KR102031517B1 - Ball valve unit with temperature control - Google Patents

Abstract

Disclosed is a ball valve unit with temperature control. According to an aspect of the present invention, the ball valve unit with temperature control comprises: a valve body in which a spherical space and a movement flow path communicating with the spherical space and enabling a fluid to move through the movement flow path are formed; an opening and closing ball embedded in the spherical space and having a connection flow path in which communication with the movement flow path is interrupted in accordance with rotation; a stem having one end coupled to the opening and closing ball and the other end passing through the valve body to be extended outward to rotate the opening and closing ball; and a ball heating unit including a ball heating wire embedded in the opening and closing ball to heat the opening and closing ball and a ball power wire electrically connected to the ball heating wire and passing through the stem to be extended outward from the valve body.

Description

Ball valve unit with temperature control

The present invention relates to a ball valve unit capable of temperature control. More specifically, it is to provide a ball valve unit capable of temperature control that can control the internal temperature of the ball valve to prevent the generation of particles and smoothly opening and closing the valve.

In the semiconductor manufacturing process, LCD (liquid crystal display) process, and chemical process, various pipelines for supplying reaction gas or liquid are installed, and it is necessary to maintain the gas or liquid moving along the pipeline at a constant temperature during the manufacturing process. There is.

In addition, when a gas or liquid that solidifies due to a temperature change moves along the pipeline, a temperature change may cause particles inside the pipeline, and to prevent this, a gas or liquid that moves along the pipeline may have a constant temperature. You need to keep it.

In order to keep the pipeline at a constant temperature, a pipe heater jacket is being developed that maintains the temperature of the pipeline while heating the pipeline through an internal heating wire while wrapped along the pipeline.

However, in the case of a pipe having a constant cross section, the pipe heater jacket surrounding the pipe is in close contact with the outer surface of the pipe so that the heat generated from the pipe heater jacket is transferred to the pipe so that the internal temperature is relatively maintained, but the cross section such as a valve is complicated. If the valve structure is built-in inside, the heat of the pipe heater jacket does not transfer well to the inside, and there is a high possibility that particles are generated inside the valve.

In particular, in the case of a ball valve having a ball valve structure therein, the heat of the pipe heater jacket is not transferred to the solid ball, so that particles are often generated, and thus the valve is not smoothly opened and closed.

The present invention is to provide a ball valve unit capable of temperature control that can control the internal temperature of the ball valve to prevent the generation of particles, and facilitate the opening and closing of the valve.

According to an aspect of the present invention, there is provided a valve body having a spherical space therein and a moving flow path communicating with the spherical space and moving fluid; A spherical opening / closing ball embedded in the spherical space, the spherical opening and closing ball having a connection flow path intermittent with the moving flow path formed therein; A stem coupled to the opening and closing ball and the other end extending outward through the valve body to rotate the opening and closing ball; A ball heating part embedded in the opening / closing ball and including a ball heating line for heating the open / close ball, and a ball heating part electrically connected to the ball heating line and extending to an outside of the valve body. A valve unit is provided.

The opening and closing ball, and the spherical portion (球 冠 部) is formed when the opening and closing ball is cut into a virtual plane; And a spherical portion covering the spherical tube and forming a spherical shape, wherein the ball heating line may be disposed in a plane between the spherical tube and the spherical portion.

A depression in which a predetermined thickness is recessed may be formed in the plane of the sphere, and the ball heating part may include a ball heating plate installed on one surface of the ball heating wire and inserted into the depression part.

The hooking portion may be formed in the opening and closing ball to face the moving passage in accordance with the opening and closing.

The bottom surface of the notch may be larger than the cross section of the moving passage.

The ball heating unit may be formed at an end of the opening and closing ball facing the stem and at the end of the opening and closing ball facing the moving passage in accordance with opening and closing.

The valve body may further include a connection pipe forming the moving flow path, and may further include a tube heating part embedded in the connection pipe to heat the connection pipe.

The tubular heating unit may include a cylindrical heating sleeve inserted into and coupled to the movement channel; It may include a tube heating wire wound on the heating sleeve.

On the outer surface of the heating sleeve may be formed a heating wire insertion groove into which the tube heating wire is inserted.

The valve body may include a connecting pipe forming the moving flow path; It may include a ring-shaped connecting flange extending outward from the end of the connecting pipe, in this case, the ring-shaped flange heating plate to be interviewed of the connecting flange, a flange heating wire which is installed on one surface of the flange heating plate The flange heating unit may further include.

The valve body may constitute a three-way valve body in which one inlet passage and two outlet passages are formed.

Covering the outer surface of the valve body, may further include a pipe heating jacket for heating the outer surface of the valve body.

The temperature controllable ball valve unit according to the embodiment of the present invention may control the internal temperature of the ball valve to prevent generation of particles and to smoothly open and close the valve.

1 is an exploded perspective view of a ball valve unit capable of temperature control according to an embodiment of the present invention.
Figure 2 is an exploded perspective view of a ball valve unit capable of temperature control according to an embodiment of the present invention.
Figure 3 is a perspective view of the opening and closing ball of the ball valve unit capable of temperature control according to an embodiment of the present invention.
Figure 4 is an exploded cross-sectional view of the opening and closing ball of the ball valve unit capable of temperature control according to an embodiment of the present invention.
5 is a combined cross-sectional view of the opening and closing ball of the ball valve unit capable of temperature control according to an embodiment of the present invention.
Figure 6 is an exploded perspective view of the connection pipe of the ball valve unit capable of temperature control according to an embodiment of the present invention.
Figure 7 is a perspective view of the coupling of the connector of the ball valve unit capable of temperature control according to an embodiment of the present invention.
8 and 9 are views for explaining the operating state of the ball valve unit capable of temperature control according to an embodiment of the present invention.

As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all transformations, equivalents, and substitutes included in the spirit and scope of the present invention. In the following description of the present invention, if it is determined that the detailed description of the related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

Hereinafter, a ball valve unit capable of temperature control according to the present invention will be described in detail with reference to the accompanying drawings, and in the following description with reference to the accompanying drawings, the same or corresponding components are given the same reference numerals and are duplicated thereto. The description will be omitted.

1 is an exploded perspective view of a temperature control ball valve unit according to an embodiment of the present invention, Figure 2 is an exploded perspective view of a temperature control ball valve unit according to an embodiment of the present invention. And, Figure 3 is a perspective view of the opening and closing ball of the ball valve unit capable of temperature control according to an embodiment of the present invention, Figure 4 is an exploded view of the opening and closing ball of the ball valve unit capable of temperature control according to an embodiment of the present invention 5 is a cross-sectional view of the opening and closing ball of the ball valve unit capable of temperature control according to an embodiment of the present invention. 6 is an exploded perspective view of a connection tube of a temperature control ball valve unit according to an embodiment of the present invention, and FIG. 7 is a view of a connection tube of a temperature control ball valve unit according to an embodiment of the present invention. The combined perspective view. 8 and 9 are views for explaining the operating state of the ball valve unit capable of temperature control according to an embodiment of the present invention.

1 to 9, the spherical space 12, the valve body 14, the moving flow path 16, the connecting pipe 20, the connecting flange 21, the opening and closing ball 22, the connecting flow path 24, and the O-ring. (26), seat (28), stem (30), stem connector (31), ball heater (32), ball heating plate (34), ball heating wire (36), ball heating plate module (37), ball power cord (38), depression (40), notch (42), sphere (44), ball power line passage 46, tube heating portion (48), heating sleeve ( 50, pipe heating line 52, pipe power line 54, pipe power line passage 56, flange heating section 58, flange heating plate 60, flange heating line 62, flange power line 64 ) Is shown.

In the ball valve unit capable of temperature control according to the present embodiment, the valve body 14 is provided with a spherical space 12 and a moving passage 16 through which the fluid flows while communicating with the spherical space 12. )Wow; A spherical opening / closing ball 22 embedded in the spherical space 12 and having a connection flow passage 24 intermittently communicating with the moving flow passage 16 according to rotation; A stem 30 having one end coupled to the opening and closing ball 22 and the other end extending outwardly through the valve body 14 to rotate the opening and closing ball 22; Ball heating wire 36 embedded in the opening and closing ball 22 to heat the opening and closing ball 22 and electrically connected to the ball heating wire 36 and penetrating the stem 30 to the outside of the valve body 14. And a ball heater 32 including an extended ball power line 38.

The valve body 14 is provided with a spherical space 12 and a moving passage 16 communicating with the spherical space 12 and through which the fluid moves. The valve body 14 is a part constituting the main structure of the ball valve unit is provided with a spherical space 12 in which the spherical opening and closing ball 22 to be described later may be built. The spherical space 12 is in communication with the moving flow path 16 to control the flow of the fluid while the moving flow path 16 is communicated or closed in accordance with the rotation of the opening and closing ball 22 built in the spherical space 12.

The moving flow path 16 appears in the form of an inflow path and an outflow path. The inflow path and the outflow path are relative concepts. The passage in which fluid flows into the ball valve unit is called an inflow path and the ball valve unit is opened according to the opening of the ball valve unit. The passage through which the fluid flows in is called an outflow path. The inflow path and the outflow path will be determined according to the shape in which the pipe is coupled to the ball valve unit according to the present embodiment to move the fluid. Hereinafter, the inflow path and the outflow path formed in the valve body 14 will be referred to collectively as the moving flow path 16.

The moving passage 16 may be formed by a connecting pipe 20 coupled to the valve body 14, and may be reinforced by interposing an O-ring 26 therebetween. In addition, a ring-shaped sheet 28 is interposed at the end of the moving passage 16 in which the opening and closing ball 22 is in close contact with each other to smoothly guide the rotation of the opening and closing ball 22.

The valve body 14 according to the present embodiment constitutes a three-way ball valve unit as a three-way valve body 14 in which three connecting pipes 20 are coupled to form a moving flow path 16. Of course, it is also possible to configure the two-way ball valve unit as the two-way valve body 14 is coupled to the two connecting pipes 20 to form the inlet and outlet.

In the following description, the three-way ball valve unit will be described.

The opening / closing ball 22 is built in the spherical space 12 of the valve body 14, and the connection flow path 24 which interrupts communication with the movement flow path 16 is formed by rotation. The opening and closing ball 22 has a spherical shape, and a connecting flow passage 24 having a single or T shape is formed therein, and the connecting flow passage 24 moves according to the rotation of the opening and closing ball 22. The ball valve unit is opened and closed or the fluid movement direction is controlled while communicating with or shifting the flow path 16. In this embodiment, as shown in FIG. 4, the T-shaped connecting flow passage 24 is formed in the opening / closing ball 22 to control fluid movement in three directions.

Stem 30 (stem) is a configuration for rotating the opening and closing ball 22, which protrudes out of the valve body 14 and built in the valve body 14, one end is coupled to the opening and closing ball 22 and the other end It extends outward through the stem connector 31 of the valve body 14 to rotate the opening and closing ball 22. The other end of the stem 30 protruding outwardly of the valve body 14 is attached with a lever that can be handled by hand, or a rotating motor drive (not shown) for electronic control is attached to rotate the opening and closing ball 22. Can be.

The ball heating part 32 is embedded in the opening and closing ball 22 and electrically connected to the ball heating wire 36 for heating the opening and closing ball 22 and the ball heating wire 36 and penetrates the stem 30. It may include a ball power line 38 extending to the outside of the valve body (14).

In the present invention, in order to maintain the temperature inside the ball valve unit, the ball heating part 32 is built in the opening and closing ball 22 to control the temperature inside the ball valve unit by heating the opening and closing ball 22. .

The ball power line 38 for supplying power to the ball heating line 36 is drawn out from the opening / closing ball 22 and drawn out to the outside through the ball power line passage 46 formed in the stem 30. It is configured to supply power to the ball heating line 36 by connecting power to the ball power line 38 drawn out.

The heating wires 36, 52, and 62 that generate heat and the power lines 38, 54, and 64 that supply power to the heating wires 36, 52, and 62 are relative concepts. Can be.

Opening and closing ball 22 according to the present embodiment, as shown in Figure 3, the opening 44 is formed when the opening and closing ball 22 is cut into a virtual plane; Consists of a convex portion 42 (sphere) to cover the convex portion 44 to form a spherical shape, the ball heating line 36 in the plane between the convex portion 44 and the concave portion 42 ) Can be installed and the bent portion 42 is coupled to the bent portion 44 to embed the ball heating wire 36 into the opening and closing ball 22.

More specifically, as shown in FIGS. 3 and 4, the indentation part 40 is formed in the plane of the inlet part 44 in which the indentation part 42 is separated to have a predetermined thickness, and the ball heating line 36 is formed. The opening and closing ball 22 is formed by coupling the bent portion 42 to the old pipe portion 44 in a state where the ball heating plate 34 in which the) is installed is inserted into the recessed portion 40. The inner side of the depression 40 communicates with the ball power line passage 46 penetrating the inside of the stem 30 so that the ball power line 38 can be drawn out of the valve body 14.

The ball heating part 32 may be formed in a module form. After the ball heating wire 36 is formed in one surface of the ball heating plate 34 to insert and distribute the ball heating wire 36, the ball heating wire 36 is formed in the installation groove. ) Can be inserted and fixed to form the ball heating plate module 37. In the state in which the ball heating plate module 37 is inserted into the recessed groove of the spherical pipe 44, the spout 42 may be coupled to form the opening / closing ball 22 having the ball heating wire 36 embedded therein.

Typically, the valve body 14, opening and closing ball 22, etc. may be made of stainless steel, which has a relatively low thermal conductivity compared to aluminum. In this embodiment, the ball heating plate 34 is made of a material including stainless steel and other aluminum, so that heat is transmitted faster.

As shown in FIG. 3, the ball heating part 32 according to the present exemplary embodiment has an end portion of the opening / closing ball 22 facing the stem 30 and the opening / closing ball facing the moving flow path 16 according to opening and closing. It is formed in two ends of 22, and is comprised so that the opening-and-closing ball 22 may be heated in two places. Of course, the number of formation of the ball heating part 32 may be variously determined according to the size of the opening and closing ball 22 or the formation method of the connection flow path 24.

Referring to FIG. 4, in the case of the ball heating part 32 formed at the end of the opening / closing ball 22 opposite to the moving flow path 16 according to opening and closing, the ball heating part 32 is rotated according to the rotation of the opening and closing ball 22. ) May be opposed to the moving flow path 16. The size of the bottom surface of the notching part 42 is larger than the cross section of the moving flow path 16 so that the notching part 42 may move to the moving flow path 16. 16) to cover the whole to ensure the safety of the coupling portion (42).

6 and 7 show the coupling state of the connection pipe 20 and the tube heating unit 48 according to the present embodiment, the temperature control ball valve unit according to the present embodiment, the connection pipe 20 It may further include a tube heating unit 48 for heating.

The movement flow path 16 of the ball valve unit may be formed by the connection pipe 20, and the inside of the connection pipe 20 forming the movement flow path 16 through which the fluid moves may also need temperature control. Accordingly, in the present embodiment, the tube heating part 48 is embedded in the connection pipe 20 to heat the connection pipe 20 to control the temperature inside the connection pipe 20.

The tube heating part 48 according to the present embodiment includes a cylindrical heating sleeve 50 inserted into and coupled to the movement channel 16 inside the connection pipe 20; And a tubular heating wire 52 wound on the outer surface of the heating sleeve 50.

The heating sleeve 50 is a cylindrical member having a penetrating portion in the center thereof, and is inserted into and fixed in the connecting pipe 20. Accordingly, the inner through portion of the heating sleeve 50 constitutes a new moving flow path 16 of the connecting pipe 20. A heating tube 50 is wound around the heating sleeve 50 to heat the heating sleeve 50. The tube power line 54 for supplying power to the tube heating line 52 is drawn out to the outside through the tube power line passage 56 formed in the connecting tube 20. In the state where the heating sleeve 50 wound around the tube heating wire 52 is inserted into the connector 20, the tube heater 48 is integrated into the connector 20 so that the tube heater 48 is connected to the inside of the connector 20. It will be built.

On the outer surface of the heating sleeve 50 may be formed a heating wire laying groove is inserted into the tube heating wire 52 to determine the installation position. The heating sleeve 50 may also be made of a material containing aluminum, such as the above-described ball heating tube.

On the other hand, Figure 6 shows a coupling state of the connection pipe 20 and the flange heating portion 58 according to the present embodiment, the temperature control ball valve unit according to this embodiment, the connection of the connection pipe 20 It further comprises a flange heating portion 58 for heating the connecting flange (21).

In order to connect the ball valve unit and the pipe to each other, the connecting pipe 20 may be formed with a ring-shaped connecting flange 21 extending outward from the end of the connecting pipe 20. The connecting flange 21 extends outward from the connecting pipe 20 so that even if the connecting flange 21 is heated by an external pipe heating jacket, the connecting flange 21 is heated in the inside of the connecting pipe 20 located below the connecting flange 21. Delivery may not be easy. Therefore, in the present embodiment, the flange heating portion 58 to be interviewed on the connecting flange 21 is arranged to heat the connecting flange 21.

As shown in FIG. 6, the connection flange 21 according to the present embodiment has a ring-shaped flange heating plate 60 that is interviewed by the connection flange 21, and a flange heating line installed on one surface of the flange heating plate 60. 62). Heat is supplied to the connecting flange 21 by installing the flange heating wire 62 on one surface of the flange heating plate 60 opposite to the connecting flange 21 and covering the connecting flange 21. The flange heating line 62 may be supplied with power through the flange power line 64. The flange heating plate 60 may also be made of a material containing aluminum, such as the above-described ball heating tube.

8 and 9 schematically show the operating state of the ball valve unit capable of temperature control according to the present embodiment. The ball heating part 32 is embedded in the opening / closing ball 22, the tube heating part 48 is embedded in the connecting pipe 20, and the flange heating part 58 is coupled to the connecting flange 21. By controlling the power supply to the ball heating unit 32, the tube heating unit 48 and the flange heating unit 58, it is possible to control the temperature inside the ball valve unit and thereby the temperature of the fluid moving the ball valve unit. Can be kept constant.

3 shows a state in which the T-shaped connecting flow passage 24 of the opening / closing ball 22 is in communication with the moving flow passage 16 of the three connecting pipes 20 of the valve body 14 in one direction. When the fluid enters, the fluid flows out in two directions. In this state, when the opening / closing ball 22 is rotated in the clockwise direction, the hooking portion 42 positioned above in FIG. 3 blocks the right connecting pipe 20, thereby changing the moving direction of the fluid in two directions.

Meanwhile, the ball valve unit capable of temperature control according to the present embodiment may further include a pipe heating jacket (not shown) covering the outer surface of the valve body 14 and heating the outer surface of the valve body 14. . The pipe heating jacket is formed to cover the outer surface of the ball valve unit corresponding to the outer shape of the ball valve unit according to the present embodiment.

The pipe heating jacket is provided with a heating wire for heating the ball valve unit. The outer surface of the ball valve unit is heated by the pipe heating jacket, and the inside of the ball valve unit is provided with a ball heating part 32 and a tube heating part 48. By heating, the temperature of the fluid flowing inside the ball valve unit can be kept constant.

Although the above has been described with reference to a preferred embodiment of the present invention, those skilled in the art to which the present invention pertains without departing from the spirit and scope of the present invention as set forth in the claims below It will be appreciated that modifications and variations can be made.

12: spherical space 14: valve body
16: transfer euro 20: connector
21: connection flange 22: opening and closing ball
24: connection euro 26: O-ring
28: sheet 30: stem
31: stem connector 32: ball heating part
34: ball heating plate 36: ball heating wire
37: ball heating plate module 38: ball power line
40: indentation 42: a knotting part
44: old part 46: ball power line passage
48: tube heating part 50: heating sleeve
52: tube heating line 54: tube power line
56: tube power line passage 58: flange heating portion
60: flange heating plate 62: flange heating wire
64: flange power line

Claims (12)

A valve body provided therein with a spherical space and a moving flow path communicating with the spherical space and through which the fluid moves;
A spherical opening / closing ball embedded in the spherical space, the spherical opening / closing ball having a connection flow path intermittent with the movement flow path as the rotation flows;
A stem coupled to the opening / closing ball and the other end extending outward through the valve body to rotate the opening / closing ball;
A ball heating part embedded in the opening / closing ball to heat the opening / closing ball, and a ball heating part electrically connected to the ball heating line and including a ball power line extending outwardly of the valve body,
The opening and closing ball,
A sphere formed when the opening and closing ball is cut into one virtual plane;
It includes a bent portion (球 하는 部) that covers the sphere to form a sphere (球 形象),
The ball heating wire is installed between the sphere and the sphere,
The hook portion is formed in the opening and closing ball so as to face the moving passage in accordance with the opening and closing, ball valve unit capable of temperature control.
delete The method of claim 1,
A depression is formed in the plane of the sphere to be embedded in a predetermined thickness,
The ball heating unit,
And a ball heating plate installed and attached to one surface of the ball heating wire and inserted into the recess.
delete The method of claim 1,
The size of the bottom surface of the hook portion is larger than the cross section of the moving passage, temperature control ball valve unit.
The method of claim 3,
The ball heating unit,
And an end portion of the opening / closing ball facing the stem and an end portion of the opening / closing ball facing the moving flow path in accordance with opening and closing.
The method of claim 1,
The valve body,
A connecting pipe forming the moving flow path,
And a tube heating part embedded in the connection pipe to heat the connection pipe.
The method of claim 7, wherein
The tube heating unit,
A cylindrical heating sleeve inserted into and coupled to the movement channel;
And a tubular heating wire wound around the heating sleeve.
The method of claim 8,
Ball valve unit having a temperature control, characterized in that the heating wire insertion groove is formed in the outer surface of the heating sleeve is inserted into the tube heating wire.
The method of claim 1,
The valve body,
A connecting pipe forming the moving flow path;
A ring-shaped connecting flange extending outward from an end of the connecting pipe,
And a flange heating portion including a ring-shaped flange heating plate interviewed by the connection flange and a flange heating line disposed on one surface of the flange heating plate.
The method of claim 1,
The valve body,
A temperature controllable ball valve unit, comprising a three-way valve body in which one inlet and two outlets are formed.
The method of claim 1,
Covering the outer surface of the valve body, further comprising a pipe heating jacket for heating the outer surface of the valve body, temperature controllable ball valve unit.

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