KR101180284B1 - Welding type insulation ball valve - Google Patents

Abstract

PURPOSE: A welded insulating ball valve is provided to achieve a perfectly welded insulating ball valve structure and to firmly fix an insulator to a welded ball valve. CONSTITUTION: A welded insulation ball valve comprises an insulator(120), a body joint(130), and a supporting plate(140). The insulator is fitted in the outer circumference of an end piece(110). The body joint is located on the insulator to cover at least a part of the top surface of the insulator, and is coupled to one end of a ball valve body casing(11). The supporting plate is located between the inner circumference of the body joint and the outer circumference of the end piece to be coupled to the outer circumference of the end piece. The supporting plate pressurizes and supports the rear surface of the insulator while being located between the ball valve body part and the insulator in a longitudinal direction of the end piece. The top surface of the supporting plate supports the inner circumference of the body joint. The insulator comprises a shaft part(121) and a flange part(122).

Description

Welded Insulation Ball Valve {WELDING TYPE INSULATION BALL VALVE}

The present invention relates to a welded ball valve in which an end piece of a pipe and a ball valve are connected by welding, and relates to a welded insulated ball valve having an insulator between the ball valve body portion and the end piece. In particular, the present invention relates to a welded insulated ball valve having a support plate for pressing and supporting the insulator, which provides a simple and reliable fixed support structure for the insulator in the welded ball valve.

The ball valve is to allow the gas or liquid flowing through the pipe connected to both ends of the valve body to be supplied to the required place or to be blocked by the opening and closing action of the ball installed therein.

These ball valves and the pipes connected thereto are generally conductive steel pipes, in which currents and static electricity discharged by ground currents or leakage currents caused by leakage or other causes are conducted through the pipes. Is generated. This conduction electricity causes electrical corrosion of pipes and shortens the life of pipes and ball valves, and there is a risk of major accidents such as explosion caused by contents exposed by electrical corrosion (for example, LNG gas). It is very important to cut off the flowing current.

Background Art A conventional technique has been proposed in which an insulation joint is provided on a pipe to insulate the pipe and the ball valve. However, insulated joints are not only expensive, but also had to be installed by connecting the insulated joints to the pipe joints in the field, which is not only cumbersome for piping work, but also reduces the airtightness at the insulated joints, causing leakage and leakage of fluid in the pipes. It is becoming.

For this reason, a technique of providing an insulator in the ball valve itself has been proposed. Typically, the conventional in which the insulating member is formed by coating or injection molding the insulator on the screw coupling portion of the ball valve body and the cap member screwed to the main body. A technique (screw type insulated ball valve) or a technique (so-called flange type insulated ball valve) has been proposed in which an insulator is coupled to a flange coupling portion of a ball valve body and a cap member or a peripheral screw coupling portion of the flange coupling portion.

However, in the case of a screw-type insulated ball valve, there is a high possibility that the insulating member of the screw coupling part is damaged by friction by screwing, and furthermore, the insulating member may be damaged again during separation and reassembly for maintenance. There was a downside.

In addition, in the case of a flange type insulated ball valve, a gasket is installed to seal the flange coupling portion, but in reality, it is difficult to completely seal the flange coupling portion. Furthermore, since the flange coupling portion is exposed to the outside, corrosion occurs such as rust, and thus, In particular, flange valves are made of castings, and the castings are rusted due to their characteristics, and when the members of other materials such as piping are combined, the problem of rusting becomes more serious, and thus the possibility of breakage of the insulating member is further increased. Gets bigger

Recently, in order to solve the disadvantages of the conventional screw-type ball valve and the flange-type ball valve, a welded ball valve has been proposed that does not expose the coupling portion to the outside by connecting the pipe and the ball valve body by welding. Such welded ball valves have advantages of excellent airtightness and long life compared to flanged ball valves or screw type ball valves.

However, such a welded ball valve does not show any insulation structure such as providing an insulation member. In particular, since the welded ball valve needs to avoid the formation of the external exposed portion, there is a problem that it is not easy to form the flange coupling portion or the screw coupling portion and install the insulating member on the coupling portion as in the prior art.

The present invention provides a welded ball valve in which an end piece of a pipe and a ball valve is connected by welding, and insulates a simple and robust structure without forming a flange coupling part or a screw coupling part by flange formation of a ball valve or a pipe. It is an object of the present invention to provide a welded insulated ball valve capable of achieving an effective insulation function while taking advantage of a welded ball valve by providing a member mounting structure.

In addition, an object of the present invention is to provide a fully welded insulated ball valve having excellent airtightness, and which can be assembled only by simple fitting and welding between members.

The welded insulated ball valve of the present invention for achieving the above object is a welded ball valve in which an end piece of a pipe and a ball valve are connected by welding, the insulator being fitted to the outer circumference of the end piece, and the insulator. Located on the insulator to cover at least a portion of the upper surface, the body joint coupled to the ball valve body casing, and the ball valve body of the insulator located on the rear side of the insulator between the inner circumferential surface of the body joint and the outer circumference of the end piece It is characterized in that it is configured to include a support plate coupled to the end surface outer peripheral surface by pressing the side of the side.

According to an embodiment of the present invention, the insulator includes a shaft portion and a flange portion extending under the shaft portion and pressed by a support plate, and an inner surface of the body joint covers a flange portion covering the flange portion of the insulator. And a shaft cover protrusion end portion covering at least a portion of the shaft portion, and a stepped portion formed between the flange portion cover portion and the shaft cover protrusion end portion and engaged with a step surface formed between the shaft portion and the flange portion of the insulator. .

According to another embodiment of the present invention, the insulator is located on the outer periphery of the end piece on the insulator surface opposite the ball valve body of the insulator, may further include an end joint coupled to the outer peripheral surface of the end piece by pressing and supporting the insulator surface on the opposite side. .

In another embodiment, the insulator includes a shaft portion, a flange portion which extends under the shaft portion and is pressurized and supported by a support plate, and an upwardly bent portion which is bent upward from the shaft portion and is pressed by the end joint. An outer circumferential surface extending to the shaft portion and the flange portion is a concave groove having the shaft portion as a bottom, and the inner surface of the body joint includes a flange portion cover portion covering the flange portion of the insulator and a protruding end portion fitted into the recess groove. One is preferable.

In the outer circumference of the end piece, in the case of the embodiment having the stepped portion or the end joint in which the end of the insulator is fixed, it is preferable that the stepped portion is formed in which the end of the end joint is fixed.

For convenience of coupling, the insulator may be in the form of two separate insulating rings or insulating sheets.

In addition, if necessary, at least one of the end joint and the end piece, the body joint and the ball valve body portion casing, the support plate and the end piece outer circumferential surface, and the support plate and the body joint inner circumferential surface is preferably joined by welding. In the present invention, when all the coupling portions are welded together, a fully welded insulated ball valve can be realized.

When the body joint and the ball valve body are welded to each other, it is preferable that an extension part is formed in contact with a lower portion of the weld end of the body joint and is formed below the weld end of the ball valve body.

In addition, in the present invention, the O-ring may be disposed between the body joint and the insulator, between the insulator and the end piece, between the insulator and the end joint, and between the insulator and the support plate.

In addition, the anticorrosive coating may be applied to a portion of the insulator not covered by the body joint. In addition, the insulator may be provided on the end pieces on both sides of the ball valve body.

According to the present invention, in the welded ball valve, the insulator interposed between the body joint and the end piece and the back plate of the insulator are closely attached to the welded ball valve by the support plate coupled to the end piece. It can be fixed securely.

In addition, according to the present invention, by further comprising an end joint for supporting the insulator and coupled to the end piece, by making the shape of the insulator securely sandwiched by the support plate-body joint-end joint and the end piece, the weld type In the ball valve, it is possible to more securely support the insulator.

In addition, according to the present invention, the joint of the body joint, the end piece, the insulator and / or the end joint can be achieved only by welding and fitting and engaging between the members, thereby achieving the structure of the fully welded insulating ball valve. There is an effect.

1 is a view showing a schematic diagram of a conventional welded ball valve.
2 is a view showing an embodiment of a welded insulating ball valve of the present invention.
3 to 6 are views showing an assembling procedure of the welded insulated ball valve according to the embodiment, and FIG. 3 is a view showing an insulator fitted to an end piece of the ball valve.
FIG. 4 is a diagram showing that a body joint is placed on the insulator of FIG. 3.
5 is a view showing that the support plate is pressed and supported on the rear surface of the insulator and the inner circumferential surface of the body joint of FIG. 4.
Fig. 6 is a schematic view showing a state in which a ball valve body portion is provided behind the support plate, the casing of the ball valve body portion is welded to the body joint, and the ball valve assembly is completed.
7 is a view showing another embodiment of the welded insulating ball valve of the present invention.
8 to 12 are views showing the assembling procedure of the welded insulated ball valve according to another embodiment, and FIG. 8 is a view showing that the end joint is welded to the end piece of the ball valve.
FIG. 9 is a diagram showing that an insulator is fitted on an end piece portion behind the end joint. FIG.
FIG. 10 is a view showing a body joint placed on the insulator of FIG. 9.
FIG. 11 is a view showing that the support plate is placed on the end piece behind the insulator of FIG. 10 while pressing and supporting the insulator. FIG.
Fig. 12 is a schematic view showing a state in which a ball valve body portion is provided behind the support plate, the casing of the ball valve body portion is welded to the body joint, and the ball valve assembly is completed.

Hereinafter, the present invention and its preferred embodiments will be described in more detail with reference to the drawings. However, it should be clearly understood by those skilled in the art that the present invention may be variously modified within the scope of the technical idea included in the claims, and the scope is not limited by the following examples.

1 is a view showing a schematic view of a conventional welded ball valve 100.

As shown in FIG. 1, the end piece 110 and the pipe 200 of the ball valve part 100 are coupled by welding (W), and the flange coupling part is not provided anywhere in the ball valve. The present invention is characterized by introducing a unique insulator coupling structure between the end piece 110 for connecting the ball valve to the pipe 200 and the ball valve body portion (ball valve body portion).

2 is a view showing an embodiment of a welded insulating ball valve 100 of the present invention. The insulator 120 is fitted on the outer circumference of the end piece 110 of the ball valve 100. The insulator 120 is in the form of an insulating sheet or an insulating ring along the outer circumference of the end piece 110, and forms an opening in a portion of the circumference so as to be inserted into the end piece 110 by opening the insulating ring, or insulated ring or insulation The sheet may be divided into two or more semi-circular or arc-shaped plural pieces and fitted to the end piece.

As in the present embodiment, when the insulator 120 is composed of the shaft portion 121 and the flange portion 122 extending below, the flange portion 122 has a greater force at the time of the pressing support of the supporting plate 140 described later. It is preferable from the viewpoint of airtightness and tightness of the insulating structure because it can be tightly supported.

When the stepped portion 111 is formed at a predetermined position on the outer circumferential surface of the end piece 110, and the insulator 120 is inserted into the end piece 110 so as to stop the tip portion of the insulator 120 from the stepped portion 111. In addition, the fixing of the insulator 120 on the end piece 110 is facilitated, and the assembly operation and standardization of the ball valve assembly can be easily achieved.

The body joint 130 covering an upper surface of at least a portion of the insulator 120 is positioned above the insulator 120. For airtightness, it is preferable to form the inner surface shape of the body joint 130 to match the outer circumferential shape of the insulator 120. That is, the inner surface of the body joint 130 is formed of a flange cover portion 132 covering the flange portion 122 of the insulator 120 and a shaft cover protrusion end portion 131 covering at least a portion of the shaft portion 121. To cover the flange portion 122 and the shaft portion 121 of the insulator 120. At this time, the stepped portion 130S (including one side of both sides of the protruding end surface of the protruding end portion) formed between the flange portion cover portion 132 and the protruding end portion 131 of the body joint 130, and an insulator The stepped surface 120S formed between the shaft portion 121 and the flange portion 122 of the 120 is engaged, and the body joint 130 and the insulator 120 are coupled without gaps.

Meanwhile, in order to further improve airtightness, the O-ring S1 may be interposed between the shaft portion 121 and the protrusion surface of the protrusion end portion 131 of the body joint 130.

The most characteristic point in this invention is that the support plate 140 which press-supports the side surface of the ball valve body 10 side of the said insulator 120 is provided. The support plate 140 is located on the rear side of the insulator 120 (back side of the flange portion 122) between the inner circumferential surface of the body joint 130 and the outer circumference of the end piece 110, and thus the ball valve body of the flange portion 122. While pressing and supporting the side of the side 10, it is coupled to the end piece (110).

Pressurized support of the support plate 140 is performed by forcibly pushing the support plate 140 to the insulator 120 by a jig, for example. Since the tip of the insulator 120 is caught by the stepped portion 111 of the end piece 110, the support plate 140 and the insulator 120 are strongly pushed and supported by the stepped portion 111 of the end piece 110.

The fixing of the support plate 140 is achieved by welding (W2) the lower end of the ball valve body side end surface of the support plate 140 to the end piece 110. Further, when the upper end of the ball valve body side end surface of the support plate 140 is welded (W3) to the inner peripheral surface of the body joint 130, the sea joint 130-insulator 120-support plate 140 on the end piece 110 ) Is fixed.

The size of the support plate 140 is preferably equal to the diameter of the flange portion 122. As a result, the support plate 140 may not only support one side of the flange portion 122 by pressure, but also the upper surface thereof may simultaneously support the inner circumferential surface of the body joint 130.

At the rear of the support plate 140, a ball valve body 10 having a ball valve body, i.e., a ball, stem, valve operation portion, valve seat, retainer and ball valve body casing 11 is provided, and the ball valve body One end of the portion 10 is coupled to the end of the end piece 110. Since the assembly of the ball valve body 10 and the coupling with the end piece 110 is known, the description thereof is omitted. However, in order to achieve the function as an insulating ball valve, the valve seat needs to be an insulating member. Strictly, the insulating function of the valve seat in addition to the insulator acts together to almost completely ensure the insulation of the welded insulating ball valve.

By coupling the body joint 130 with the casing 11 of the ball valve body and welding (W1), the fixed coupling of the insulating structure of the present invention is completed. At this time, the weld melt may flow into the gap between the body joint welding end 130a and the welding end 11a of the ball valve body casing 11, so that the body is welded to the lower portion of the casing 11a of the casing. By forming an extension portion 11b extending in contact with the lower portion of the weld end 130a of the joint 130, it is preferable to prevent the melt from flowing into the extension portion 11b. Of course, on the contrary, the lower end of the weld end 130a of the body joint 130 may be provided with an extension part which is in contact with the lower end of the weld end 11a of the casing.

In this embodiment, the O-ring S1 is disposed only between the shaft portion 121 of the insulator 120 and the protruding end portion 131 of the body joint 130, but an additional O-ring S4 (e.g., , Between the insulator inner peripheral surface and the end piece outer peripheral surface: FIG. 4).

As described above, in the present invention, the insulator 120 is fixed to the outer surface of the body joint 130 and the end piece 110, and at the same time, one side of the insulator 120 is pressed and supported by the support plate 140. By welding (W1) the support plate 140 and the end piece 110, the support plate 140 and the inner circumferential surface of the body joint 130, the body joint end 130a and the end 11a of the ball valve body casing, The airtight fixed installation structure of the insulator 120 can be easily achieved by fitting and fully welding a welded insulating ball valve.

3 to 6 are cross-sectional views showing a part of the welded insulated ball valve 100 according to the embodiment to show the assembling procedure.

In FIG. 3, the insulator 120 is fitted to the end piece 110 of the ball valve, and the tip of the insulator 120 is supported by the stepped portion 111 formed in the end piece 110. For airtightness, in this embodiment, an O-ring S4 is provided between the inner circumferential surface of the insulator 120 and the outer circumferential surface of the end piece 110.

Next, as shown in FIG. 4, after the O-ring S1 is interposed between the protruding end portion 131 of the body joint 130 and the shaft portion 121 of the insulator 120, the body joint 130 The body joint 130 is in close contact with the insulator 120 such that the flange cover part 132 and the protruding end portion 131 cover the flange part 122 and the shaft part 121 of the insulator 120, respectively. At this time, most of the protruding end 121 covers the insulator 120, but the end of the insulator 120 is exposed out of the body joint 130. By this exposed insulator 120 end, insulation between the body joint 130 and the end piece 110 is more reliably achieved. At this time, if the end of the insulator and the end of the body joint to form a shape formed in succession with the same inclined as shown in Figure 4, not only can form a gas-tight portion without a gap, but also a sharp end Because it does not. The end piece 110 may achieve a wear protection effect by collision with an external object.

Subsequently, as shown in FIG. 5, the support plate 140 is urgedly supported by the jig on the rear of the flange portion 121 of the insulator 120 and the inner circumferential surface of the body joint 130, and the stepped portion of the end piece of the end piece is formed. Press firmly on By this pressing support, the stepped surface 120S of the insulator 120 and the stepped portion 130S of the body joint 130 are also closely supported. After the pressing support, the upper and lower surfaces of the opposite side of the insulator of the support plate 140 are welded to the inner surface of the body joint 130 and the outer peripheral surface of the end piece 110, respectively.

Next, as shown in FIG. 6, the ball valve body part casing 11 is coupled to the body of the body joint 130 at the same time as the ball valve body part 10 is attached to the end piece 110. Welding (W1) to one end 130a is completed.

7 is a view showing another embodiment of the welded insulating ball valve of the present invention.

In the embodiment of FIG. 7, the same parts as in the embodiment of FIG. 1 are denoted by the same reference numerals, and description thereof will be omitted, and other parts will be mainly described.

7, the insulator 120 further includes an end joint 150 that is pressurized to support the insulator surface opposite to the ball valve body 10 and coupled to the outer circumferential surface of the end piece 110. . In this embodiment, similarly to the embodiment of FIG. 1, when the end 111 is formed at a predetermined position of the end piece 110, the tip of the end joint 150 is stopped at the stepped portion 111. Then, after the front end is coupled to the end piece 110 by welding (W4) or the like, the end joint 150 can be easily coupled on the end piece 110, the assembly work and ball valve assembly Standardization can also be easily achieved.

In addition, in the present embodiment, an upward bent portion 124 extending from the shaft portion 121 of the insulator 120 and bent upwardly is formed, so as to be in close contact with the upwardly bent portion 124 and the end joint 150. As a result, the insulator 120 is more securely fixed on the end piece 110.

The insulator 120 of this type has a shaft portion 121 between the flange portion 122 and the upward bent portion 124 in the shape of a concave groove, so that the protruding end portion 131 of the body joint 130 is closed. There is an advantage that the body joint 130 can be more securely supported on the insulator 120 by being inserted into the concave groove. In addition, when the protruding end portion 131 is fitted into the concave groove, the protruding surface of the protruding end portion 131 of the body joint presses the shaft portion 121 of the insulator and the ball valve body side lower end of the protruding end portion The surface 130S is held in close contact with the stepped surface 120S between the flange portion and the shaft portion of the insulator, and the upper end surface 130E of the end joint side (that is, the other one of both sides of the protruding end surface of the protruding end portion) is bent upward of the insulator. Since the part 124 is closely attached to each other, close fixing between the sea joint 130, the insulator 120, and the end joint 150 may be more firmly achieved.

The support plate 140 is also coupled to the end piece 110 while pressing and supporting the flange portion 131 is the same as the embodiment of Figure 1, in this embodiment end joints on the opposite side of the support plate 140 Since the 150 is coupled on the end piece 110, the end joint 150 receives and supports the opposite side surface of the insulator 120 during the pressure support of the support plate 140, thereby supporting the pressure of the support plate 140. Is even easier. Moreover, the insulator 120 has an upward bent portion 124 so that the bent portion 124 and the end joint 150 form a large contact area, so that the pressing support and the close fixing by this are more firmly achieved. .

The backing plate 140 is fixed on the end piece 110 by welding the opposite side of its insulator to the end piece 110 as in the embodiment of FIG. 1. In this case, the support plate 140 may be additionally welded to the inner circumferential surface of the body joint 130.

However, in the present embodiment, in order to more surely ensure the insulation between the body joint 130 and the support plate 140, the flange portion of the insulator is inserted between the inner surface of the body joint 130 and the support plate 140 A horizontal bending extension part 123 may be formed to be horizontally bent and extended from 122. Since the horizontal bending extension 123 is also supported by the support plate 140 and the body joint 130, the upward bending portion 124-the shaft portion 121-the flange portion 122-the horizontal bending extension 123 The end joint 150, the body joint inner surfaces 131 and 132, and the support plate 140 form a rigid insulating member fixing support structure along the outer shape of the insulator 120.

Other connection of the ball valve body 10 and the end piece 110 and the welding coupling of the ball valve body casing 11 and the body joint 130 is the same as the embodiment of FIG.

8 to 12 show the assembly sequence of the welded insulated ball valve of the embodiment of FIG. 7 in more detail.

In FIG. 8, the end joint 150 is mounted on the end piece 110 such that the end portion of the end joint 150 is hooked to the stepped portion 111 of the end piece 110. Since the end joint 150 is closely supported by the insulator 120, the body joint 130, and the pressing support and welding by the support plate 140, welding of the end joint 150 and the end piece 110 is essential. Although not a matter, in the present embodiment, the tip of the end joint 150 is welded to the end piece 110 (W4) for a more secure coupling.

Next, as shown in FIG. 9, the up bending portion 124 of the insulator 120 is pushed and supported by the end joint 150, and the insulator 120 is fitted onto the end piece 110.

Thereafter, as shown in FIG. 10, one side of the stepped surface 120S and the upward bent portion 124 of the insulator 120 becomes both side walls, and the outer circumferential surface of the shaft portion 121 is the bottom of the insulator 120. While fitting the protruding end portion 131 of the body joint 130 into the concave groove shape, one inner peripheral surface 132 of the body joint 130 covers the horizontal bending extension portion 123 of the insulator 120. The body joint 130 is fitted onto the insulator 120 to be coupled. At this time, the upwardly bent portion 124 exposed between the body joint 130 and the end joint 150 reliably insulates the body joint 130 from the end joint 150.

Next, as shown in FIG. 11, the support plate 140 is jig-plated with respect to the horizontal bending extension part 123 of the insulator 120 which is in contact with the flange 122 of the insulator 120 and the inner circumferential surface of the body joint 130. By pressing, the insulator 120 is fixedly fixed between the end joint 150, the body joint 130, and the support plate 140. Thereafter, the lower side of the insulator opposite side of the support plate 140 is welded to the outer circumferential surface of the end joint 110. In this embodiment, since the insulating material of the horizontal bending extension portion 123 is interposed between the support plate 140 and the body joint 130, the inner joint surface of the body joint and the support plate are not welded firmly. The length of the 123 may be shortened to expose the rear side of the top surface of the support plate 140 to be welded to the inner circumferential surface of the body joint 130.

Next, as shown in FIG. 12, the ball valve body part casing 11 is coupled to the ball valve body part 10 by mounting a part such as a seat at the end of the end piece 110, and the ball valve body part casing 11 is connected to one end of the body joint ( 130a) to complete the assembly.

7 to 12, an O-ring S1 may be formed between the body joint 130 and the insulator 120 for airtightness. Of course, if necessary, additional O-rings S3 and S2 may be disposed between the insulator and the end joint and between the insulator and the support plate to improve airtightness.

On the other hand, in the present invention, when anticorrosive coating is applied to an insulator portion (insulator tip portion in the embodiment of FIG. 1, upwardly bent portion in the embodiment of FIG. 7) exposed to the outside for insulation, building walls or the like on the ground As well as the piping insulation of the granular ball valve provided, it is possible to achieve particularly preferable electric system or insulation effect for the buried welded ball valve embedded in the ground.

In the present invention, when joining each member, for example, a casing of a body joint and a ball valve body, a support plate and an inner circumferential surface of the body joint, a support plate and an end piece, or an end joint and an end piece, welding is performed. Joining between members can be achieved only by welding and fitting and engaging between each member, and the structure of the fully welded insulated ball valve can be achieved. Insulation ball valve can be implemented.

100 welded insulated ball valve, 200 piping
10 Ball valve body part 11 Ball valve body part Casing
11a Ball Valve Body Casing Weld End 11b Weld End Extension
111 Step 120 Insulator (Insulation Ring)
121 Shaft 122 Flange
123 Horizontal extension 124 Upward bend
120S Stepped 130 Body Joint
131 (Shaft cover) Protrusion end 132 Flange cover
130S Step 130E Top
140 Support Plate 150 End Joint
W1, W2, W3, W4 Weld S2, S2, S3, S4 O-ring

Claims (13)

The ball valve body portion 10, the ball valve body portion casing (11) surrounding the ball valve body portion 10 and the left and right sides of the ball valve body portion 10 is coupled to the pipe 200 and welding In the welded ball valve comprising an end piece 110 is connected by,
An insulator 120 fitted to an outer circumference of the end piece 110,
A body joint 130 positioned on an insulator so as to cover an upper surface of at least a portion of the insulator 120 and having one end side coupled to one end of the ball valve body casing 11;
Located between the inner circumferential surface of the body joint 130 and the outer circumference of the end piece 110 and coupled to the outer circumferential surface of the body joint 130, the ball of the insulator 120 is located between the ball valve body and the insulator in the longitudinal direction of the end piece. It comprises a support plate 140 for pressing and supporting the back of the insulator, which is the surface of the side facing the valve body portion, the upper surface of the support plate 140 supports the inner peripheral surface of the body joint 130,
The insulator 120 is composed of a shaft portion 121 and a flange portion 122 that extends under the shaft portion and is pressed and supported by a support plate.
The inner surface of the body joint 130, the flange cover portion 132 covering the flange portion 122 of the insulator 120, the shaft cover protrusion end portion 131 covering at least a portion of the shaft portion 121, the plan And a stepped portion (130S) formed between the branch cover portion and the shaft cover protrusion end portion and engaged with the stepped surface (120S) formed between the shaft portion and the flange portion of the insulator. delete The method of claim 1,
Welded insulating ball valve, characterized in that the stepped portion 111 is formed on the outer circumference of the end piece 110 is fixed to the front end of the insulator 120. The method of claim 1,
Welded type, characterized in that it further comprises an end joint 150 that is pressure-supporting the front surface of the insulator 120, the surface of the side opposite to the back of the insulator 120 is pressed by the support plate 140 and coupled to the outer peripheral surface of the end piece Insulated ball valve. The method of claim 4, wherein
The insulator 120 further includes an upward bent portion 124 that is bent upward from the shaft portion 121 and is urged and supported by the end joint 150, and the upwardly bent portion-axis portion 121-flange portion 122 The outer circumferential surface extending in) becomes the shape of a concave groove having the shaft portion as the bottom,
The shaft cover protrusion end portion 131 of the body joint 130 is fitted into the concave groove, the protruding end surface of the protruding end portion 131 presses the shaft portion and one side of both sides of the protruding end surface is The welded insulated ball valve, characterized in that it is in close contact with the stepped surface (120S) between the flange portion and the shaft portion of the insulator and the other side surface (130E) is in close contact with the upward bent portion 124 of the insulator. The method of claim 5,
The insulator 120 is horizontally bent from the flange portion 122, characterized in that it comprises a horizontal bending extension portion 123 that is fitted between the inner surface of the body joint 130 and the support plate 140. Welded Insulation Ball Valve. The method of claim 4, wherein
Welded insulating ball valve, characterized in that the stepped portion 111 is formed on the outer circumference of the end piece 110 is fixed to the front end of the end joint (150). The method of claim 4, wherein
Welded insulating ball valve, characterized in that the end joint 150 is welded to the end piece (110). The method according to any one of claims 1 and 3 to 8,
The insulator 120 is welded insulated ball valve, characterized in that the form of two separate insulating ring. The method according to any one of claims 1 and 3 to 8,
At least one of the body joint 130 and the ball valve body casing 11, the outer circumferential surface of the support plate 140 and the end piece 110, and an upper circumference of the support plate 140 and the inner circumferential surface of the body joint 130 are welded. Welded insulated ball valve, characterized in that coupled by. The method of claim 10,
Welded insulating ball valve, characterized in that the extension portion (11b) is formed in contact with the lower end of the weld end (130a) of the body joint 130, the lower end of the weld end (11a) of the ball valve body casing (11). The method according to any one of claims 1 and 3 to 8,
Welded ball valve, characterized in that the O ring is disposed between the body joint 130 and the insulator 120, between the insulator 120 and the end piece 110, and between the insulator and the support plate. The method according to any one of claims 1 and 3 to 8,
The insulator 120 is welded insulated ball valve, characterized in that installed on both the end piece of the left side and the right end piece of the ball valve body (10).

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