KR20180027089A - Sealing apparatus for butterfly valve - Google Patents

Abstract

The present invention relates to a sealing apparatus of a butterfly valve, which is capable of firmly maintaining closing of a flow path through an airtight sheet connected between a valve main body and a disk in response to a hydraulic pressure of a fluid flowing in both directions in a duct, and at the same time, compensates for a bending deformation of the airtight sheet in accordance with the hydraulic pressure applied from both sides to ensure stability of a watertight operation in a use process. The butterfly valve comprises: a valve main body forming a flow path on the inside thereof and installed in a duct; and a disk installed on the inside of the valve main body to be able to rotate so as to open and close the flow path and to control flow of a fluid in the duct. The sealing apparatus of the butterfly valve comprises: an airtight sheet installed on an inner circumferential surface of the valve main body in a ring shape to be connected, while being bent and deformed according to a direction in which a fluid flows, between the inner circumferential surface of the valve main body and an outer circumferential surface of the disk when the flow path is closed; and a sheet holder installed on the valve main body through a coupling member and compressing the airtight sheet to be fixed to the valve main body.

Description

[0001] SEALING APPARATUS FOR BUTTERFLY VALVE [0002]

[0001] The present invention relates to a sealing device for a butterfly valve, and more particularly to a sealing device for a butterfly valve capable of firmly maintaining the closing of a flow path through a gas tight sheet connected between a valve body and a disk in response to a hydraulic pressure of fluid flowing in both directions in a channel And at the same time to compensate for the bending deformation of the airtight sheet due to the hydraulic pressure applied from both sides, thereby ensuring the stability of the watertight operation during the use.

Generally, a butterfly valve is provided inside a valve body connected to a conduit for transferring fluids such as various kinds of industrial water or oil, and a disk is rotatably installed by a shaft. By driving a driving device connected to the shaft, And the flow of the fluid is controlled by opening and closing the pipeline.

At this time, the inner circumferential surface of the valve body and the outer circumferential surface of the disk are fitted with sheets made of rubber or metal so as to be pressed against each other to seal the fluid.

1, a conventional butterfly valve seat includes a disk 1 fixed to a shaft (not shown) rotatably mounted in the middle, (2) is detachably mounted on the valve body (3) by means of a fastening member (5), and a valve body And a seat holder (4) for fixing and supporting.

Here, the above-mentioned sheet 2 is generally made of a rubber material (or a relatively hard material made of Teflon material) so as to have durability and corrosion resistance to a high-temperature or high-pressure fluid or chemical substance.

The sheet 2 according to the prior art is compressed on the sheet surface 1a of the disk 1 to block the fluid by the repulsive force of the sheet 2. This causes stress to be generated inside the sheet 2 There is a problem that the elasticity of the fluid is weakened as the hardness is increased due to the plastic deformation due to the fluid pressure at high temperature or high pressure for a long period of use and the resilience is deteriorated.

When the sheet 2 is used to control the fluid to be conveyed in both directions, the adaptability of the sheet 2 due to the flow of the fluid is lowered due to the lowering of the stretchability of the sheet 2, The maintenance cost is increased.

Meanwhile, the above-mentioned butterfly valve is divided into various types and forms according to the material of the seat, the shape of the disk, the position where the eccentric shaft is coupled to the disk, and the like. It is common to set the tube center of the valve body and the center of the disk or eccentric shaft eccentrically.

However, the conventional butterfly valve having the above-described multi-eccentric structure has the advantage that it is easy to open and close the disk and can effectively perform the airtight action in the unidirectional watertightness, but it has weak points in the bidirectional watertightness.

Registered Utility Model No. 20-0387894 of Korea Register (Jun. 28, 2005) Korean Patent Publication No. 10-2011-0098129 (issued on September 1, 2011)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a valve- The present invention also provides a butterfly which can secure the stability of watertightness during use by complementing the deflection of the airtight sheet by the oil pressure applied from both sides, And a sealing device for the valve.

According to another aspect of the present invention, there is provided a butterfly valve sealing apparatus comprising: a valve body provided inside a conduit with a flow path formed therein; a valve body rotatably installed inside the valve body, A butterfly valve comprising a disk which is formed in a ring shape on the inner circumferential surface of the valve body so as to form a flow of fluid between an inner circumferential surface of the valve body and an outer circumferential surface of the disk when the flow path is closed, An airtight sheet bendingly deformed in accordance with a direction; And a seat holder installed on the valve body through a fastening member and pressing the gas-tight sheet to be fixed to the valve body.

Here, the sheet holder has two or more pressure holes formed along the circumferential direction at an inner end portion spaced apart from the airtight sheet so that the oil pressure is directly applied to the end portion of the airtight sheet.

At this time, the airtight sheet has a pressing groove formed at an inner end portion adjacent to the pressing hole and inclined to face the inclined outer circumferential surface of the disk along the circumferential direction.

The gas-tight sheet has a width and an engagement groove formed inward along the circumferential direction, and the engagement groove is formed by joining two or more annular reinforcing members made of a steel material.

The gas-tight sheet is characterized in that sealing grooves formed in a concave shape along the circumferential direction are continuously formed in the width direction at both ends of the gas-tight sheet closely contacted with the valve body and the seat holder.

In addition, the sheet holder has an intermittent portion that is inclined from the end portion in close contact with the airtight sheet to the inner circumferential surface, thereby limiting the warpage of the airtight sheet.

In addition, the airtight sheet is made of a Teflon-based material.

According to the structure of the present invention described above, it is possible to firmly maintain the closing of the oil passage through the gas-tight sheet which is deformed by the flexible body in a direction of flow of the fluid between the valve body and the disk corresponding to the hydraulic pressure of the fluid flowing in both directions in the channel, Not only the oil pressure is directly applied to the pressing groove of the airtight sheet by the pressing hole formed in the seat holder but also the bending deformation of the airtight sheet is restricted by the intermittent portion of the seat holder and the reinforcing member made of the steel material is attached to the airtight sheet made of Teflon- By combining these, the above-described flexural deformation of the airtight sheet according to the hydraulic pressure applied from both sides can be compensated for, thereby ensuring the stability of the watertightness during use.

1 is a view showing a conventional butterfly valve.
2 is a sectional view showing a seat device of a butterfly valve according to the present invention.
3 is an enlarged view of a portion A in Fig.
4 is an enlarged view of a portion B in Fig.
Fig. 5 is a view for explaining a case in which the portion A of Fig. 2 is enlarged and the hydraulic pressure is applied in the opposite direction to Figs. 3 and 4 according to the fluid flow.
6 is an enlarged view of a portion C in Fig.

In describing the present invention, one side and the front side refer to a portion in which the seat holder is engaged with or in the direction of the valve body with respect to the longitudinal center of the duct, and the other side and the rear side are opposite to one side and the front side Or a portion in the direction.

In the description of the present invention, the inner expression refers to a part in the inner direction or the direction which is divided by each constitution or each constitution, and the outer expression refers to a direction opposite to or in the direction opposite to the inner expression Will be described below.

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

The present invention relates to a fluid pressure control apparatus for a fluid pressure control valve that is capable of firmly holding a flow path through a gas tight sheet connected between a valve body and a disk in response to a hydraulic pressure of fluid flowing in both directions in a pipeline, To a sealing device for a butterfly valve which can compensate for warpage and ensure the stability of watertightness during use.

The structure of the present invention for this purpose comprises a valve body 10, a disk 20, a gas tight sheet 30 and a sheet holder 40, as shown in Fig.

In addition, the valve body 10 of the butterfly valve is opened to the front and rear to form a flow path 11 on the inner side to provide a structure in which the fluid can flow, and is installed in the pipeline.

The disk 20 is provided inside the valve body 10 so as to be rotatable through the axis S so as to open or close the flow path 11 to control the flow of the fluid in the path, The tapered outer circumferential surface is brought into close contact with the airtight sheet 30 provided on the valve body 10 side to perform bidirectional watertightness before and after closing the flow path.

3 to 6, the airtight sheet 30 of the sealing device of the butterfly valve according to the present invention is provided on the inner peripheral surface of the valve body 10 in the shape of a ring having a thickness in the forward and backward directions, When the valve body 11 is closed, the inner circumferential surface of the valve body 10 and the outer circumferential surface of the disk 20 are deformed and closely contacted with each other according to the flow direction of the fluid.

Here, the airtight sheet 20 is made of a Teflon-based material, and the airtight sheet 20 is characterized in that the reinforcing member R is coupled.

That is, the airtight sheet 20 has a width in the inner and outer direction, a thickness in the front and rear directions, and an engagement groove 32 is formed on the inner side along the circumferential direction. In the engagement groove 32, Of reinforcing members (R) made of a steel material.

The conventional sheet for a butterfly valve is usually made of a rubber or a Teflon-based material so as to have durability and corrosion resistance against high-temperature or high-pressure fluids and chemical substances. Even if such a sheet is firmly bonded to the valve body, The deformation such as bending or bending was caused due to the hydraulic pressure of a considerable size applied in both directions before and after.

However, as described above, the airtight sheet 30 of the present invention is made of a Teflon-based material, and the reinforcing member R made of a steel material is bonded to the inside of the airtight sheet 30 to minimize the deformation You can.

In addition, the shape of the airtight sheet 30 to which the reinforcing member R is attached is minimized in the form of deformation even under the hydraulic pressure in accordance with the flow of the fluid, thereby maintaining the close contact surface with the outer circumferential surface of the disk 20 when the flow path 11 is closed The watertight action can be performed firmly.

At this time, it is preferable that the reinforcing member R coupled to the gas tight sheet 30 is made of SUS (Steel Use Stainless).

The airtight sheet 30 has sealing grooves 33 recessed in a semicircular shape along the circumferential direction on both sides of the front and rear sides of the valve body 10 and the seat holder 40 in close contact with each other in the inner and outer width directions .

This sealing groove 33 is designed as a sealing space for watertightness before the airtightness sheet 30 is installed on the valve body 10. In other words, the airtightness sheet 30 is arranged on the inner circumferential surface of the valve body 10 The pressing of the sheet holder 40 is directly transmitted to the sealing groove 33 described above so that the sealing of the sealing sheet 30 is performed around the sealing groove 33 One side and the other side are pressed and spread to form a sealing.

This prevents the seal member such as a gasket from being installed on the front and rear surfaces of the airtight sheet 30 and the portion where the seat holder 40 and the valve body 10 are in close contact with each other, The watertightness of the airtight sheet 30 can be stabilized by the sealing action of the airtight seal 33, which is firmly in close contact with the outer circumferential surface of the disk 20. [

The airtight sheet 30 is inclined so as to face an inclined outer circumferential surface of the disc 20 along the circumferential direction on one side of the inner end portion adjacent to the pressurizing hole 41 of the sheet holder 40 Is formed.

When the pressure is applied from the front to the airtight sheet 30 whose inner end is bent and deformed by the pressure applied from the rear, the pressing groove 31 is passed through the pressing hole 41 of the sheet holder 40 to be described later Is directly applied to the pressure grooves 31 to transmit a force capable of returning the deflected end portion backward and returning to the original position.

The hydraulic pressure transmitted to the pressure grooves 31 through the pressurizing holes 41 passes through the inclined portion corresponding to the tapered outer circumferential surface of the disk 20 when the oil passage 11 is closed, And the sum vector of the forces pushing the end portion of the airtight sheet 30 through the application of the hydraulic pressure is applied to the outer peripheral surface of the inclined disk 20 which is connected to the inner peripheral surface of the airtight sheet 30 The flow path 11 is firmly closed and a stable watertightness is achieved.

As a result, when oil pressure is applied from the opposite direction in a state where the seat made of rubber or Teflon material is deformed by the hydraulic pressure applied from the front or rear, it is difficult to establish the connection with the outer circumferential surface of the disk, But it is possible to naturally compensate for the warpage of the airtight sheet 30 by using the hydraulic pressure according to the flow of the fluid by the pressing groove 31 of the present invention as described above, Stability is assured.

In addition, the hydraulic pressure applied from the front of the airtight sheet 30 is also penetrated into the spaced inner direction of the airtight sheet 30 and the seat holder 40, so that the inner end of the airtight sheet 30, As shown in FIG.

The seat holder 40 is formed in a ring shape having a thickness in the forward and backward directions and is provided on the valve body 10 through the fastening member L on the outside of the airtight sheet 30, The seat 30 is pressed back to be fixed to the valve body 10.

The sheet holder 40 is provided with two or more pressing holes 41 in the shape of an annulus along the circumferential direction at an inner end portion spaced apart from the airtight sheet 30, So that the oil pressure is directly applied to the end of the piston 30.

That is, as described above, the pressing hole 41 is formed at a position in front of the pressing groove 31 of the airtight sheet 30, and the airtight sheet 30 whose inner end is bent and deformed by the hydraulic pressure applied from the rear, The pressure applied to the seat holder 40 is biased to some extent with the airtight sheet 30 so that the hydraulic pressure applied from the front is applied directly to the pressing groove 31, And the inner end of the airtight sheet 30 is returned to its original position by pushing backward.

The sheet holder 40 is provided with an intermittent portion 42 which is tapered toward the inner side from the end portion in close contact with the airtight sheet 30, that is, from the inner side end of the portion for pressing the sealing groove 33 to the inner circumferential surface Limiting the warpage of the airtight sheet (30).

More specifically, when hydraulic pressure is applied from the rear side to the inner end of the airtight sheet 30 which is in continuous contact with the outer circumferential surface of the disk 20, the inner end of the airtight sheet 30 is bent to some extent forward At this time, the inner end of the airtight sheet 30, which forms the bending deformation, is closely contacted with the above-described intermittent portion 42, so that forward bending deformation is limited.

As a result, when oil pressure is applied from the opposite direction in a state where the seat made of rubber or Teflon material is deformed by the hydraulic pressure applied from the front or rear, it is difficult to establish the connection with the outer circumferential surface of the disk, It is possible to achieve a limited warping deformation to the extent that the airtight sheet 30 can easily be connected to the outer circumferential surface of the disk 20 through the intermittent portion 42 of the present invention as described above, In addition, the bending deformation of the airtight sheet 30 can be compensated for, thereby ensuring the stability of the watertight operation in the course of use.

As a result, the sealing device of the butterfly valve according to the present invention is characterized in that, in response to the hydraulic pressure of the fluid flowing in both directions in the conduit, the valve is closed between the valve body and the disk through the gas- The hydraulic pressure is directly applied to the pressing groove of the airtight sheet by the pressing hole formed in the seat holder and the bending deformation of the airtight sheet is restricted by the intermittent portion of the seat holder and the airtight sheet made of the Teflon- It is possible to compensate for the bending deformation of the airtight sheet according to the hydraulic pressure applied from both sides, thereby ensuring the stability of the watertightness during use.

10: valve body 11:
20: Disk 30: Confidential sheet
31: pressing groove 32: engaging groove
33: sealing groove 40: seat holder
41: pressure hole 42: intermittent portion
L: fastening member R: reinforcing member
S: Axis

Claims (7)

A valve body 10 installed in a channel forming a channel 11 on the inside of the valve body 10 and being rotatably installed inside the valve body 10 to open and close the channel 11 to control the flow of the fluid in the channel (20), characterized in that the butterfly valve
And is provided on the inner circumferential surface of the valve body 10 in a ring shape so that the valve body 10 and the disk 20 are bent and warped in the flow direction of the fluid between the inner circumferential surface of the valve body 10 and the outer circumferential surface of the disk 20 when the flow path 11 is closed An airtight sheet (30); And
And a seat holder (40) installed on the valve body (10) through a fastening member (L) to press the hermetic seat (30) to be fixed to the valve body (10) Device. The method according to claim 1,
The sheet holder 40 is formed by forming two or more pressure holes 41 along the circumferential direction at an inner end portion spaced apart from the airtight sheet 30 so that the oil pressure is directly applied to the end portion of the airtight sheet 30 Characterized in that the sealing device of the butterfly valve. 3. The method of claim 2,
Wherein the airtight sheet (30) has a pressing groove (31) formed so as to be inclined so as to face an inclined outer circumferential surface of the disc (20) along a circumferential direction at an inner end portion adjacent to the pressurizing hole (41) Sealing device for butterfly valves. The method according to claim 1,
The airtight sheet 30 is provided with a coupling groove 32 having a width and formed inward along the circumferential direction. The coupling groove 32 is formed by joining two or more annular reinforcing members R made of steel Wherein the valve is closed. The method according to claim 1,
The airtight sheet 30 is formed with sealing grooves 33 each having a concave shape along the circumferential direction at both ends of the airtight seat 30 which are in close contact with the valve body 10 and the seat holder 40, Sealing device for butterfly valves. The method according to claim 1,
Wherein the sheet holder (40) is provided with an intermittent portion (42) inclined from an end portion of the sheet holder (30) in close contact with the inner circumferential surface to limit the warpage of the airtight sheet (30) . 7. The method according to any one of claims 1 to 6,
Wherein the airtight sheet (30) is made of a Teflon-based material.

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