KR200195734Y1 - Converting apparatus of flow direction - Google Patents

Abstract

The present invention relates to a flow direction conversion device, the present invention is a cylindrical valve insert having a predetermined inner diameter and a plurality of flow paths are formed in a multi-direction on the inner peripheral wall forming the valve insert to communicate with the valve insert It is formed in a round bar shape so as to be inserted into the connecting pipe and the valve insert portion, and a connecting portion connected to the rotating means is provided in the valve body portion in which a connecting hole for connecting a flow path of the connecting pipe is formed therein. Three-way valves rotatably inserted into the insertion portions and annular first sealing members inserted into the valve body portions to be positioned on both sides of the connection holes of the three-way valves to perform axial sealing, and both sides of the connection holes of the three-way valves. Respectively positioned in the valve body and inserted into the valve body to connect the first sealing members to radially seal the connection holes. 2 The sealing member is included to minimize the leakage of fluid and powder flowing into the inside, and to increase the reliability of the parts by suppressing the wear of the parts, thereby increasing the reliability and making the parts easy to assemble and replace. Easy to assemble and maintain.

Description

Flowing Apparatus of Flow Direction

The present invention relates to a flow direction converter, and more particularly to a flow direction converter that not only prevents the leakage of powder and fluid, but also prolongs the life of the parts and makes maintenance simple.

In general, when transporting or transporting fluids or powders over a long distance or a short distance, they are transported using a pipe system. In such piping systems, valves are used to control the flow of fluids or powders and their flow direction.

There are various types of valves depending on their function. Examples include a check valve that prevents or prevents a fluid from flowing into a pipe, a direction change valve that changes a flow direction of a fluid, and a one-way valve that restricts a flow direction of a fluid.

The direction change valve is mounted in a connection pipe having a plurality of flow paths so that a plurality of pipes are connected to convert the flow direction of the fluid flowing into the pipe in a desired direction and the direction change valve is a flow path direction that can be converted and The kind is divided according to the number.

FIG. 1 shows an example of a three-way valve mounted on a tee connector having three connection flow paths and converting three flow paths. Such a tee connection pipe 1 and a three-way valve 2 are flow paths. In order to convert the direction of to 90 °, in particular, various powders, for example, a nylon chip, a polyester chip, a film chip, a fat chip, a TFA, and the like, are connected to the connecting pipe ( 2) In case of flowing inside, a blocking phenomenon occurs because of the large flow resistance, and the powder is blocked in the flow path. Due to this problem, the three-way connector and the three-way valve mounted thereon are mainly used in a Weiza-type connector and a corresponding three-way valve.

Figure 2a is a plan view of the flow direction converter of the piping system equipped with the Wei-shaped connection pipe and the corresponding conventional three-way valve, Figure 2b is a front sectional view of the flow direction converter, 3 is the flow direction conversion The Y-shaped connector of the device is shown. As shown therein, the flow direction converting apparatus of the piping system has a valve-type inserting pipe 11 into which a valve is inserted therein and a Wei-shaped connecting pipe having a flow path formed in a Wei-shaped shape so as to communicate with the valve inserting space 11 ( The three-way valve 10 is inserted into the valve insertion space 11 of the 10 so as to be rotatable. The three-way valve 10 has a shaft portion 23 so that a flow path 22 is formed in a spherical valve body 21 having an upper and a lower portion (in a drawing) cut off, and has a predetermined length in upper and lower portions of the valve body 21. Are formed respectively, and the upper shaft portion 23 is coupled to the handle 30 formed in a predetermined shape, and the lower shaft portion 23 is supported on the lower surface portion of the Wei-shaped connecting pipe 10.

In addition, the pipes 40 are inserted into respective flow paths of the Wei-shaped connecting pipe 10 so that the ends thereof are in contact with the three-way valve 20 and the flange portion 41 of each of the pipes 40 is a Wei-shaped connection. It is coupled with the flange part 12 respectively formed in the flow path edge part of the pipe | tube 10. And a Teflon seat 50 is inserted in order to prevent the leakage of powder and a fluid at the end of each pipe 40 which contacts the spherical valve body 21 of the said three-way valve.

The flow direction converting device of the valve system as described above allows the powder flowing into the pipe 40 coupled to the Wei-shaped connecting pipe 10 to move along the flow path formed by the flow path 22 of the three-way valve 20. It will flow to another tube 40 connected to the female connector (10). When the flow direction of the powder is changed, the flow path is converted by rotating the three-way valve 20 by turning the handle 30 and the powder flows along the converted flow path.

However, in the conventional flow direction converter as described above, since the Teflon seat 50 which prevents the leakage of powder acts as a sealing state in the state of being pressed onto the valve body 21 of the three-way valve, the airtightness is somewhat good but the three-way valve ( 20) the wear occurs due to excessive friction between the valve body 21 and the Teflon seat 50 of the three-way valve during the direction change of the three-way valve not only shorten the life of the Teflon seat 50 as a sealing material but also the Teflon seat 50 When replacing, all of the pipes 40 coupled to the connection pipe 10 have to be dismantled and replaced, so maintenance is very inconvenient, and worn Teflon sheet wear particles are mixed with the powder, which degrades the quality of the powder. There was a problem.

The object of the present invention devised in view of the above point is to provide a flow direction converting device that not only prevents the leakage of powder but also prolongs the life of the parts and makes maintenance simple.

1 is a cross-sectional view showing a conventional T-shaped flow direction conversion structure,

2A and 2B are a plan view and a front sectional view of a conventional Wei-type flow direction converting apparatus,

3 is a cross-sectional view of the Wei-shaped connecting pipe constituting the flow direction converter;

Figure 4 is a front sectional view of the flow direction conversion apparatus of the present invention,

5 is a cross-sectional view of the connector constituting the flow direction conversion device of the present invention,

6 is a front view of the three-way valve constituting the flow direction conversion apparatus of the present invention,

Figure 7 is an exploded front view showing the flow direction conversion device of the present invention.

(Explanation of symbols for the main parts of the drawing)

60; Connector 61; Valve insert

70; Three-way valve 71; Connection hole

72; Valve body portion 73; Connection

75,76; Insertion groove 80; First sealing member

81; Second sealing member 90; Rotating means

F; Euro

In order to achieve the object of the present invention as described above, a cylindrical tube inserting portion having a predetermined inner diameter and a connecting pipe having a plurality of flow paths formed in multiple directions on the inner circumferential wall forming the valve inserting portion so as to communicate with the valve inserting portion. And, it is formed in a round bar shape to be inserted into the valve insertion portion and the connecting portion which is connected to the rotating means is provided in the valve body portion is formed in the connection hole for connecting the flow path of the connecting pipe therein is inserted into the valve of the connecting pipe A three-way valve rotatably inserted into the portion, an annular first sealing member inserted into the valve body portion to be positioned on both sides of the connection hole of the three-way valve to axially seal, and a connection hole of the three-way valve Positioned on both sides and inserted into the valve body to connect the first sealing members to radially seal the connection holes; Provided is a flow direction converting apparatus comprising a two sealing member.

Hereinafter, the flow direction converter according to the present invention will be described according to the embodiment shown in the accompanying drawings.

4, 5, and 6 illustrate an example of the flow direction converter of the present invention. Referring to this, first, the flow direction converter includes a connection pipe 60 connected to a plurality of pipes and the connection pipe 60. ) Is a rotatable first insertion of the three-way valve 70 and the connecting hole of the three-way valve 70 and the connection hole of the three-way valve 70 is inserted into the rotatable to convert the flow path (F) in the connection pipe 60 , 2 sealing members 80 and 81, the connecting pipe 60 is formed in a Wei-shaped and has a cylindrical valve inserting portion 61 having a predetermined inner diameter therein and the valve inserting portion A plurality of flow paths F formed in multiple directions are provided on the inner circumferential wall constituting the valve inserting portion 61 so as to communicate with the 61. The valve inserting portion 61 is formed in a penetrating form and the flow path F is formed to have a wiser shape.

In addition, the three-way valve 70 is formed in a round bar shape to be inserted into the valve inserting portion 61 of the connecting pipe 60, and the connection hole for connecting the flow path (F) of the connecting pipe 60 therein ( A valve body portion 71 in which 71 is formed and an extension portion formed on one side of the valve body portion 72 so as to have a predetermined length are connected to the rotation means 90. On the other side of the valve body portion 72 is preferably formed a support portion 74 protruding to have a predetermined length. The connection hole 71 is formed in a form penetrated so as to communicate with the flow path (F) of the connection pipe 60 in accordance with the rotation. The rotating means 90 is preferably made of a handle of the conventional structure.

The first sealing member 80 is formed to have an annular shape, the cross section is formed in a trapezoidal shape. In addition, the first sealing member 80 is preferably formed in the shape of an open curve having a predetermined gap (G) to be opened. The first sealing member 80 is inserted into the valve body portion 72 so as to be located at both sides of the connection hole 71, respectively, to perform the axial sealing of the connection hole 71. A first insertion groove 75 is formed to allow the first sealing member 80 to be inserted into both sides of the connection hole 71 of the valve body 72, and the cross section of the first insertion groove 75 is trapezoidal. Is formed. The height of the first sealing member 80 is formed larger than the depth of the first insertion groove 75, the difference is preferably to correspond to 0.1 ~ 0.15 of the height of the first sealing member (80).

The second sealing member 81 is formed to have a predetermined length and its cross section is formed in a trapezoidal shape. The length of the second sealing member 81 is preferably formed to a length that can be connected between the first sealing member (80). The second sealing member 81 is respectively positioned at both sides of the connection hole 71 and is inserted into the valve body portion 72 so as to connect the two first sealing members 80, respectively. ) Radial sealing. A second insertion groove 76 having a linear shape in the axial direction is formed at both sides of the connection hole 71 of the valve body portion 72 so that the second sealing member 81 can be inserted therein, and the second insertion groove 76 is formed. The cross section of) is formed in trapezoidal shape. The height of the second sealing member 81 is greater than the depth of the second insertion groove 76, the difference is preferably to correspond to 0.1 ~ 0.15 of the height of the second sealing member 81.

The first and second sealing members 80 and 81 are preferably made of Teflon sheet.

And it is preferable that each of the cover member 100 is coupled to cover the valve inserting portion 61 in the state in which the three-way valve 70 is inserted into the valve inserting portion 61 of the connecting pipe 60, the cover member It is preferable that the support member 110 for supporting the support 74 of the three-way valve 70 is coupled to one side of the (100).

Hereinafter, the operational effects of the flow direction converter of the present invention will be described.

First, assembling of the flow direction converting apparatus, as shown in FIG. 7, the first sealing member 80 and the first inserting groove 75 and the second inserting groove 76 of the three-way valve 70 are formed. 2 sealing members 81 are inserted, respectively. Then, the three-way valve 70 coupled with the first and second sealing members 80 and 81 is inserted into the valve inserting portion 61 of the connecting pipe 60 to cover the valve inserting portion 61. The cover member 100 is coupled to the respective 60 and then the support member 110 is coupled to one side of the cover member 100. And the rotation means 90 is coupled to the connection portion 73 of the three-way valve 70 and the pipes 120 are connected to the connection pipe 60 so as to communicate with each flow path of the connection pipe 60, respectively.

In this coupled state, the three-way valve 70 is rotated by rotating the rotating means 90 to connect the connection hole 71 of the three-way valve 70 to the flow path F of the connection pipe 60. By communicating with each other) it is to change the flow direction of the fluid and powder flowing to the pipe 120. At this time, not only the axial sealing of the connection hole 71 is made by the first sealing member 80 coupled to the valve body portion 72 of the three-way valve 70 but also by the second sealing member 81. A radial sealing is made.

The present invention is made of a cylindrical body of the valve body portion 72 of the three-way valve 70 to correspond to the shape of the cylindrical valve insert 61 of the connecting pipe 60, the three-way valve in the connecting pipe 60 The assembly work for connecting the 70 and the pipe 120 is made easy and accurate, as well as to increase the airtightness, as well as to increase the sealing force by the first and second sealing members 80 and 81. In addition, since the first and second sealing members 80 and 81 are coupled to the three-way valve 70 by the coupling tolerance to seal, the first and second sealing members 80 and 81 are not subjected to excessive pressure, thereby reducing the wear of the sealing members. The sealing members 80 and 81 are coupled to the three-way valve 70 to disassemble only the three-way valve 70 without removing the pipe 120 when the first and second sealing members 80 and 81 are replaced. The first and second sealing members 80 and 81 may be replaced.

As described above, the flow direction converting apparatus according to the present invention increases the sealing force for the fluid and powder, thereby minimizing the leakage of the fluid and powder flowing into the interior, as well as extending the life of the parts, thereby increasing reliability. It is also possible to assemble and replace parts easily, thereby simplifying the parts assembly and maintenance.

Claims (2)

Cylindrical valve insert having a predetermined inner diameter and a connecting pipe having a plurality of flow paths formed in multiple directions on the inner circumferential wall forming the valve insert to communicate with the valve insert, and a round rod type to be inserted into the valve insert A three-way valve having a connection part connected to a rotation means formed in the valve body portion in which a connection hole for connecting a flow path of the connection pipe is formed therein and rotatably inserted into the valve insertion portion of the connection pipe; An annular first sealing member inserted into the valve body part to be positioned at both sides of the connecting hole of the three-way valve to perform axial sealing, and respectively positioned at both sides of the connecting hole of the three-way valve; And a second sealing member inserted into the valve body so as to connect the valves to radially seal the connection holes. Co-directional inverter. According to claim 1, wherein the cross-section of the first and the second sealing member is formed in a trapezoidal shape and the valve insert groove of the trapezoidal shape is formed in the valve body portion of the three-way valve into which the first and second sealing member is inserted. Flow direction inverter.