KR101794766B1 - Watertight structure of shaft housing in butterfly valve - Google Patents

Abstract

The present invention relates to a watertight structure for preventing penetration of a fluid in a body portion of a valve into which a shaft is inserted, in a butterfly valve mounted on a water pipe, a sewage pipe or the like, and kept airtight by a disk. SUMMARY OF THE INVENTION It is an object of the present invention to provide a water tight structure that prevents fluid from penetrating into the shaft housing portion of the valve body along the outer and inner surfaces of the bush, .
In order to solve the above-described problems, the bush 10 included in the present invention is a cylindrical metal, and an inclined protrusion 11 is formed on the outer side of one side and a thread 13 is formed on the opposite side of the opposite side. do. A plurality of inner diameter portion grooves 12 are formed on the inner surface of the bush 10. In order to prevent fluid penetration into the outer surface of the bush 10, the present invention includes an inclined sealing member 21, which has a step 31 of the body 30 in the horizontal and vertical directions, So that watertightness is achieved. A plurality of O-rings 22 are inserted into the inner diameter portion groove 12 of the bush 10 so as to block the fluid penetrating the inner surface of the bush 10, A rectangular O-ring is inserted.
According to the present invention, the fluid penetration of the shaft housing portion of the butterfly valve is blocked, thereby preventing corrosion of the shaft housing portion, thereby prolonging the life of the valve. Further, by preventing the contamination of the fluid due to the corrosion of the shaft housing portion, it is possible to prevent the stigma of the water when the butterfly valve according to the present invention is applied to the water pipe.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a butterfly valve,

The present invention relates to a watertight structure for preventing penetration of a fluid in a body portion of a valve into which a shaft is inserted, in a butterfly valve mounted on a water pipe, a sewage pipe or the like, and kept airtight by a disk. More specifically, an oblique sealing material is inserted between a body of a butterfly valve and a bush, instead of an existing O-ring, and the bush is fixed by a nut, so that the oblique sealing material is compressed, And prevents the fluid from penetrating along the inner surface of the bushing by inserting a plurality of O-rings into the inner surface of the bush.

Butterfly valves mounted on water pipes are classified into rubber seat butterfly valves and metal seat butterfly valves depending on the type of seat. These butterfly valves control the fluid by the rotation of a circular or elliptical disk in the body. To rotate the disc, an axis is inserted, which is inserted through the body of the valve and the disc.

Butterfly valves process the surfaces that the fluid touches to prevent corrosion by the fluid. The inner surface of the body of the butterfly valve and the disk are always in contact with the fluid. In addition, the outer surface of the body, which is not in contact with the fluid, is treated to prevent corrosion. Where the treatment is difficult, the shaft housing portion of the body into which the shaft is inserted. The shaft housing portion is a portion into which a shaft for supporting and driving the disk is inserted, which requires high accuracy, and therefore, it is difficult to perform a separate treatment.

In order to protect the shaft housing part of the butterfly valve from corrosion, it is best to prevent the fluid from penetrating. Each butterfly valve has a structure for blocking the infiltration of the fluid. In reality, it is impossible to completely prevent the interruption of the fluid. This is because a strong torque for driving the disk is transmitted to the shaft. If the fluid barrier property is increased, the torque of the shaft is increased. Also, the inserted o-ring or the like inserted for the purpose of blocking the fluid hardens after a lapse of time.

The lifetime of a butterfly valve depends on the operating environment, and is typically 10 to 20 years as valve life. The main reason that the valve can not be used at this time is due to serious corrosion of the shaft housing part. That is, the main reason for determining the lifetime of the butterfly valve is the corrosion of the shaft housing part, because it does not completely block the fluid penetrating into the shaft housing part.

Corrosion caused by fluid penetration of the shaft housing portion of the butterfly valve not only serves to shorten the life of the valve but also causes contamination of the fluid. Particularly, when butterfly valve is connected to tap water pipe, melting due to corrosion of shaft housing part is a cause of polluting water quality.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a watertight structure that prevents fluid from penetrating into the shaft housing portion of the body into which the shaft of the butterfly valve is inserted. More specifically, the present invention is to provide a structure of a bush and a structure of a sealing material which ensure the watertightness of the shaft housing portion of the butterfly valve and do not affect the torque of the shaft.

In order to solve the above-described problems, the bush 10 included in the present invention is a cylindrical metal, and an inclined protrusion 11 is formed on the outer side of one side and a thread 13 is formed on the opposite side of the opposite side. do. A plurality of inner diameter portion grooves 12 are formed on the inner surface of the bush 10. In order to prevent fluid penetration into the outer surface of the bush 10, the present invention includes an inclined sealing member 21, which has a step 31 of the body 30 in the horizontal and vertical directions, So that watertightness is achieved. A plurality of O-rings 22 are inserted into the inner diameter portion groove 12 of the bush 10 so as to block the fluid penetrating the inner surface of the bush 10, A rectangular O-ring is inserted.

According to the present invention, the fluid penetration of the shaft housing portion of the butterfly valve is blocked, thereby preventing corrosion of the shaft housing portion, thereby prolonging the life of the valve. Further, by preventing the contamination of the fluid due to the corrosion of the shaft housing portion, it is possible to prevent the stigma of the water when the butterfly valve according to the present invention is applied to the water pipe.

Figure 1. Structure of conventional butterfly valve.
Figure 2. Shaft housing watertight structure of existing butterfly valve.
3. The shaft housing watertight structure of the present invention.
4 (a) is a front view of the bush included in the present invention, and Fig.
5. An inclined sealing member included in the shaft housing watertight structure of the present invention.
6. The O-ring included in the shaft housing watertight structure of the present invention.

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

FIG. 1 is a view showing a structure of a conventional butterfly valve, and FIG. 2 is a view showing a shaft housing watertight structure of a conventional butterfly valve. The conventional butterfly valve shown is a rubber seat butterfly valve. The material of the sheet that blocks the fluid is rubber, which is referred to as a rubber seat. Since this portion is not included in the scope of the present invention, a detailed description will be omitted. The present invention is applicable to all kinds of butterfly valves.

As shown in the figure, a cylindrical bush 10 made of bronze or brass is inserted into the inner surface of the shaft housing 60 of the body, and a shaft 50 made of stainless steel is inserted through the bush 10. The body 30 of the valve normally uses a duck tile (GCD 450), and the material of the shaft housing 60 is the same as the material of the body 30.

The penetration of the fluid into the shaft housing 60 begins at the portion of the body 30 where the through hole (not shown) of the body 30 penetrates the shaft 50 and the outer surface of the shaft 50 abuts . This is because the metal body 30 and the metal shaft 50 are in contact with each other but there is no way to prevent the penetration of the fluid because the shaft 50 rotates. As shown, the means for preventing fluid infiltration into the shaft housing 60 portion of the butterfly valve is an O-ring 22. The O-ring 22 is inserted between the stepped portion of the body 30 and the bush 10. The O-ring 22 is compressed by the pressing of the shaft cover 70 or the pusher 80 to maintain water tightness have.

In order to drive the valve, the disk 40 must be rotated and the shaft 50 must be rotated. Over time, the O-ring 22 of the rubber material is hardened or aged to change physical properties such as elasticity, The original function is lost. In this case, when the fluid passes through the portion where the O-ring 22 is present, there is no means for blocking the fluid. When the fluid penetrates into the shaft housing 60, the inner surface of the shaft housing 60 made of a dirt tile material, which is the most vulnerable to corrosion, abruptly corrodes. The shaft (50) and the bush (10) are made of stainless steel and brass or bronze, which are resistant to corrosion, so that corrosion damage due to relatively fluid penetration is not severe.

FIG. 3 is a view showing the watertight structure of the shaft housing according to the present invention, FIG. 4 is a front view (a) and a left side view of a bush included in the present invention, Fig. 3 is a view showing an inclined sealing member included in the structure. Fig. Fluid penetration into the shaft housing 60 portion proceeds along the outer and inner surfaces of the bushing 10. Therefore, in order to complete the watertight structure of the shaft housing 60, respective watertight means for the outer side surface and the inner side surface of the bush 10 are required. The present invention provides a watertight structure that prevents fluid from penetrating into the outer and inner surfaces of the bushing 10 to complete the watertight structure of the shaft housing 60 portion.

As shown in FIGS. 3 and 4, the bush 10 included in the present invention has a cylindrical shape of a metal material. The bush 10 has an inclined protrusion 11 formed on the outer side of one side, 13 are formed. A plurality of inner diameter portion grooves 12 are formed on the inner surface of the bush 10.

First, in order to prevent fluid infiltration to the outer surface of the bush 10, the present invention includes an inclined sealing member 21 instead of a general O-ring 22. As shown in Fig. 4, the inclined sealing member 21 is a square in which the shape of the cross section is inclined at one side. The sealing member 21 is seated on the step 31 formed at the end of the through hole of the body 30 in such a manner that an inclined side of the sealing material 21 comes into contact with the inclined projection 11 of the bush 10, 10 are pushed outwardly from the inside of the body 30 and then fixed with the nuts 23.

When the nut 23 is tightened, the bushing 10 presses the sealing material 21 and the portion of the bushing 10 that contacts the sealing material 21 is inclined. Therefore, the sealing material 21 is horizontally and vertically disposed on the body 30, So that water tightness is achieved. This watertightness prevents fluid from penetrating the outer surface of the bushing 10 and the inner surface of the body 30. [ The conventional O-ring 22 shown in FIG. 2 is pressed on the body 30 only in the horizontal direction, which is the axial direction, while the sealing member 21 included in the present invention is also pressed in the vertical direction, .

The sealing material 21 included in the present invention is pressed not only in the horizontal direction but also in the vertical direction on the step 31 of the body 30 by the bush 10 so that the fluid penetrates along the outer surface of the bush 10 It can be prevented more effectively. A nut 23 is used to press the bush 10 against the sealing material 21 and a means for fixing the bush 10 so as not to rotate is needed. For this purpose, a plurality of grooves 14 are formed on one side of the bushing 10. The means for preventing the rotation of the bushing 10 using the plurality of grooves 14 corresponds to a conventional technique, It is omitted.

The present invention is directed to a watertight structure that prevents fluid from penetrating into the shaft housing (60) of a butterfly valve. The infiltration of the fluid into the shaft housing 60 is made not only on the outer surface but also on the inner surface of the bushing 10. The fluid penetration along the outer surface of the bush 10, And pressing the bushes 10 together. In order to block the fluid penetrating along the inner surface of the bush 10, a means separate from the sealing material 21 is required.

3 and 4, the bush 10 included in the present invention has a plurality of inner diameter grooves 12 formed on its inner surface. A plurality of O-rings 22 are inserted into the inner diameter grooves 12. The plurality of O-rings 22 serve to block the fluid penetrating along the inner surface of the bushing 10, and the cross-sectional shape of the O-rings 22 varies depending on the type and pressure of the fluid.

6 is a view showing a sectional shape of the O-ring 22 included in the shaft housing watertight structure of the present invention. As shown in the figure, the plurality of O-rings 22 included in the present invention include a circle whose cross-section has a circular shape, an ellipse, and a quadrangle with a corner portion protruding. In particular, the quadrilateral O-ring 22 having the shape of a cross section protruding from its edge has the advantage of maintaining the watertightness regardless of the type of fluid or the magnitude of the pressure.

The bush 10 included in the present invention has a plurality of inner diameter portion grooves 12 formed on the inner surface thereof to block the fluid penetrating along the inner surface of the bush 10, And the O-ring 22 is inserted. Particularly, in order to enhance the effect of the present invention, it is preferable that the cross-section of the plurality of O-rings 22 is a quadrangle with its corner portion protruding.

10 ... bush 11 ... inclined protrusion
12 ... internal neck groove 13 ... thread
14 ... groove 21 ... sealing material
22 ... O-ring 23 ... nut
30 ... body 31 ... step
40 ... disk 50 ... axis
60 ... Shaft housing part 70 ... Shaft cover
80 ... pusher

Claims (4)

A bush 10 made of a metal material having a threaded portion 13 formed on an outer side surface of one side portion and a plurality of inner diameter portion grooves 12 formed on an inner side surface thereof, );
A seal member having elasticity in the form of an O-ring inserted between the inclined projection 11 of the bush 10 and the step 31 formed at the end portion of the axial insertion portion of the shaft housing 60 of the butterfly valve body 30 21);
A nut 23 for allowing the inclined protrusion 11 of the bush 10 to press the sealing member 21 and fixing the bush 10 to the body 30 of the valve; And
And an O-ring (22) inserted into the inner diameter portion groove (12) of the bush (10)
The inclined surface of the inclined projection 11 is arranged to face the step 31,
Characterized in that the inclined protrusion (11) is moved adjacent to the step (31) by the tightening of the nut (23) so as to press the sealing material (21) rescue. The method according to claim 1,
Wherein the sealing member (21) has a rectangular cross-sectional shape which is inclined at one side. The method according to claim 1,
Wherein the O-ring (22) is a quadrilateral whose cross-section is a protruding corner. Shaped projections 11 are formed on the outer side of one side portion of the cylindrical body and threaded portions 13 are formed on the outer side surface of one side facing each other and a plurality of inner diameter grooves 12 are formed on the inner side surface, A bush 10 of a metal formed with the bush 14;
And an inclined protrusion 11 of the bush 10 and a step 31 formed at a distal end portion of a shaft insertion portion of the shaft housing 60 of the butterfly valve body 30, A sealing member 21 having elasticity in the form of an O-ring;
A nut 23 for allowing the inclined protrusion 11 of the bush 10 to press the sealing member 21 and fixing the bush 10 to the body 30 of the valve; And
The shape of a cross section inserted into the inner diameter portion groove 12 of the bush 10 includes a rectangular O-ring 22 having a corner portion protruded,
The inclined surface of the inclined projection 11 is arranged to face the step 31,
Characterized in that the inclined protrusion (11) is moved adjacent to the step (31) by the tightening of the nut (23) so as to press the sealing material (21) rescue.

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