KR101076451B1 - Triple-offsetstructured butterfly valve for sealing both side's pressure using multy sheet - Google Patents

Abstract

The present invention relates to a tertiary eccentric butterfly valve, and more particularly, the first body and the second accommodation part are formed to be stepped while the inner circumferential surface of the valve body is formed to be inclined, and the outer circumferential surface thereof corresponds to the inclined surface of the valve body. And a valve disc for opening and closing the flow path of the valve body, and a valve shaft for eccentrically rotating the valve disc, the valve shaft being the rotation axis of the valve disc being primarily eccentric from the center line of the valve body in which a seat having an airtight portion is described. It is secondary to the eccentric from the flow path center line of the valve in the state, the reference axis of the valve disk is rotated by an arbitrary angle with the reference point of the intersection of the flow path center line of the valve and the center line of the valve body in the state that the valve shaft has a secondary eccentric structure. Tertiary eccentric butterfly valve with tertiary eccentric structure The first sealing seat is seated on the first accommodating part, one end of which protrudes from the outer circumferential surface of the valve disc and contacts the valve body when closed, and is seated on the first accommodating part and the first sealing part. It is formed on the rear of the seat, the lantern ring is formed in the first hole communicating with the disk hole connecting the first and second receiving portion, and is mounted on the outside of the lantern ring so that one end is in contact with the valve body And a back pressure resilient sheet in which a communication groove communicating with the first hole is formed and the second accommodating part are fixed to the first sealing sheet, the lantern ring and the back pressure resilient sheet, and communicate with the disc hole. It includes a seat gland formed with a second hole so that the fluid flowing in the reverse direction to pressurize the elastic sheet for back pressure to increase the airtightness of the elastic sheet for back pressure and the valve body The present invention relates to a positive pressure seal tertiary eccentric butterfly valve for using the multi-sheet to a technical base.

Description

Tri-offsetstructured butterfly valve for sealing both side's pressure using multy sheet}

The present invention relates to a tertiary eccentric butterfly valve, and relates to a positive pressure sealing tertiary eccentric butterfly valve using multiple seats to correspond to a fluid flowing in the forward and reverse directions so that the sealing force is increased.

In order to increase the airtightness between the valve body and the valve disk and to open and close easily, the third eccentric butterfly valve with three eccentrics is used.

1 is a cross-sectional view showing a seat portion of a conventional metal seated butterfly valve having a tertiary eccentric structure, Figure 2 is a cross-sectional view showing the seating shape of a conventional metal seated butterfly valve having a tertiary eccentric structure.

As shown in Fig. 1 and Fig. 2, the conventional tertiary eccentric butterfly valve of the valve body 11 in which the valve seat 13, which is the airtight portion, of the valve seat 13, which is the axis of rotation of the valve disc 12, is described. The valve disc 12 and the valve body (2) have an eccentric structure which is secondary eccentrically "b" from the A-A 'line which is the center line of the valve in the state which eccentrically "a" from the center line B-B'. 11) a valve seat 19 for tightly sealing them is formed, and the flow path center line (A-A 'line) and the body center line (B-B) of the valve in a state in which the valve stem 13 has a secondary eccentric structure The C-C line, which is the reference axis of the conical valve disc 12, is rotated by an angle α with the reference point "O", which is the intersection point of the 'line', and the C-C 'line, which is the reference axis, is rotated. The axis is moved by "c" to form a tertiary eccentric structure.

At this time, the valve seat has a problem in that leakage occurs due to the airtightness between the valve body and the valve seat formed in the valve disk while the rotation shaft is finely pushed by the pressure applied in the reverse direction.

The present invention has been made to solve the above problems, and an object thereof is to prevent leakage caused by the fluid flowing in the reverse direction.

In order to achieve the above object, the present invention provides a valve body having an inner circumferential surface formed to be inclined, and an outer circumferential surface formed to correspond to an inclined surface of the valve body so that the first accommodating part and the second accommodating part are formed to be stepped. And a valve disc for opening and closing the valve disc, and a valve shaft for eccentrically rotating the valve disc, wherein the valve shaft, which is the rotation shaft of the valve disc, is primarily eccentric from the center line of the valve body in which the seat, which is an airtight portion, is described. Secondary eccentric from the center line, in the state in which the valve shaft has a secondary eccentric structure, the reference axis of the valve disk by rotating the reference axis of the valve disk by an arbitrary angle with the reference point of the intersection of the center line of the valve and the center line of the valve body and then move the shaft In the third eccentric butterfly valve having a third eccentric structure, the first water It is seated on the part, one end is formed to protrude more than the outer circumferential surface of the valve disk and the first sealing seat which is in contact with the valve body when closed, and is seated on the first accommodating portion is formed in the rear of the first sealing seat A lantern ring formed with a first hole communicating with the disc hole connecting the first accommodation part and the second accommodation part, and mounted at an outer side of the lantern ring so that one end is in contact with the valve body; Resilient sheet for back pressure to communicate with the communication sheet is formed and the second receiving portion is fixed to the first sealing sheet, the lantern ring and the back pressure resilient sheet, the sheet is formed a second hole in communication with the disc hole It is characterized in that the fluid flowing in the reverse direction including the gland to pressurize the elastic sheet for back pressure to increase the airtightness of the elastic sheet for back pressure and the valve body.

The second sealing sheet may be further provided between the lantern ring and the seat gland to be seated on the first accommodating part.

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According to the present invention of the configuration described above, the following effects can be expected.

First, it is possible to prevent the leakage of the fluid flowing in the forward direction by using a plurality of sealing sheets.

In addition, it is possible to more strongly prevent the leakage of fluid flowing in the reverse direction by using the elastic sheet for back pressure.

1 is a cross-sectional view showing a seat portion of a conventional metal seat type butterfly valve having a tertiary eccentric structure.
Figure 2 is a cross-sectional view showing the seating shape of a conventional metal seat type butterfly valve having a tertiary eccentric structure.
3 is a cross-sectional view of a third pressure eccentric butterfly valve for positive pressure closure using multiple seats according to the present invention.
4 is an enlarged view of a portion 'A' of the present invention.
5 is a cross-sectional view showing a first accommodating part and a second accommodating part of a positive pressure sealing tertiary eccentric butterfly valve using multiple seats according to the present invention.
6 is a perspective view of a lantern ring of a positive pressure sealing tertiary eccentric butterfly valve using multiple seats according to the present invention.
7 is a right side view of the seat gland of the positive pressure sealing tertiary eccentric butterfly valve using multiple seats according to the present invention.

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

3 is a cross-sectional view of the positive pressure sealing third eccentric butterfly valve using a multi seat according to the present invention, Figure 4 is an enlarged view of the 'A' portion of the present invention, Figure 5 is a positive pressure using a multi seat according to the present invention It is sectional drawing which shows the 1st accommodating part and the 2nd accommodating part of a sealing tertiary eccentric butterfly valve.
To help the understanding of the present invention, defining words for direction and position, the forward direction is the direction in which the fluid flows normally, the reverse direction indicates the direction in which the fluid flows back.
In addition, the front side represents the side from which the fluid flows, that is, the front side of the valve disc, and the rear side represents the side from which the fluid flows, that is, the rear side of the valve disc, and the outer side represents the outer peripheral surface direction of the valve disc in the valve shaft, which will be described later. The inner side shows the valve axis direction on the outer circumferential surface of the valve disc.

As shown in FIGS. 3 to 5, the valve body 11 having the inner circumferential surface inclined and the outer circumferential surface of the valve body 11 correspond to the inclined surface of the valve body 11 while the first accommodating part 20 and the second accommodating part are formed. The valve disc 12 is formed to be stepped to open and close the flow path of the valve body 11 and the valve shaft 14 for eccentrically rotating the valve disc 12, the valve disc 12 The valve shaft 14, which is a rotational shaft of the valve shaft 14, is eccentrically from the channel center line of the valve in a state where the valve shaft 14 is eccentrically primary from the center line of the valve body 11 on which the seat is hermetically sealed, and the valve shaft 14 is secondary eccentric. In the state having the structure, the reference axis of the valve disc 12 is rotated by an arbitrary angle with the intersection of the flow path center line of the valve and the center line of the valve body 11 as the reference point, and then the axis is moved to have a tertiary eccentric structure. Eccentric Butterflies Relates to a valve, the present invention comprises a first sealing sheet (100), lantern ring (200) (lantern ring), stations apyong elastic sheet 300 and the sheet Grand (400) (sheet gland).

The first sealing seat 100 is seated on the first accommodating part 20, and one end of the first sealing seat 100 protrudes from the outer circumferential surface of the valve disc 12 to be in contact with the valve body 11 so as to contact the valve body ( 11) by closing the flow path, the contact area between the inclined surface of the valve body 11 inner circumferential surface and the first sealing seat 100 becomes large and the sealing force becomes stronger according to the strength of the pressure of the fluid proceeding in the forward direction It is possible to prevent the leakage of water.

6 is a perspective view of a lantern ring of a positive pressure sealing tertiary eccentric butterfly valve using multiple seats according to the present invention.

4 to 6, the lantern ring 200 is seated on the first accommodating part and is formed at the rear of the first sealing sheet 100, and the inside of the first accommodating part 20. The first hole 220 is formed in communication with the disk hole 210 connecting the side and the rear of the second receiving portion 30.

At this time, the disk hole 210 is to allow the fluid flowing in the reverse direction to communicate with the outer peripheral surface of the valve disk 12 and the rear of the valve disk 12 when the flow path of the valve body 11 is closed. This will be described in more detail later.

3 and 4, the back pressure resilient sheet 300 is mounted on the outside of the lantern ring 200 so that one end is in contact with the valve body 11, and the first hole 220 and the first hole 220. The communication groove 310 is formed to be communicated, and is made of a material having elasticity, is pushed out by the pressure of the fluid flowing in the reverse direction and in contact with the inner circumferential surface of the valve body 11 to flow in the valve body 11 It can be sealed more strongly.

7 is a right side view of the seat gland of the positive pressure sealing tertiary eccentric butterfly valve using multiple seats according to the present invention.

4 and 7, the seat gland 400 is mounted to the second accommodating part 30 so that the first sealing sheet 100, the lantern ring 200, and the back pressure resilient sheet 300 are provided. The second hole 410 is formed in communication with the disk hole 210, the fluid flowing in the reverse direction from the rear of the valve disk 12 enters the disk hole 210 and the first hole ( Inlet flows through the 220 in order to pressurize the elastic sheet 300 for the back pressure, and the valve gland 12 is closed by fastening the seat gland 400 to the bolt.

The leakage of the fluid flowing in the forward direction made of the configuration as described above is sealed by the first sealing sheet 100, the leakage of the fluid flowing in the reverse direction is the first sealing sheet 100 is basically sealed, the back pressure The fluid in the reverse direction by pressing the elastic sheet 300 to increase the airtightness of the elastic sheet 300 and the valve body 11 for the back pressure can further increase the sealing force.

4 and 5, the second sealing sheet 150 is further disposed between the lantern ring 200 and the seat gland 400 to be seated in the first receiving groove 20. The fluid flowing in to prevent the leakage between the valve body 11 and the valve disk 12 in multiple.

In addition, the communication box 310 is made so that the width of the middle portion is narrowed to increase the resistance of the fluid to be introduced is made to increase the force to push the back pressure elastic sheet 300 to the outside, the shape is Deformation is possible at the discretion of those skilled in the art to increase the pressure applied to the elastic sheet for back pressure.

The operation of the present invention configured as described above will be described with reference to FIGS. 3 to 7.

First, when the fluid is pressurized in the forward direction, the inclined surface of the valve body 11 inner circumferential surface and the first sealing sheet 100 is in contact with each other, the more airtight along the inclined surface as the pressure of the fluid in the forward direction increases to prevent leakage The second sealing sheet 150 may be provided at the rear of the first sealing sheet 100 to improve the leakage preventing function in multiple ways.

Next, when the fluid is pressurized in the reverse direction, the fluid flows through the second hole 410, the disk hole 210 and the first hole 220 of the seat gland 400 in order to flow out of the elastic sheet 300 for back pressure. The upper end of the communication groove 310 is pressed, the pressurized back pressure elastic sheet 300 is pushed to the outside while being in contact with the valve body 11 to increase the sealing force.

At this time, the shape of the communication groove 310 is made so that the width of the middle portion is narrowed to increase the resistance of the fluid to increase the force to push the back pressure elastic sheet 300 to the outside to further increase the sealing force.

In addition, the stronger the fluid pressure in the reverse direction, the stronger the sealing force becomes, and has the advantage that the sealing force is adjusted according to the strength of the fluid pressure in the reverse direction without air or other device for injecting fluid.

As described above, the present invention can prevent the leakage of the fluid flowing in the forward direction by using the multiple sealing sheet and at the same time the positive pressure using the multiple sheets that can prevent the leakage of the fluid flowing in the reverse direction by using the elastic sheet for back pressure It can be seen that it is a basic technical idea to provide a closed tertiary eccentric butterfly valve, and many other modifications are possible to a person having ordinary skill in the art within the scope of the basic idea of the present invention. Of course.

11 valve body 12 valve disc
14 valve shaft 20 first receiving part
30: second receiving part 100: first sealing sheet
150: second airtight seat 200: lantern ring
210: disc hole 220: first hole
300: elastic sheet for back pressure 310: communication groove
400: seat grand 410: the second hole

Claims (3)

The valve body and the valve disk which is formed to be inclined the inner peripheral surface, the outer peripheral surface corresponding to the inclined surface of the valve body, the first receiving portion and the second receiving portion is formed to open and close the flow path of the valve body and the valve disk And an eccentric rotation of the valve shaft, the valve shaft being the rotation axis of the valve disc being eccentric from the flow center line of the valve in a state eccentrically from the center line of the valve body in which the seat, which is an airtight portion, is described. With the eccentric structure, the reference axis of the valve disc is rotated by an arbitrary angle with the intersection of the flow path center line of the valve and the center line of the valve body as the reference point, and then the shaft is moved to the third eccentric butterfly valve having the third eccentric structure. In
A first sealing seat seated on the first accommodating part, one end of which protrudes from an outer circumferential surface of the valve disc to be in contact with the valve body when closed;
A lantern ring seated on the first accommodating part and formed at a rear side of the first sealing sheet and having a first hole communicating with a disc hole connecting the first accommodating part and the second accommodating part;
A reverse pressure elastic seat having one end mounted on an outer side of the lantern ring to be in contact with the valve body, and having a communication groove communicating with the first hole;
A seat gland mounted to the second accommodating part to fix the first sealing sheet, the lantern ring and the elastic sheet for back pressure, and having a second hole communicating with the disc hole; Positive pressure closed third eccentric butterfly valve using a multi-seat, characterized in that to pressurize the elastic sheet for back pressure to increase the airtightness of the elastic sheet for back pressure and the valve body.
The method of claim 1,
The third eccentric butterfly valve for positive pressure sealing using multiple seats, which is seated on the first accommodating part, further comprising a second sealing seat between the lantern ring and the seat gland.

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