KR200486028Y1 - Quick connecting apparatus for pipe - Google Patents

Abstract

The present invention relates to a quick connecting device for piping. According to one embodiment of the present invention, there is provided an electronic device comprising: a first body having a first step formed on an inner circumferential surface of an inner first through hole; A first shaft which is supported at one end in the first step and installed in the first through hole and forms a flow path in a space between the first through hole and the inner circumferential surface of the first through hole; The first shaft hole is provided at one end with a first shaft hole extending through the other end of the first shaft. The other end of the first shaft hole is open. The first shaft hole is closely attached to the inner circumferential surface of the first through hole. The first shaft hole is elastically supported. The first shaft guide being opened / closed by the other end of the first shaft guide; And a first shaft hole is opened by pushing the first shaft guide when the first shaft guide is engaged with the first through hole, A second body; And a valve seat formed around the second through hole when being separated from the first through hole of the second body is resiliently supported at the rear side and seated on the seat seat, And a second shaft which is pushed rearward by the other end of the first shaft at the time of engagement and opens the flow path of the second through hole while the valve seat portion is separated from the seat seat portion.

Description

{QUICK CONNECTING APPARATUS FOR PIPE}

The present invention relates to a quick connecting device for piping and a piping for an air conditioner. More particularly, the present invention relates to a quick connecting device for piping capable of separating a pipe without substantial loss of fluid flowing into the pipe, and an air conditioner having a connecting pipe using the same.

The piping is for flowing the fluid, and the fluid flowing inside the pipe usually has gas or liquid. Piping applications include air conditioning, heating / cooling, water supply / drainage, ventilation / ventilation, and city gas. When pipes are installed for these purposes, it is necessary to connect two or more pipes for reasons such as the type of installation site, length limitation of pipe, and disassembly and assembly. In this case, the pipe joint method includes a flange joint, a fit joint, a threaded joint, a weld joint, and a joint joint. A quick connector is used to quickly connect or disconnect the pipe in a pipe joint manner have.

This quick connector is used when piping is required to be separated. At this time, it is necessary to minimize leakage of the fluid flowing through the piping. Also, it is necessary to be able to easily separate and combine while minimizing the leakage of the fluid during the separation.

Korean Patent Publication No. 10-2009-0056148 (published on June 03, 2009)

In order to solve the above-mentioned problem, there is proposed a quick connecting device for piping which can easily and conveniently separate the piping without substantial loss of fluid flowing into the piping.

According to one aspect of the present invention, there is provided a method of manufacturing a semiconductor device, comprising: a first body having a first step formed on an inner circumferential surface of an inner first through hole; A first shaft which is supported at one end in the first step and installed in the first through hole and forms a flow path in a space between the first through hole and the inner circumferential surface of the first through hole; The first shaft hole is provided at one end with a first shaft hole extending through the other end of the first shaft. The other end of the first shaft hole is open. The first shaft hole is closely attached to the inner circumferential surface of the first through hole. The first shaft hole is elastically supported. The first shaft guide being opened / closed by the other end of the first shaft guide; And a first shaft hole is opened by pushing the first shaft guide when the first shaft guide is engaged with the first through hole, A second body; And a valve seat formed around the second through hole when being separated from the first through hole of the second body is resiliently supported at the rear side and seated on the seat seat, And a second shaft which is pushed rearward by the other end of the first shaft at the time of engagement and opens the flow path of the second through hole while the valve seat portion is separated from the seat seat portion.

In this case, in one example, the first through-hole has a first ring groove formed on an inner circumferential surface of engagement with the second body, a first ring ring is provided in the first ring groove, It is possible to close the space between the outer circumferential surface of the second body and the inner circumferential surface of the first through hole and to seal the outer circumferential surface of the first shaft guide and the inner circumferential surface of the first through hole when the second body is detached.

In this case, in another example, at least two of the first ring groove and the first sealing ring are provided, and the other end of the first shaft and the one end of the second shaft are separated from each other during the separation of the first and second bodies, At least one first sealing ring closes the outer circumferential surface of the first shaft guide and the inner circumferential surface of the first through hole at the time when the flow path of the first through hole and the second through hole are blocked, 1 through-hole inner circumferential surfaces.

Further, in one example, a second ring groove is formed around the other end of the first shaft, a second ring ring is provided in the second ring groove, and in accordance with the elastic movement of the first shaft guide when the second body is separated The first shaft hole is closed by the second sealing ring and the flow path of the first through hole is blocked.

At this time, in another example, the second ring groove is formed so that the second groove side wall is higher than the first groove side wall, and the inner diameter of the first shaft hole is larger than the outer diameter by the first groove side wall and smaller than the outer diameter by the second groove side wall .

Further, in one example, the quick connecting device for piping is provided around the circumference of the first shaft, one end is supported at the third step formed on the inner peripheral surface of the first through hole, the other end is supported at one end of the first shaft guide, And a first spring that provides an elastic force to the first shaft guide to seal the first shaft hole and the other end of the first shaft when the body is detached.

According to yet another example, the first shaft includes a support portion and a sealing portion, the support portion having a radial projection formed at one end thereof and supported by the first step, and the other end being fitted into one end of the sealing portion, And the other end pushes one end of the second shaft when the second body is engaged, and the first shaft guide has a smaller inner diameter toward the first shaft hole side An end surface of the inclined surface is closed by the second sealing ring and the flow path of the first shaft hole is blocked.

Further, in another example, a quick connecting device for piping is provided: around the rear-side circumference of the second shaft, one end supported on the rear surface of the valve seat portion and providing an elastic force to the valve seat portion when the second body is separated, A second spring for seating the seat portion on the seat seat portion to seal the seating portion; And at least one flow hole formed around the second shaft hole and passing through the rear end of the second shaft and guiding the movement of the second shaft, and a second shaft hole provided in the second through hole, And a second shaft guide supported at a second step formed on the inner circumferential surface and supporting the other end of the second spring.

At this time, in another example, the seat seating portion has a protruding portion protruding in a direction opposite to the direction of engagement with the first body at an end protruding from the inner circumferential surface of the second through-hole, and the valve seat portion of the second shaft includes a disc- A sealing ring groove formed in an edge portion of the plate portion, a sealing portion provided in the sealing ring groove to closely contact the seat seating portion to seal the flow passage, and a cover portion that fixes the sealing portion to the sealing ring groove.

Further, in one example, a quick connecting device for piping includes: a connecting nut having a first end supported on a periphery of a second body and screwed to an outer peripheral surface of a first body fitted to the second body; A first tube connector which is fastened to the opposite side of the first body in a direction of coupling with the second body; And a second connector connected to the second body at a side opposite to the first body in a coupling direction and supporting the rear of the second shaft guide.

According to one embodiment of the present invention, by using the quick connecting device for piping, the piping can be separated easily and conveniently without substantial loss of fluid flowing into the piping.

In addition, the loss of fluid after separation can be minimized, enabling simple and convenient reconnection without substantial loss.

It is apparent that various effects not directly referred to in accordance with various embodiments of the present invention may be derived by those skilled in the art from the various configurations according to the embodiments of the present invention.

1 is a cross-sectional view schematically showing a fastening device for piping according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view schematically showing the flow path cutoff state of the quick disconnecting device for piping according to the present invention shown in FIG. 1; FIG.
3 is a cross-sectional view schematically showing a disassembled state of a quick connecting device for piping according to another embodiment of the present invention.
4 is a perspective view schematically showing a separated state of the quick connecting device for piping according to one embodiment of the present invention.
5 is a cross-sectional view schematically showing a closed portion of a first shaft of a quick connecting device for piping according to another embodiment of the present invention.
6 is a view schematically showing a part of a second shaft of a quick connecting device for piping according to another embodiment of the present invention.

Embodiments of the present invention for achieving the above-described objects will be described with reference to the accompanying drawings. In the following description, the same reference numerals are used for the same components, and a detailed description may be omitted to enable those skilled in the art to understand the present invention.

As used herein, unless an element is referred to as being 'direct' in connection, combination, or placement with other elements, it is to be understood that not only are there forms of being 'directly connected, They may also be present in the form of being connected, bonded or disposed. Also, terms such as 'upper', 'upper', 'lower', 'lower', etc. may exist not only at a connected position but also at a separated position. The terms indicating direction should be construed to encompass corresponding relative directional concepts as the reference direction changes.

It should be noted that although a singular expression is described in this specification, it can be used as a concept representing the entire plurality of constitutions unless it is contrary to, or obviously different from, or inconsistent with the concept of design. It is to be understood that the phrases "including", "having", "having", "comprising", etc. in this specification are intended to be additionally or interchangeable with one or more other elements or combinations thereof.

The drawings referred to in this specification are examples for explaining an embodiment of the present invention, and shapes, sizes, thicknesses, and the like may be exaggerated for an effective explanation of technical features.

A quick connecting device for piping according to one aspect of the present invention will be described in detail with reference to the drawings. Here, reference numerals not shown in the drawings to be referred to may be reference numerals in other drawings showing the same configuration. It should be noted that the configurations disclosed in the respective drawings may be omitted or modified in accordance with variations of the embodiments. In the quick connecting device for piping according to the present invention, piping may be connected to both sides, and a piping connector may be connected to a piping connector connected to a facility where piping is connected to one side and piping connection is required to the other side.

FIG. 1 is a cross-sectional view schematically showing a fastening device for a piping according to an embodiment of the present invention. FIG. 2 is a cross-sectional view schematically showing a cut- FIG. 3 is a cross-sectional view schematically illustrating a disassembled state of a quick disconnect device for piping according to another embodiment of the present invention, FIG. 4 is a cross-sectional view schematically illustrating a disassembly state of a quick disconnect device for piping according to an embodiment of the present invention Fig. 5 is a cross-sectional view schematically showing a sealing portion of a first shaft of a quick connecting device for piping according to another embodiment of the present invention, and Fig. 6 is a perspective view showing another embodiment of the present invention Fig. 2 is a schematic view showing a part of a second shaft of a quick connecting device for piping according to the present invention;

1 to 4, a quick connecting device for piping according to one example includes a first body 10, a first shaft 30, a first shaft guide 40, a second body 20, And includes a shaft 50. 1 to 3, in another example, the quick connecting device for piping may further include a first spring 70a. 1 to 3, in another example, the quick-disconnecting device for piping may further include a second spring 70b and a second shaft guide 60. As shown in FIG. 1 to 4, in another example, the quick connecting device for piping may further include a connecting nut 85, a first pipe connector 90a, and a second pipe connector. Hereinafter, each component will be described in detail.

First, the first and second bodies 10 and 20 of the quick connecting device for piping will be described. Referring to FIGS. 1 to 4, the first body 10 and the second body 20 may be coupled to each other or separated from each other. For example, a part of the second body 20 may be fitted into the first body 10. For example, in one example, when a part of the second body 20 is fitted into the first body 10, the connecting nut 85 is supported by the outer circumferential surface of the second body 20, (10). For example, the first body 10 and the second body 20 may be made of the same material, but are not limited thereto.

1 to 3, the first body 10 is provided with a first through hole 10a therein. At this time, a part of the second body 20 may be fitted into the first through hole 10a. The first step 11 is formed on the inner circumferential surface of the first through hole 10a. At this time, the first step 11 supports one end of the first shaft 30 installed in the first through hole 10a.

1 to 2, the first through hole 10a may have a first ring groove 13 formed on an inner circumferential surface of the second body 20 on the engagement side. At this time, the first ring groove (13) is provided with the first sealing ring (80a). For example, the first sealing ring 80a may be an O-ring of an elastic material, such as a rubber O-ring. The first sealing ring 80a seals between the outer circumferential surface of the second body 20 and the inner circumferential surface of the first through hole 10a when the second body 20 is fitted into the first body 10. When the second body 20 is separated from the first body 10, the outer circumferential surface of the first shaft guide 40 and the inner circumferential surface of the first through hole 10a can be sealed. At this time, when the second body 20 is coupled to the first body 10, the flow path between the first body 10 and the first body 10 is opened and the second body 10 from the first body 10 The flow path of each of the first body 10 and the second body 20 is cut off. The piping side connected to the first body 10 and the piping side connected to the second body 20 are separated from each other even when the second body 20 is separated from the first body 10, As shown in FIG. Accordingly, when the piping having the piping connecting device according to the present invention is separated, the flow path of each of the first and second bodies 10a and 20a is shut off, thereby minimizing the leakage of the fluid in the piping, The piping can be separated without loss (leakage).

For example, in another example, at least two of the first ring groove 13 and the first sealing ring 80a may be provided, respectively. In Figs. 1 and 2, two first ring grooves 13 and a first sealing ring 80a are provided. 2, one end of the second shaft 50 is separated from the other end of the first shaft 30 during the separation of the first and second bodies 10 and 20, and the first and second through holes At least one first sealing ring 80a seals between the outer circumferential surface of the first shaft guide 40 and the inner circumferential surface of the first through hole 10a at the time when the flow paths of the first seal rings 10a, The ring 80a seals between the outer circumferential surface of the second body 20 and the inner circumferential surface of the first through hole 10a. Accordingly, since the flow paths of the first body 10 and the second body 20 are completely blocked before the first body 10 and the second body 20 are completely separated, a fluid such as gas or refrigerant Can be minimized.

1 and 2, in another example, the third step 12 may be further provided on the inner circumferential surface of the first through hole 10a. At this time, the third step 12 supports one end of the first spring 70a installed in the first through hole 10a. A description of the first spring 70a will be given later. For example, the third step 12 may be provided on the rear side (on the side of the engagement direction with the second body 20) than the first step 11. At this time, the inner diameter of the first step 11 is smaller than the inner diameter of the third step 12.

1 to 3, the second body 20 is detachably fitted to the first through-hole 10a of the first body 10. [ The second body 20 can be separated from the first through hole 10a of the first body 10. [ The second body 20 has a second through hole 20a for forming a flow path therein. A seat seating portion 21 is formed on the inner peripheral surface of the second through hole 20a. The seat seating portion 21 is a place where the valve seat portion 51 of the second shaft 50 to be described later is seated. For example, when the second body 20 is separated from the first through hole 10a of the first body 10, the valve seat portion 51 of the second shaft 50 is seated on the seat seat portion 21, The through hole 20a is blocked and the valve seat portion 51 of the second shaft 50 is moved from the seat seat portion 21 when the second body 20 is coupled to the first through hole 10a And the flow path of the second through hole 20a is opened. The second body 20 pushes the first shaft guide 40 to engage the first shaft hole 41 when the first body 10 of the second body 20 is fitted into the first through hole 10a. Open.

Referring to Figs. 1 and 2, in another example, the seat seating portion 21 is provided with a protrusion 21a protruding in a direction opposite to the direction of engagement with the first body 10 at an end portion protruding from the inner circumferential surface of the second through- And a protruding portion 21a. At this time, the valve seat portion 51 of the second shaft 50, which will be described later, for example, the sealing portion 51c is brought into close contact with the protruding portion 21a so that the flow path of the second through hole 20a can be cut off.

1 and 2, in another example, a second step 22 may be additionally formed on the inner circumferential surface of the second through hole 20a. At this time, the second step 22 supports the second shaft guide 60, which will be described later.

Referring to FIGS. 1-4, in another example, a connecting nut 85 may be provided around the second body 20. The connecting nut 85 is supported on the periphery of the second body 20 and has a threaded portion formed on the outer peripheral surface of the first body 10 when the second body 20 is fitted into the first through hole 10a. And the first body 10 and the second body 20 are fixed to each other.

Next, the first shaft 30 of the quick connecting device for piping will be described with reference to Figs. The first shaft 30 is supported at one end of the first step 11 of the first through hole 10a and installed in the first through hole 10a. At this time, a flow path is formed in the clearance space between the inner circumferential surface of the first through hole 10a and the first shaft 30. The other end of the first shaft 30 is installed to penetrate the first shaft hole 41 of the first shaft guide 40 described later.

For example, referring to Figs. 1 to 3, in one example, a second ring groove 31 is formed around the other end of the first shaft 30. [ At this time, the second ring groove 31 is provided with the second sealing ring 80b. For example, the second sealing ring 80b may be an O-ring of an elastic material, such as a rubber O-ring. When the second body 20 is detached from the first through hole 10a, the first shaft hole 41 is closed by the second sealing ring 80b in accordance with the elastic movement of the first shaft guide 40, And the flow path of the first through hole 10a is cut off. That is, the other end of the first shaft 30 and the first shaft hole 41 are sealed by the second sealing ring 80b, so that the flow path of the first through hole 10a is blocked.

1, 2 and / or 4, in another example, the second ring groove 31 is formed to have a higher height than the first groove side wall 31a, the second groove side wall 31b. For example, the first groove side wall 31a is formed in the direction of the first shaft hole 41 and the second groove side wall 31b is formed in the direction of the other end side of the first shaft 30. At this time, the inner diameter of the first shaft hole 41 is larger than the outer diameter of the first groove side wall 31a and smaller than the outer diameter of the second groove side wall 31b. Accordingly, the ends of the second sealing ring 80b and the first shaft hole 41 provided in the second ring groove 31 are closed, and the flow path of the first through hole 10a can be effectively blocked. That is, the inner circumferential surface of the first through hole 10a and the outer circumferential surface of the first shaft guide 40 are sealed by the above-described first sealing ring 80a, and the second body 20 is sealed with the first through hole 10a The first shaft hole 41 of the first shaft guide 40 and the other end of the first shaft 30 are sealed by the second sealing ring 80b and the first shaft hole 41 of the first through hole 10a The flow path can be blocked.

Referring to another example with reference to Figs. 1 to 3, the first shaft 30 includes a support portion 30a and a seal portion 30b. At this time, the support portion 30a has a radial projection 130a at one end thereof and is supported by the first step 11 of the first through hole 10a. That is, one end of the first shaft 30 forms the support portion 30a, and the protrusion 130a is vertically radially protruded from the end of the support portion 30a, And is supported by the first step 11. The other end of the supporting portion 30a can be fitted to one end of the sealing portion 30b. For example, the other end of the support portion 30a may be screwed into the fitting groove 130b of the sealing portion 30b.

1, 2, 3 and / or 5, the sealing portion 30b of the first shaft 30 is provided at one end with a fitting groove 130b into which the other end of the supporting portion 30a is fitted . A second ring groove 31 is provided around the sealing portion 30b. The other end of the sealing portion 30b pushes one end of the second shaft 50 when the second body 20 is fitted. That is, the first shaft 30 is fixed at the time of fitting the second body 20 because one end is supported by the first step 11 of the first through hole 10a, while the second shaft 50 The other end of the sealing portion 30b is engaged with the second shaft 50 when the second body 20 is engaged with the second body 20 because the second shaft 20 is resiliently supported in the second through hole 20a of the second body 20. [ To push one end of. At this time, the valve seat portion 51 of the second shaft 50 is pressed against the seat seat portion 21 formed in the second through hole 20a in accordance with pushing of the second shaft 50 by the other end of the sealing portion 30b. And the flow path of the second through hole 20a is opened.

For example, referring to FIG. 5, a support groove 230b may be formed at the other end of the closed portion 30b of the first shaft 30. FIG. One end of the second shaft 50 is supported in the support groove 230b of the closed portion 30b and the other end of the second shaft 50 is supported by the other end of the closed portion 30b when the second body 20 is fitted. Is pushed.

Next, with reference to Figs. 1 to 3, the first shaft guide 40 of the quick connecting device for piping will be described in detail. The first shaft guide 40 has a first shaft hole 41 through which the other end of the first shaft 30 passes, and the other end of the first shaft guide 40 is opened. The outer circumferential surface of the first shaft guide 40 is closely attached to the inner circumferential surface of the first through hole 10a. The inner circumferential surface of the first through hole 10a and the outer circumferential surface of the first shaft guide 40 are sealed by the first sealing ring 80a provided in the first ring groove 13 of the first through hole 10a do. The first shaft guide 40 is resiliently supported within the first through hole 10a and is engaged with the first through hole 10a of the second body 20 by the engagement and / And is moved along the inner peripheral surface in the hole 10a. The first shaft guide 40 is pushed by one end of the second body 20 when the second body 20 is fitted and restored by the elastic force when the second body 20 is detached. In accordance with the movement of the first shaft guide 40 in the first through hole 10a, that is, the pushing of the first shaft guide 40 by the second body 20 and the releasing of the pushing by the elastic force, The first shaft hole 41 of the first shaft guide 40 is opened and closed by the other end of the first shaft 30. [

For example, referring to FIGS. 1 and 2, in one example, the first shaft guide 40 may be formed with the inclined surface 42 so that the inner diameter decreases toward the first shaft hole 41 side. At this time, the end of the inclined surface 42 is closed by the second sealing ring 80b formed in the second ring groove 31 of the first shaft 30, and the flow path of the first shaft hole 41 can be cut off. That is, when the second body 20 is separated from the first through hole 10a, the first shaft guide 40 is released from the pushing state by the elastic force, The end of the inclined surface 42 is brought into close contact with the second sealing ring 80b and the first shaft hole 41 is closed.

Next, referring to Figs. 1, 2, 3, 4 and / or 6, the second shaft 50 of the quick connecting device for piping will be described in detail. Referring to FIGS. 1 to 4, the second shaft 50 is installed in the second through hole 20a of the second body 20. 1 to 3, the second shaft 50 blocks the flow path of the second through hole 20a when the second body 20 is separated from the first through hole 10a, and the second body 20 The flow path of the second through hole 20a is opened. Referring to Figures 1, 2, 3 and / or 6, the second shaft 50 includes a valve seat 51 formed in the shape of a disk. 2, when the second shaft 20 is separated from the first through hole 10a of the second body 20, the valve seat 51 is resiliently supported from the rear side, (21) of the second through hole (20a) and blocks the flow path of the second through hole (20a). 1, one end of the second shaft 50 is pushed rearward by the other end of the first shaft 30 when the second body 20 is fitted and the valve seat 51 is seated in the seat So that the flow path of the second through hole 20a is opened.

1 to 3, in another example, the valve seat portion 51 of the second shaft 50 includes a disk-shaped plate portion 51a, a sealing ring groove 51b, a sealing portion 51c, And a cover portion 51d. 1, 2, 3 and / or 6, the plate portion 51a is formed in the shape of a disk around the middle of the second shaft 50, and the sealing ring groove 51b is formed in the peripheral portion of the plate portion 51a As shown in FIG. 1 to 3, the sealing portion 51c is provided in the sealing ring groove 51b and is in close contact with the seat seating portion 21 to seal the flow path of the second through hole 20a. The sealing portion 51c is in close contact with the seat seating portion 21 when the second body 20 is separated from the first through hole 10a and is separated from the seat seating portion 21 when the second body 20 is detached. do. For example, the sealing portion 51c is in close contact with the protruding portion 21a protruding in the direction opposite to the coupling direction with the first body 10 at the end portion protruding from the inner circumferential surface of the second through-hole 20a, . For example, the sealing portion 51c may be formed of a resin material, for example, a Teflon resin material. 1 to 3, the cover portion 51d fixes the sealing portion 51c to the sealing ring groove 51b. That is, the cover portion 51d prevents the sealing portion 51c from falling off the sealing ring groove 51b. For example, the cover portion 51d is provided on the front surface of the plate portion 51a and covers the sealing portion 51c so as to partially expose the sealing portion 51c. At this time, the exposed sealing portion 51c region is a portion to be seated in the seat seating portion 21. [

Next, a quick connecting device for piping according to another example will be described with reference to Figs. 1 to 3. Fig. At this time, the quick connecting device for piping further includes a first spring 70a. The first spring 70a is installed around the circumference of the first shaft 30. One end of the first spring 70a is supported by the third step 12 formed on the inner circumferential surface of the first through hole 10a and the other end of the first spring 70a is supported by the one end of the first shaft guide 40 . Accordingly, the first spring 70a accumulates the elastic force when the second body 20 is fitted and when the second body 20 is separated from the first through hole 10a, So that the first shaft hole 41 and the other end of the first shaft 30 are sealed.

The first shaft guide 40 supported by the first spring 70a is pushed by the second body 20 and the elastic force is accumulated in the first spring 70a, The elastic force accumulated in the first spring 70a is provided to the first shaft guide 40 when the first shaft guide 40 is separated from the first through hole 10a. The first shaft guide 40 moves along the first through hole 10a by the elastic force and the first shaft hole 41 of the first shaft guide 40 is guided by the other end of the first shaft 30, And the flow path of the first through hole 10a is shut off.

Next, a quick connecting device for piping according to another example will be described. Referring to Figs. 1 to 3, the quick connecting device for piping may further include a second spring 70b and a second shaft guide 60. Fig. The second spring 70b is provided on the rear side of the second shaft 50, for example, around the rear side circumference of the valve seat portion 51, and one end is supported on the rear surface of the valve seat portion 51. [ At this time, the other end of the second spring 70b is supported by the second shaft guide 60. The second spring 70b urges the second shaft 70b in the direction of the second shaft 50b in response to the second shaft 50 being pushed by the other end of the first shaft 30 when the second body 20 is inserted into the first through hole 10a When the second body 20 is detached, an elastic force is applied to the valve seat portion 51 so that the valve seat portion 51 is seated on the seat seat portion 21 to be sealed.

Next, referring to Figs. 1 to 3, the second shaft guide 60 is installed in the second through hole 20a. At this time, the second shaft guide 60 is supported by the second step 22 formed on the inner circumferential surface of the second through hole 20a and supports the other end of the second spring 70b. For example, the second shaft guide 60 may have a first surface, for example, a surface on which the second spring 70b is supported is supported by the second step 22, and the other surface is fastened to the other end side of the second body 20, The second connector 90b can be supported by the end of the second connector 90b. In addition, the second shaft guide 60 has a second shaft hole 61 and at least one flow hole 62. The second shaft hole (61) penetrates the rear end of the second shaft (50) and guides the movement of the second shaft (50). At least one or more flow holes 62 are formed around the second shaft hole 61. 3, the second shaft guide 60 may be formed without protrusions, or a protrusion for fitting the second spring 70b may be formed as in FIGS. 1 and 2, and a second shaft hole 60a may be formed in the protrusion. (61) may be formed.

Further, a quick connecting device for piping according to one example will be further described with reference to Figs. The quick disconnect device for piping according to one example may further include a connecting nut 85, a first pipe connector 90a, and a second pipe connector 90b. The connecting nut 85, the first pipe connector 90a, and / or the second pipe connector 90b may be made of the same material, but are not limited thereto. The connecting nut 85 is screwed to the outer circumferential surface of the first body 10 having one end supported by the second body 20 and the second body 20 fitted thereto. For example, one end of the connecting nut 85 is bent in the center direction and supported around the second body 20, and the bent portion is caught by the step 24 protruding from the outer peripheral surface of the second body 20, And the outer peripheral surface of the first body 10 can be limited. 3, when one end of the connecting nut 85, for example, the inner diameter of the bent portion is larger than the outer diameter of the annular step 24 on the outer surface of the second body 20, the annular step 24 and the connecting nut 85 A wire spring 82 may be provided between the bent portions. Since the outer diameter of the wire spring 82 is larger than the inner diameter of one end of the connecting nut 85, for example, the bent portion, the screwing range of the connecting nut 85 with the outer peripheral surface of the first body 10 can be limited .

Next, the first pipe connector 90a is fastened to the opposite side of the first body 10 in the coupling direction with the second body 20. The second pipe connector 90b is fastened to the opposite side of the second body 20 in the coupling direction with the first body 10, that is, the other end side of the second body 20, and the rear side of the second shaft guide 60 . For example, the first and second tube connectors 90a, 90b can be nipple, union or other tube joints everyday. For example, one end of the first and second pipe connectors 90a and 90b may be screwed to the first and second bodies 10 and 20, respectively. At this time, a sealing ring 80c is provided between the through holes of the first and second bodies 10 and 20 and the outer peripheral surfaces of the first and second pipe connectors 90a and 90b to seal them. In addition, for example, one end of the first pipe connector 90a is brought into close contact with the opposite surface of the first step 11, that is, the surface opposite to the surface on which the first shaft 30 is supported via the sealing sealing ring 81 . The sealing sealing ring 81 may be a flat o-ring made of a resin material. One end of the second pipe connector 90b can support the rear surface of the second shaft guide 60 directly or via the sealing sealing ring 81. [

The foregoing embodiments and accompanying drawings are not intended to limit the scope of the present invention but to illustrate the present invention in order to facilitate the understanding of the present invention by those skilled in the art. Embodiments in accordance with various combinations of the above-described configurations can also be implemented by those skilled in the art from the foregoing detailed description. Accordingly, various embodiments of the present invention may be embodied in various forms without departing from the essential characteristics thereof, and the scope of the present invention should be construed in accordance with the design of the utility model registration claims, Alternatives, and equivalents by one of ordinary skill in the art.

10: first body 10a: first through hole
11: First step 12: Third step
13: first ring groove 20: second body
20a: second through hole 21: seat seating portion
21a: protrusion 22: second stage
30: first shaft 30a:
130a: Radial projection 30b:
130b: fitting groove 230b: supporting groove
31: second ring groove 31a: first groove side wall
31b: second groove side wall 40: first shaft guide
41: first shaft hole 50: second shaft
51: valve seat portion 51a: plate portion
51b: sealing ring groove 51c: sealing part
51d: cover portion 60: second shaft guide
61: second shaft hole 62: flow hole
70a: first spring 70b: second spring
80a, 80b, 80c: sealing ring 81: sealing sealing ring
85: connecting nut 90a, 90b: pipe connector

Claims (10)

A first body having a first step formed on an inner circumferential surface of a first through hole therein;
A first shaft supported at one end of the first step and formed in the first through hole and forming a flow path in a clearance space with the inner circumferential surface of the first through hole;
And a first shaft hole passing through the other end of the first shaft at one end thereof, the other end being opened, being closely attached to the inner circumferential surface of the first through hole, elastically supported, A first shaft guide for opening / closing the first shaft hole by the other end of the first shaft;
Wherein the first shaft guide is slidably engaged with the first through hole when the first through hole is engaged with the first through hole, A second body for opening the hole; And
A valve seat formed around the second through hole at the time of separation from the first through hole of the second body is resiliently supported at the rear side and seated in the seat seat, And a second shaft which opens one of the flow paths of the second through holes while one end thereof is pushed rearward by the other end of the first shaft when the two bodies are fitted and the valve seat is separated from the seat seat,
Wherein the first through-hole has a first ring groove formed on an inner circumferential surface of engagement with the second body, the first ring groove is provided with a first sealing ring, The first shaft guide and the first shaft guide are closed when the second body is detached, and between the outer peripheral surface of the second body and the inner peripheral surface of the first through hole when the second body is detached,
A second ring groove is formed around the other end of the first shaft, a second ring ring is provided in the second ring groove, and when the second body is detached, The first shaft hole is closed by the sealing ring, the flow path of the first through hole is blocked,
Wherein the second ring groove has a second groove sidewall higher than the first groove sidewall and an inner diameter of the first shaft hole is larger than an outer diameter of the first groove sidewall and smaller than an outer diameter of the second groove sidewall Quick connecting device for piping.
In claim 1,
Wherein at least two of the first ring groove and the first sealing ring are provided,
Wherein at least one of the first and second shafts is separated from the other end of the first shaft when the first and second bodies are separated from each other, And the first sealing ring seals between the outer circumferential surface of the first shaft guide and the inner circumferential surface of the first through hole and the remaining first sealing ring seals the circumferential surface of the second body and the inner circumferential surface of the first through hole. Device.
In claim 1,
A second shaft supported on one end of the first shaft guide and having a first end supported on a third step formed on an inner circumferential surface of the first through hole and the other end supported on a first shaft guide, Further comprising a first spring for providing an elastic force to the first shaft guide so as to be hermetically sealed between the other end of the first shaft and the other end of the first shaft.
The method according to any one of claims 1 to 3,
Wherein the first shaft includes a support portion and a sealing portion,
Wherein the support portion has a radial projection at one end thereof and is supported by the first step and the other end is fitted into one end of the closed portion,
Wherein the sealing portion has a fitting groove in which the other end of the supporting portion is fitted to the one end, the second ring groove is provided around the other end, the other end pushes one end of the second shaft when the second body is fitted,
Wherein the first shaft guide is formed with an inclined surface having an inner diameter smaller toward the first shaft hole side and the end of the inclined surface is sealed by the second sealing ring and the flow path of the first shaft hole is blocked. Quick disconnecting device.
In claim 4,
And an elastic force is applied to the valve seat portion when the second body is detached so that the valve seat portion is seated on the seat seat portion, A second spring for urging the spring; And
A second shaft hole passing through the rear end of the second shaft and guiding the movement of the second shaft and at least one or more flow holes formed around the second shaft hole, And a second shaft guide supported at a second step formed on an inner circumferential surface of the second through hole and supporting the other end of the second spring.
The method according to any one of claims 1 to 3,
And an elastic force is applied to the valve seat portion when the second body is detached so that the valve seat portion is seated on the seat seat portion, A second spring for urging the spring; And
A second shaft hole passing through the rear end of the second shaft and guiding the movement of the second shaft and at least one or more flow holes formed around the second shaft hole, And a second shaft guide supported at a second step formed on an inner circumferential surface of the second through hole and supporting the other end of the second spring.
In claim 6,
Wherein the seat seating portion has a protruding portion protruding in a direction opposite to a coupling direction with the first body at an end portion protruding from the inner circumferential surface of the second through hole,
Wherein the valve seat portion of the second shaft includes a disc-shaped plate portion, a sealing ring groove formed in an edge portion of the plate portion, a sealing portion provided in the sealing ring groove and sealing the flow passage by being in close contact with the seat seating portion, And a cover portion for fixing the pipe to the pipe.
delete A first body having a first step formed on an inner circumferential surface of a first through hole therein;
A first shaft supported at one end of the first step and formed in the first through hole and forming a flow path in a clearance space with the inner circumferential surface of the first through hole;
And a first shaft hole passing through the other end of the first shaft at one end thereof, the other end being opened, being closely attached to the inner circumferential surface of the first through hole, elastically supported, A first shaft guide for opening / closing the first shaft hole by the other end of the first shaft;
Wherein the first shaft guide is slidably engaged with the first through hole when the first through hole is engaged with the first through hole, A second body for opening the hole; And
A valve seat formed around the second through hole at the time of separation from the first through hole of the second body is resiliently supported at the rear side and seated in the seat seat, And a second shaft which opens one of the flow paths of the second through holes while one end thereof is pushed rearward by the other end of the first shaft when the two bodies are fitted and the valve seat is separated from the seat seat,
And an elastic force is applied to the valve seat portion when the second body is detached so that the valve seat portion is seated on the seat seat portion, A second spring for urging the spring; And
A second shaft hole passing through the rear end of the second shaft and guiding the movement of the second shaft and at least one or more flow holes formed around the second shaft hole, And a second shaft guide supported at a second step formed on an inner circumferential surface of the second through hole and supporting the other end of the second spring,
Wherein the seat seating portion has a protruding portion protruding in a direction opposite to a coupling direction with the first body at an end portion protruding from the inner circumferential surface of the second through hole,
Wherein the valve seat portion of the second shaft includes a disc-shaped plate portion, a sealing ring groove formed in an edge portion of the plate portion, a sealing portion provided in the sealing ring groove and sealing the flow passage by being in close contact with the seat seating portion, And a cover portion for fixing the pipe to the pipe.
In claim 9,
A connecting nut having one end supported on the periphery of the second body and screwed to an outer peripheral surface of the first body fitted with the second body;
A first tube connector fastened to the first body on a side opposite to a coupling direction with the second body; And
Further comprising a second pipe connector coupled to an opposite side of the second body in a coupling direction with the first body and supporting the rear of the second shaft guide.

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