin 60 fixed thereto rotates together. The roller pin 60 moves from the high surface contact portion 52b to the low surface contact portion 52a along the tapered portion of the cam surface 52, and as a result, the airtight holding movable ring 50 by the height difference of the cam surface 52. Is a linear movement in the hollow hole 12 (upward straight movement in Figures 2 and 3) is restored to the periphery of the through-hole 41 of the rubber seat ring 40, which was compressed again, in this case the fluid flow path Since it flows through the (11), the leakage of the fluid through the through hole 41 is not generated.

Thus, in the present invention, when the fluid passage 11 is closed, the airtight holding movable ring 50 closes the through-hole 41 of the rubber seat ring 40 so that the fluid is hollowed out in accordance with the high pressure. The leak through the hole 12 is to be prevented.

On the other hand, the roller pin 60 is reduced in the friction coefficient because the roller motion is made to move when moving on the cam surface (52).

And the lower surface 54 of the hermetic holding ring 50 is made of a flat surface, and the sealing surface of the rubber seat ring 40 through-hole 41 of the through hole 41 also forms a flat surface 42 When 50 is compressed around the through-hole 41 of the rubber seat ring 40, the compression load is uniformly distributed to further improve the airtightness of the through-hole 41.

In addition, in the above, the airtight holding ring 50 is inserted into the hollow hole 12 so that the airtight holding ring 50 is not rotated in the hollow hole 12 to use only the key 70 to enable linear movement. However, the airtight holding ring 50 itself or the hollow hole 12 protrudes to form a key integrally formed, the airtight holding ring 50 may be assembled into the hollow hole 12.

As described above, according to the butterfly valve of the present invention, the airtight holding ring is installed on the valve shaft through the valve body so that the linear movement is possible, and the roller shaft is installed with the roller pin for linearly moving the airtight holding ring on the valve shaft. When the flow path of the fly valve is closed (closed), the roller pin moves the airtight holding ring vertically to closely contact the through hole of the rubber seat ring to maintain airtightness in the direction of the valve axis. It also has the effect of maintaining excellent airtight even with hydraulic pressure (or hydraulic pressure).

Claims (3)

A valve body (10) having a fluid passage (11) therethrough so that fluid flows from one side to the other inside, A valve disc 30 for opening or closing the fluid passage 11 of the valve body 10; A valve shaft 20 for rotating the valve disk 30 in the fluid passage 11 of the valve body 10; In the butterfly valve having a rubber seat ring 40 which maintains the airtightness of the valve body 10 and the valve disk 30 when the valve disk 30 closes the fluid passage 11 of the valve body 10. In Sliding is installed in the valve shaft 20 through the hollow hole 12 of the valve body 10, the valve shaft 20 is installed is installed so as to linearly move in the axial direction, the upper surface of the tapered portion facing each other The cam surface 52 is formed by the airtight holding ring 50 whose lower surface 54 is in contact with the periphery of the through hole 41 of the rubber seat ring 40, The valve shaft 20 is installed in a plurality of opposite to orthogonal to the axial direction and is rotated together in accordance with the rotation of the valve shaft 20 and located on the cam surface 52 of the hermetic holding movable ring 50 is the valve shaft 20 Butter, characterized in that consisting of a roller pin 60 for hermetically sealing the valve shaft direction of the rubber seat ring 40 when the valve disk 30 is closed by linearly moving the airtight holding ring 50 in accordance with the rotation of the). Fly valve. The lower surface 54 of the airtight movable ring 50 is formed of a flat surface and the flat surface 42 is also formed around the through hole 41 of the rubber seat ring 40 in contact therewith. Butterfly valve, characterized in that. 2. The butterfly according to claim 1, wherein the cam surface (52) comprises a low surface contact portion (52a) due to a height difference, and a high surface contact portion (52b) connected to the tapered portion from the low surface contact portion (52a). valve.