KR101914427B1 - Connecting assembly of flange valve of rotate type - Google Patents

Abstract

According to the present invention, the inlet / outlet connector provided on both sides of the rotary flange valve fastened on the piping for controlling the fluid conveyed through the external piping includes the fastening means and the moving fastening portion and the rotary fastening portion for reinforcing the fastening force The present invention relates to a connecting assembly for a rotary type flange valve capable of easily adjusting the position of a bolt hole with a pipe flange. The connecting assembly is coupled to a second assembly portion and is disposed at one side, And an annular channel binding groove recessed to a predetermined depth is formed inside the first connection hole at one side of the first connection hole to be spaced apart from the center of the inner side and an inner coupling pipe formed with a thread on the outer peripheral surface is formed And the guide tabs protruded on one surface and the other surface of the first connection hole so as to be coupled to the guide grooves of the second assembly portion, And a second connection hole formed in the second assembly portion and disposed on the other side and penetrating through the center of the side surface and extending to the outer periphery of the first peripheral portion, And a third coupling hole penetrating through the center of the side of the third flange is formed in the third flange, and a third coupling hole passing through the center of the flange is formed in the third flange. .

Description

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

The present invention relates to a connecting assembly for a rotary type flange valve, and more particularly to a connecting assembly for a rotary flange valve, in which an inlet / outlet connector provided on both sides of a rotary flange valve fastened on a pipe for controlling a fluid conveyed through an external pipe, And the movable fastening portion and the rotary fastening portion for reinforcing the fastening force of the bolt hole can be easily adjusted to adjust the position of the bolt hole with the pipe flange. Further, since the bolt holes can be tightly coupled with each other, To a connecting assembly of a rotatable flange valve.

In general, as an example for conveying various fluids, a pipeline composed of pipes is used, and thus it is necessary to shut off the supply of the fluids in some cases or adjust the flow rate appropriately. For this purpose, a valve is provided at a predetermined position of the channel to open or close the flow of the fluid moving into the channel, or to control the flow rate. At this time, the valve installed in the pipeline is coupled by a flange so as to maintain a tight tightening relationship with the pipeline.

That is, flanges having bolt holes are formed on both sides of the valve and end portions of the pipe, bolts formed on the flanges are aligned with each other, and bolts are tightened to firmly connect the connection portions. .

Another problem conventionally encountered by manufacturers of flanges is the damage of products due to corrosion, such as external corrosion, of the elements. For example, flanges are almost constantly exposed to elements, including high heat following high moisture, water, snow and / or ice quenching in high saline conditions. Most conventional flanges are manufactured entirely using standard carbon steel or stainless steel, but both have inherent drawbacks.

Stainless steel flanges have a relatively high corrosion resistance, but the cost of replacing stainless steel flanges is relatively high because of high production costs. Carbon steel flanges, on the other hand, are cost-effective, but they generally corrode quickly and are difficult to service within the warranty period.

The flanges can be damaged by the fluid and the exhaust gases themselves, causing the flanges to bind and erode, making the flange or exhaust system difficult to service. Services for moving fluids to systems related to assembly and disassembly can often require cutting of tubing and the like.

Thus, there is a need not yet addressed in the industry to address the aforementioned drawbacks and deficiencies.

Patent Document 10-1611760 (entitled: Flange Assembly for Connecting a Double Metal Pipe)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a method of controlling a fluid flowing through an external pipe, The input / output connector is provided with the fastening means and the moving fastening portion and the rotary fastening portion for reinforcing the fastening force, so that it is possible to easily adjust the position of the bolt hole with the pipe flange. Further, The present invention provides a connecting assembly for a rotatable flange valve that can have a structure.

According to the present invention, there is provided an air conditioner comprising: a body having a hollow internal channel formed therein; an opening / closing means for controlling a fluid being installed inside the body; And a valve flange provided at each end of the input / output connector, the valve flange having a plurality of bolt holes radially formed on an outer side thereof,

The input connector and the output connector are formed symmetrically with respect to each other. The input connector and the output connector have a first assembly portion formed with threads on an outer circumferential surface so as to be coupled to an inner circumferential surface thread of the body passage, And a second outer peripheral portion having an outer diameter larger than an outer diameter of the first outer peripheral portion, the outer peripheral portion being constituted by a first protruding tab and a first outer circumferential portion having a predetermined width, A second assembly portion having a guide groove formed on one surface and the other surface in a horizontal direction on the outer periphery of the second outer peripheral portion and a second assembly portion having a guide groove formed on the other surface of the third outer portion, And an assembly section,

A first connection hole which is fastened to the second assembly part and is disposed on one side and penetrates through the center of the side surface and extends to the outer circumference of the second outer circumference part, And an inner coupling tube having an annular channel coupling groove formed therein and spaced apart from an inner center and having a thread on an outer peripheral surface thereof are formed on the inner peripheral surface of the first connection hole and a guide tab Is provided,

A second connection hole formed in the second assembly portion and disposed on the other side and penetrating through the center of the side surface and extending to the outer periphery of the first outer peripheral portion, And a rotary coupling part for connecting a coupling pipe of a round bar having a screw thread formed on an inner peripheral surface thereof,

Wherein the valve flange is fastened to the third assembly part and has a third connection hole formed at a center of a side surface thereof.

On the other hand, one side of the valve flange is formed with a coupling groove at an inner peripheral end of one side of the third connection hole corresponding to the release prevention tab protruding in the circumferential direction at the outer peripheral edge of the third assembly part, And a contact groove is formed so that the outer circumference of the moving contact part is in contact with the inner circumferential edge of the third connection hole on the side of the third connection hole while being further extended to the second outer periphery of the second assembly part.

According to the present invention, the inlet / outlet connector provided on both sides of the rotary flange valve fastened on the piping for controlling the fluid conveyed through the external piping includes the fastening means and the moving fastening portion and the rotary fastening portion for reinforcing the fastening force , The position of the bolt hole with the pipe flange can be easily adjusted, and the coupling force between the flanges can be reinforced to have a tight coupling connection structure.

1 is a perspective view of a valve having a connection assembly of a rotatable flange valve in accordance with one embodiment of the present invention.
2 is a top view of a valve having a connecting assembly of a rotatable flange valve according to an embodiment of the present invention.
3 is a cross-sectional view of a valve having a connection assembly of a rotatable flange valve according to an embodiment of the present invention.
4 is a sectional view of a valve having a connection assembly of a rotatable flange valve according to an embodiment of the present invention, in which a rotatable assembly-moving fastener-valve flange is coupled to an input connector.
5 is a perspective view of an output connector in a valve having a connection assembly of a rotatable flange valve in accordance with an embodiment of the present invention.
FIG. 6 is a front perspective view (a), a rear perspective view (b), and a sectional view (c) of a moving contact portion in a valve having a connection assembly of a rotary flange valve according to an embodiment of the present invention.
Figure 7 is a cross-sectional view (a) and a cross-sectional view (b) of a rotor assembly in a valve having a connection assembly of a rotatable flange valve according to one embodiment of the present invention.
FIG. 8 is a cross-sectional view of a valve having a connection assembly of a rotatable flange valve according to an embodiment of the present invention, in which a valve flange having a contact groove extending from the input connector-valve flange-moving contact-

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, like reference numerals refer to like elements throughout. The same reference numerals in the drawings denote like elements throughout the drawings.

1 to 7, the present invention includes a body 10 having an internal hollow channel 11 formed therein, an opening / closing means 20 installed inside the body 10 for controlling a fluid to be transferred, Output connectors 100a and 100b which are symmetrically connected to each other on both sides of the body 10 and in which a flow path 101 is formed, A rotary type flange valve (1) comprising a valve flange (400) having a plurality of bolt holes (410) radially formed on the outer side thereof,

The input connector 100a and the output connector 100b are formed symmetrically with respect to each other and have a first assembly part (not shown) formed with threads on the outer circumferential surface to be fastened to the inner circumferential surface thread of the body 10, A protruding tab 111 protruding in the circumferential direction on the outer circumferential surface of the first assembly part 110 and a protruding tab 111 protruding from the protruding tab 111 in a predetermined length, (121a) and a second outer peripheral portion (121b) having an outer diameter larger than an outer diameter of the first outer peripheral portion (121a) to form an outer peripheral edge. The outer peripheral edge of the first outer peripheral portion A second assembly 120 having a guide groove 122 formed therein and a second assembly 120 connected to the second assembly 120 by a predetermined length and having an outer diameter larger than that of the second assembly 120, 3 assembly part 130,

A first connection hole 210 which is fastened to the second assembly part 120 and is disposed at one side and extends to the outer periphery of the second outer peripheral part 121b through the center of the side, An inner coupling pipe 230 having an annular channel coupling groove 220 formed at an inner side thereof and having a predetermined depth is formed and is spaced apart from the inner center and a thread is formed on the outer peripheral surface of the coupling pipe 210, And a guide tab 211 protruding from one surface of the inner circumferential surface of the first connection hole 210 and the other surface of the first connection hole 210 so as to be coupled to the guide groove 122 of the first connection hole 210,

The second connection hole 310 is formed on an outer circumference of the first outer circumferential portion 121a through a center of a side surface of the second assembly portion 120. The second connection hole 310 is formed on the outer circumference of the first outer circumferential portion 121a, And a rotary joint 300 protruding outside the second connection hole 310 of the one side facing the flow path coupling groove 220 and connected to a coupling pipe 320 having a threaded inner circumferential surface,

The valve flange 400 is fastened to the third assembly part 130 and has a third connection hole 410 formed at the center of the side surface thereof to provide a connection assembly of the rotary flange valve.

2 and 3, the rotary type flange valve 1 of the present invention includes a body 10, an opening / closing means 20, an input connector 100a, an output connector 100b, a valve flange 400, And has a joint structure composed of the tight fitting portion 200 and the rotor fitting portion 300.

The input connector 100a and the output connector 100b are coupled to one side and the other side of the body 10 and the input connector 100a and the output connector 100b have the same structure, The valve flange 400, the moving contact portion 200, and the rotor assembly 300 are coupled to the respective input / output connectors 100a and 100b.

As shown in FIGS. 3 to 5, a separation prevention tab 131 protruding in the circumferential direction is formed at the outer peripheral edge of the third assembly part 130 of the input / output connectors 100a and 100b, The valve flange 400 serves to enlarge the coupling area with the valve flange 400 while preventing the valve flange 400 from being released to the outside when the valve flange 400 is engaged with the third assembly 130. Of course, The coupling hole 410 may have an inner circumferential surface formed with a coupling groove 411 corresponding to and receiving the separation prevention tab 131.

The input / output connectors 100a and 100b are connected to the first assembly 110, the protrusion tab 111, the second assembly 120, and the third assembly 130, And a flow path is formed inside.

The first assembly part 110 is threaded on the outer circumferential surface of the body 10 to be coupled to the body 10 so as to be fastened to a thread formed on the inner circumferential surface of the flow path 11.

The protruding tabs 111 protrude in the circumferential direction on the outer peripheral surface of the first assembly part 110 to block movement of the rotor assembly 300 described below.

The second assembly part 120 is connected to a predetermined length from the outside of the protruding tab 111. At this time, the outer circumferential surface from the side of the protruding tab 111 is divided into a first outer circumferential part 121a and a second outer circumferential part 121b The second outer circumferential portion 121b has a larger outer diameter than the outer diameter of the first outer circumferential portion 121a. At this time, the outer circumferential surface of the second outer circumferential portion 121b, A guide groove 122 is formed.

The third assembly part 130 is connected to a predetermined length outside the second outer part 121b of the second assembly part 120 and has a larger outer diameter than the outer diameter of the second assembly part 120, The assembly 130 is formed with an escape tab 131 protruding circumferentially at the outer peripheral edge, that is, at the outer peripheral edge of the position where the valve flange 400 is interposed.

3, 4, and 6, the moving contact unit 200 is disposed in the second outer peripheral portion 121b of the second assembly unit 120, and has a first connection (not shown) The first outer circumferential portion 121b and the second outer circumferential portion 121b are coupled to the outer circumferential surface of the first outer circumferential portion 121b and the inner circumferential surface of the first outer circumferential portion 121b, The guide tab 211 is formed so that the moving contact unit 200 moves left and right through the guide groove 122 in the longitudinal direction of the second outer peripheral portion 121b.

An annular oil passage 310 is formed at the outer side of the first connection hole 210 at one side of the moving contact unit 200, that is, at one side facing the tightening pipe 320 of the rotor assembly 300, An inner coupling pipe 230 having a coupling groove 230 formed on an outer circumferential surface of the coupling groove 220 while being spaced apart from the inner center of the coupling coupling portion 200 is formed on the inner side of the coupling groove 220, The inner binding pipe 230 and the outer binding pipe 240 forming the outer periphery of the moving adhered portion 200 are formed on the outer side.

3, 4, and 7, the rotor assembly 300 is disposed in the first outer peripheral portion 121a of the second assembly portion 120, and has a second connection (not shown) The inner circumferential surface of the second connection hole 310 is coupled to and bonded to the outer circumferential surface of the first outer circumferential portion 121a to form an outer circumferential surface of the first outer circumferential portion 121a, A screw is formed on the inner circumferential surface while protruding outside the second connection hole 310 on one side facing the flow path coupling groove 220 of the moving tight contact part 200, And a connection pipe 320 is connected to the connection hole 310 so as to communicate with the connection hole 310.

The fastening pipe 320 is screwed to the screw thread formed on the inner circumferential surface of the fastening pipe 320 and the screw thread formed on the outer circumferential surface of the inner fastening pipe 230 while being moved into the flow path fastening groove 220 of the moving fastener 200, The rotary contact unit 300 moves in the longitudinal direction of the second outer peripheral part 121b by the rotation of the entire joint 300 and the rotary joint unit 300 is interrupted by the first outer peripheral part 121a, The first outer circumferential portion 121a of the second outer circumferential portion 121b is positioned on the first outer circumferential portion 121a without being moved to the second outer circumferential portion 121b of the second outer circumferential portion 121b, The moving contact unit 200 bound to the groove 122 moves left and right along the guide groove 122.

The moving contact unit 200 and the rotor assembly 300 are coupled to the second assembly unit 120 so that the connection pipe 320 of the rotor assembly 300 is drawn into the flow path coupling groove 220, The moving fastener 200 is screwed or loosened from the fastener pipe 320 when the rotary fastener 300 is rotated, Moves in the longitudinal direction of the second outer peripheral portion 121b along the guide groove 122 of the second outer peripheral portion 121b.

The valve flange 400 is disposed in the third assembly part 130 and has a third connection hole 410 penetrating to both sides of the side surface at the center of the side, A plurality of bolt bearings 420 are formed radially so that the flange 30 formed at the end of the pipe 3 and the valve flange 400 are in close contact with each other to be tightly coupled.

8, one side of the valve flange 400 is connected to the third connection hole 410 corresponding to the departure prevention tab 131 protruding in the circumferential direction on the outer peripheral edge of the third assembly part 130 And the other side of the valve flange 400 is further extended to the second outer peripheral portion 121b of the second assembly portion 120 with a predetermined horizontal length, (412) is formed on an outer circumferential surface of the other end of the movable contact unit (410) so that the outer circumference of the movable contact unit (200) is in contact.

The other side of the valve flange 400 is further extended so that the rotation of the rotary joint 300 causes the movable contact unit 200 and the rotary joint unit 300 to rotate, The moving contact portion 200 which is in contact with the contact groove 412 of the valve flange 400 simultaneously pushes the valve flange 400 and presses the valve flange 400 outward while moving the valve flange 400, The valve flange 400 to be urged is firmly brought into close contact with the pipe flange 30 to maintain a tight and tight contact structure.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. Will be clear to those who have knowledge of.

Valve 1 body 10 opening and closing means 20
Input / output connectors 100a, 100b First assembly 110 Second assembly 120
The first outer peripheral portion 121a, the second outer peripheral portion 121b, the guide groove 122
Third assembling part 130 Disengagement prevention tab 131 Moving fastening part 200
First connection hole 210 Guide tab 211 Euro coupling groove 220
Inner coupling pipe 230 Inner coupling pipe 240 Inner coupling 300
Second connection hole 310 Fastening pipe 320 Valve flange 400
Third connection hole 410 Bonding groove 411 Contact groove 412
Bolt hole 420

Claims (2)

An opening / closing means for controlling a fluid to be installed in the body, an inlet / outlet connector having a flow path formed therein on both sides of the body and symmetrically connected to each other, And a valve flange provided at each end of the output connector and having a plurality of bolt holes radially formed on the outer side thereof,
The input connector and the output connector are formed symmetrically with respect to each other. The input connector and the output connector have a first assembly portion formed with threads on an outer circumferential surface so as to be coupled to an inner circumferential surface thread of the body passage, And a second outer peripheral portion having an outer diameter larger than an outer diameter of the first outer peripheral portion, the outer peripheral portion being constituted by a first protruding tab and a first outer circumferential portion having a predetermined width, A second assembly portion having a guide groove formed on one surface and the other surface in a horizontal direction on the outer periphery of the second outer peripheral portion and a second assembly portion having a guide groove formed on the other surface of the third outer portion, And an assembly section,
A first connection hole which is fastened to the second assembly part and is disposed on one side and penetrates through the center of the side surface and extends to the outer circumference of the second outer circumference part, And an inner coupling tube having an annular channel coupling groove formed therein and spaced apart from an inner center and having a thread on an outer peripheral surface thereof are formed on the inner peripheral surface of the first connection hole and a guide tab Is provided,
A second connection hole formed in the second assembly portion and disposed on the other side and penetrating through the center of the side surface and extending to the outer periphery of the first outer peripheral portion, And a rotary coupling part for connecting a coupling pipe of a round bar having a screw thread formed on an inner peripheral surface thereof,
Wherein the valve flange is fastened to the third assembly part and has a third connection hole formed at a center of a side surface thereof. The method according to claim 1,
One side of the valve flange is formed with a coupling groove at an inner peripheral end of one side of the third connection hole corresponding to the release prevention tab protruding in the circumferential direction on the outer peripheral edge of the third assembly part, Wherein a contact groove is formed in the outer circumferential portion of the assembled portion so that the outer circumference of the moving contact portion is in contact with the inner circumferential end of the third connecting hole.

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