KR101407491B1 - pipe connections method using and bury box pipe connector - Google Patents

Abstract

The present invention relates to a buried box piping connector and a piping connecting method using the buried box piping connector. More particularly, the present invention relates to a buried box piping connector, And a piping connection method using the hollow-box piping connector and the piping connection method using the hollow-box piping connector. And a first fastening part for fast, firm and easy connection with the indoor unit piping or outdoor unit piping installed at the inner side of the landfill box is formed at one end, and the indoor unit piping or the outdoor unit piping is fast And a second fastening part for fastening the first fastening part and the second fastening part to each other, and a flexible structure body is formed between the first fastening part and the second fastening part so that a bending operation and a left and right rotation can be performed freely.

Description

[0001] Description [0002] FIELD OF THE INVENTION [0003]

The present invention relates to a buried box pipe connector and a pipe connecting method using the buried box pipe connector. In particular, the present invention relates to a buried box pipe connector and a pipe connecting method using the buried box pipe connector. To an indoor unit piping and an outdoor unit piping so that the indoor unit piping and the outdoor unit piping can be easily and firmly connected without bending, welding and piping connection methods using the same.

Generally, an air conditioner connects a condenser, an outdoor unit in which a compressor and an expansion unit are installed, and an indoor unit in which an evaporator is installed through a high-pressure pipe and a low-pressure pipe, thereby circulating the refrigerant gas to perform heat exchange.

Nowadays, in order to install the pipe connecting the air conditioner indoor unit and the outdoor unit neatly and efficiently, it is buried in the concrete wall when the building is constructed, and one end of the pipe is buried in the surrounding concrete wall where the air conditioner indoor unit or outdoor unit is located And the indoor unit and the outdoor unit are connected to each other.

On the other hand, most of the piping connecting the air conditioner outdoor unit and indoor unit is buried by concrete, and the landfill box is buried deeper than the wall for installing soundproofing materials, insulation materials, or interior, It is necessary to repeatedly bend or rotate the connecting pipe or connector at an easy angle to change its position, which leads to a decrease in durability and a long working time.

Accordingly, there is a need for a piping connector capable of minimizing or preventing repetitive bending operations of piping or piping connectors connecting the outdoor unit and the indoor unit. In order to connect the outdoor unit and the indoor unit without bending, And a connecting method using the pipe connector.

However, since the conventional piping connector can not firmly connect the piping, the connection portion is loosened due to the high pressure supplied to the high-pressure piping, so that the refrigerant gas can be finely discharged or the piping can be disconnected from the connection portion. there was.

In addition, since the pipe connector is not free to bend and rotate, it is very difficult to connect the indoor unit pipe and the outdoor unit pipe in the landfill box having a narrow internal space, and there is a problem that the operation time is long.

In addition, when welding is performed using a connector between the indoor unit pipe and the outdoor unit pipe, it is necessary not only to provide welding equipment but also to make the connection work very troublesome and difficult to maintain, And the like.

In addition, when a pipe or a pipe connector for connecting an indoor unit and an outdoor unit is bent, conventionally, the pipe is not arranged properly in a narrow space in a landfill box, and is positioned outside the landfill box, causing interference with an external object. There is a problem that the refrigerant gas flows out or the durability is deteriorated due to the damage.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide an indoor unit piping and an outdoor unit piping, which are capable of swiftly bending or rotating left and right, The present invention also provides a buried box pipe connector and a pipe connecting method using the buried box pipe connector. The buried box pipe connector can be easily connected to the buried box and then bent or rotated left and right to easily enter the buried box.

Another object of the present invention is to provide a buried box piping connector for preventing a refrigerant from flowing out due to poor connection in a high pressure pipe circulating a high-pressure refrigerant gas or detaching or disengaging the piping, and a pipe connecting method using the same.

It is another object of the present invention to provide a flushing pipe connector for preventing the bending of indoor pipe or outdoor pipe and for improving the durability of the pipe, Thereby providing a piping connection method.

According to another aspect of the present invention, there is provided an indoor unit including a first coupling unit and a second coupling unit for connecting the indoor unit piping or the outdoor unit piping installed inside the landfill box, and a second coupling unit connecting the first coupling unit and the second coupling unit, Wherein the first and second fastening portions are formed on the outer surface of the body so as to form a spiral wrinkle so as to form a flexible structure freely flexible in a bending operation and a left and right rotation operation, A pipe support holder having a male connector having a male thread formed therein and an engaging hole formed therein, two or more incisions spaced apart along the circumference at the tip and two or more spikes formed between the incisions, And a female connector having a female screw for fastening on the inner surface thereof while supporting the sealing means, The male fastening portion and the second fastening portion are integrally formed on the outer circumferential surface of the female coupling portion and the outer circumferential surface of the female connecting portion, And a female connector for fastening the male screw of the male connector to the female connector on the inner surface, and the other fastening structure adopts the first fastening structure.
And the engaging slope of the male coupling portion of the first fastening structure is tapered so that the diameter becomes smaller toward the inner side.
Ring holding grooves for easily accommodating the O-rings are formed on the outer surface of the rear end portion and the inner surface of the rear end portion of the pipe support holder, respectively, and the spikes are formed on one side of the front end portion, And a tip end of the spike is formed with an inclined angle so as to be more easily dug into the outer surface of the pipe when external pressure is applied.
The spikes of the first fastening structure are formed so as to have a step height higher than the outer surface of the pipe support holder, so that when the female connector is fastened, the spikes are first brought into contact with the inner surface of the male connector so as to pressurize and support the pipe.
(A) an indoor unit piping including a high-pressure and low-pressure piping located in the installed filling box, and a first connecting part of the piping connector to one end of the outdoor unit piping, A male coupling formed on the outer surface forming the second fastening portion and having a coupling inclined surface formed therein, at least two incisions spaced apart along the circumference at the tip, and two or more spikes formed between the incisions A pipe support holder which is located at one side of the pipe support holder and which hermetically maintains the airtightness and a female connector having a female connector for supporting the pipe support holder and the sealing means and fastening on the inner surface thereof, A fastening structure or an inclined surface is formed at the tip end, and on one side surface of the inclined surface, a male screw for fastening Generated male connector and a coupling receiving the end of the outdoor unit or the indoor unit pipe and the pipe inner surface to form a female connector of the female connection port the second fastening structure comprising a female screw for the male screw and the tightening of the male connector is formed with; (b) fastening the male connector of the first fastening structure to the female connector of the first fastening structure formed on the pipe connector; (c) After bending or rotating the body of the pipe connector left or right to pull out the second fastening portion of the pipe connector from the landfill box, the female connector of the second fastening structure of the pipe connector formed at one end of the indoor unit pipe, Fastening the male connector of the two fastening structure; (d) bending or rotating the body of the piping connector to the left or right to insert the piping connector into the landfill box, closing the lid and finishing it; And a control unit.

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The step of fastening the female connector of the second fastening structure to the female connector of the second fastening structure may include forming an expanded portion at an end of the indoor unit pipe or the outdoor unit pipe.

As described above, according to the present invention, when the indoor unit pipe and the outdoor unit pipe are connected through the fastening portion for firmly fixing the pipe, the pipe is quickly and easily fastened in the landfill box, thereby preventing the pipe from being loosened or separated from high pressure, There is an effect of solving the problem caused by outflow of gas.

In addition, the present invention can prevent bending of the indoor unit or the outdoor unit piping, and at the same time, the connection can be firmly and easily performed without welding, thereby improving the durability of the piping and reducing the work and cost.

Further, the present invention has the effect of effectively preventing the outflow of the refrigerant gas, which may occur at the connection portion of the pipe, due to the improvement of airtightness.

In addition, the present invention can prevent the piping from being exposed from the landfill box, thereby preventing interference with an external object due to exposure, and preventing the piping connection portion from being damaged.

FIG. 1 is a view illustrating a piping connector according to a preferred embodiment of the present invention.
Fig. 2 is a view showing the coupling state of Fig. 1. Fig.
3 is a sectional view taken along the line AA in Fig.
4 is a cross-sectional view taken along the line BB in Fig.
5 is an enlarged view of a piping support holder and a sealing means according to the present invention.
6 is a view showing a state in which the first fastening structure according to the present invention is formed in both the first fastening part and the second fastening part of the pipe connector.
7 is a view showing another fastening state of Fig.
8 is a view showing an embodiment of connecting an outdoor unit pipe and an indoor unit pipe using a piping connector according to the present invention.
FIG. 9 is a view showing the connected state of FIG. 8. FIG.
FIG. 10 is a side cross-sectional view schematically showing a state in which a pipe connector is drawn into a post-connection embedding box of FIG. 9;
11 is a view showing another state of connecting the outdoor unit pipe and the indoor unit pipe using the piping connector according to the present invention.
12 is a view showing the connected state of Fig.
Fig. 13 is a view showing the state of a side sectional view of Fig. 12;
14 is a flowchart of a pipe connection method according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a preferred embodiment of a buried box pipe connector and a pipe connecting method using the same according to the present invention will be described in detail with reference to the accompanying drawings.

Hereinafter, the same reference numerals will be used to denote the same or similar elements in all of the following drawings, and repetitive descriptions will be omitted. The following terms are defined in consideration of the functions of the present invention. It should be interpreted as meaning.

1 to 14, the piping connector 1000 according to the present invention is generally divided into a first fastening part 100, a second fastening part 200, and a body 300.

The first fastening part 100 and the second fastening part 200 are provided with a male coupling hole 11 having a male thread 11a formed on an outer surface thereof and a coupling slope 11b formed therein, A piping support holder 110 having two or more cut-out portions 111 and two or more spikes 112 formed between the cut-out portions 111 and a plurality of spikes 112 formed on one side of the piping support holder 110, And a female connector (130) for supporting the piping support holder (110) and the sealing means (120) and having a female thread (131) for fastening on the inner surface thereof, Or a connecting portion of either one of the first connecting portion 100 and the second connecting portion 200 is formed with an inclined surface 200a at the tip end thereof and is formed on one side of the inclined surface 200a A male connector 210 having an external thread 211 formed on its outer surface for fastening, an outdoor unit pipe 10, A second fastening structure is formed on the inner surface of the tube 20 and formed with a female coupling 21 formed with a female screw 21a for fastening with the male screw 211 of the female coupling 210, Side fastening portion may form the first fastening structure.

When the first fastening part 100 and the second fastening part 200 form the first fastening structure, the female connector 130 having the female screw 131 for fastening is connected to the outdoor unit or the indoor unit The male connector 11 is formed at one end of the indoor unit piping 10 or the outdoor unit piping 20 and has a male screw 11a formed on the outer surface thereof and an engagement hole 11b formed therein. .

When the first fastening part 100 and the second fastening part 200 form a second fastening structure, the first fastening part 100 and the second fastening part 200 are formed with an inclined surface 200a at the tip end thereof, and the one surface of the inclined surface 200a is fastened The female connector 210 having the male screw 211 for the male connector 210 is formed at one end of the pipe connector 1000 and the female connector 21a for fastening the male screw 211 of the female connector 210 to the male connector 210 is formed on the inner surface. (21) may be coupled to one end of the indoor unit piping (10) or the outdoor unit piping (20) connecting the outdoor unit or the indoor unit.

In the present invention, for example, the first fastening portion 100 of the piping connector 1000 is formed in a first fastening structure, the second fastening portion 200 is formed in a second fastening structure, The female connector 130 of the fastening structure 100 is coupled to one end of the outdoor unit piping 10 and the female connector 21 of the second fastening structure 200 is coupled to one end of the indoor unit piping 20, The connection between the piping 10 and the indoor unit piping 20 will be described.

That is, the female connector 130 formed in the outdoor unit piping 10 and the female connector 21 formed in the indoor unit piping 20 are connected to the first coupling part 100 formed in the piping connector 1000, The first fastening part 100 may be formed to have a female connector 130 formed in the outdoor unit pipe 10 by adopting the first fastening structure in the present embodiment. And the second fastening part 200 adopts the second fastening structure to form the female connector 21 in the indoor unit piping 20 to connect the outdoor unit piping 10 and the indoor unit piping 20. FIG.

The pipe support holder 110 is made of a metal material having a hardness equal to or higher than the hardness of the outdoor unit pipe 10 or the indoor unit pipe 20 so that the roughly front end portion is narrow and the rear end portion is wide, The tip portion is formed with two or more cut-out portions 111 spaced along the circumference of the circumference, and the outer surface of the pipe coupled to the cut-out portions 111 is pierced and tightly fastened, Two or more spikes 112 are formed to prevent jumping or disengagement even in the event of occurrence.

The pipe support holder 110 is formed with O-ring receiving grooves 110a and 110b for easily accommodating the O-rings into the outer surface of the rear end portion and the inner surface of the rear end portion, and the spike 112 Is formed in the flow channel 110c so as to smoothly flow toward the inside and outside of the center of the pipe.

As the cut-off portion 111 and the flow groove 110c are formed, the flow is facilitated in the direction of the circle center of the pipe to which the spike 112 is coupled, and when the external pressure is applied to the spike 112, So that they can be closely contacted with each other.

The tip end of the spike 112 is formed with an inclination angle 112a. Accordingly, when the external pressure acts on the spike 112, the spike 112 is more easily pierced into the outer surface of the pipe, thereby firmly supporting the pipe.

Here, if the inclination angle 112a is formed so as to have a very sharp inclination, the outer surface of the indoor unit piping 10 or the outdoor unit piping 20, which has sharp tip ends, can not be cut or punched out, The outer surface of the indoor unit pipe 10 or the outdoor unit pipe 20 to which the end surface is dullly connected is difficult to dig out, so that it is preferably formed to be approximately 3 to 45 degrees.

The spike 112 is formed to have a step higher than the outer surface of the piping support holder 110 so that the male coupling hole 11 is formed when the female coupling hole 130 is formed at one end of the outdoor unit piping 10. [ So that the pipe is pressurized to ensure reliable and firm support.

That is, the male connector 11 has a tapered inclined surface 11b formed on its inner surface corresponding to the outer shape of the pipe support holder 110, And at the same time, tight coupling was achieved.

The pipe support holder 110 has a recess 113 for receiving the O-ring 121 for airtightness at its rear end surface.

The sealing means 120 is composed of a ring-shaped support ring 122 for receiving and supporting half of the O-ring 121, and on one side of the support ring 122, (122a) is formed.

The support ring 122 receives and supports the O-ring 121 and supports the pipe support holder 110 flatly in place of the conventional washer to support the O- 130) is loosened and the fastening efficiency is improved.

This eliminates the need for a washer, thereby reducing the number of parts and increasing the fastening efficiency.

In addition, an O-ring 121a is additionally formed at one side of the pipe support holder 110 facing the sealing means 120 so as to maintain perfect airtightness at the time of tightening.

That is, the O-ring 121a is located in a double position with the O-ring 121 of the sealing means 120, so that the airtightness can be further improved when the pipe is connected.

The female connector 130 supports and supports the pipe support holder 110 and the sealing means 120 through the inner surface of the female connector 130 so that the female connector 130 can be connected to the male connector 11 located at one end of the pipe connector 1000, Thereby forming a solid supporting force.

That is, the pipe support holder 110 is interlocked by the fastening force generated when the female connector 130 is fastened to the male connector 11, and is pressed toward the center of the pipe while advancing, and is formed at the tip of the pipe support holder 110 The spike 112 is first brought into close contact with the engaging slope 11b of the male connector 11 so that the outer surface of the pipe is pierced and firmly fixed to form a supporting force.

Accordingly, the outdoor unit piping 10 or the indoor unit piping 20 can be prevented from being loosened or prevented from being released due to the jamming when a high pressure is generated, thereby solving the problem caused by the outflow of the refrigerant gas, Prevent outflow of gas.

The second fastening part 200 is formed with an inclined surface 200a at its tip end and a male coupling hole 210 having a male screw 211 for fastening is formed on one side of the inclined surface 200a, A tool support 220 for supporting the tool is formed at one side of the tool holder 210 in the fastening operation.

The inclined surface 200a contacts the expanded portion 20a formed at the distal end of the indoor unit pipe 20 to seal the remaining portion except the flow path through which the refrigerant passes. That is, since the inclined surface 200a is formed so as to correspond to the expanded portion 20a of the indoor unit piping 20, the expanded portion 200a is formed in the expanded portion 20a when fastening the second fastening portion 200 and the indoor unit piping 20, So that airtightness is improved to more effectively prevent the refrigerant from flowing out to a portion other than the flow path.

The male screw 211 formed on the male connector 210 is fastened to the female screw 21a formed on the inner surface of the female connector 21 installed in the indoor unit pipe 20 to be firmly fixed.

The female connector 21 has an opening at its both ends so that the indoor unit pipe 20 can be inserted therein and a locking protrusion 21b is formed at an inner end of the female connector 21 so that the expansion pipe 20a of the indoor unit pipe 20 is opened. Thereby preventing the detachment from the female connector 21 and ensuring a firm fixation.

The tool supporting portion 220 may be a spanner for tightening with a female connector 21 provided at one end of the indoor unit pipe 20 or a tool for supporting a screw or a bolt, Or a tool such as a wrench (not shown) to easily support the fastening or unfastening.

4, it is preferable that the engaging protrusion 21b is tapered to have the same shape as the outer surface of the expanded portion 20a of the indoor unit pipe 20. The reason for this is that when the female connector 21 is fastened to the male connector 210 of the second connector 200, the inclined surface 200a formed at the tip of the female connector 21 is pressed against the expanded portion 20a, The stress is concentrated on the end of the inclined surface of the stopping protrusion 21b while being closely attached to the stopping protrusion 21b so that the indoor piping 20 can be brought into close contact with the second fastening part 200 very stably It can be.

Accordingly, it is possible to quickly, easily, and firmly tighten the pipe without welding, and to prevent the indoor pipe 20 from being loosened or released even when a high pressure is generated.

The body 300 is formed of a stainless steel or stainless steel alloy so as to have an appropriate length and to be used in order to form a spiral wrinkle so as to form a flexible structure freely bending and rotating left and right, .

Even if the embedding box 400 installed on the concrete wall is embedded more deeply than the wall by the body 300 having the above-described structure, for example, the outdoor unit piping 10 fixed to the embedding box 400 and the first fastening part 110 can be easily and quickly connected in the landfill box 400 and then the body 300 can be bent or rotated left and right so as to switch to an angle or direction that is easy to connect to the indoor unit pipe 20, And can be easily connected.

That is, the female coupling part 130 formed on the outdoor unit piping 10 and the male coupling part 11 of the first coupling part 100 are fastened and connected in a quick and simple manner first, and then the body 300 is bent The other end of the embedding connector 1000 is pulled out of the embedding box 400 and then the male coupling hole 210 of the second coupling part 200 formed at the other end of the embedding connector 1000 is inserted into the indoor unit 210, And is fastened to the female connector (21) of the second fastening part (200) of the pipe connector (1000) formed at one end of the pipe (20).

At this time, the body 300 of the piping connector 1000 may be bent or turned to the left or to the left so as to be inserted into the landfill box 400, or the body 300 may be bent or left- It is inserted into the box 400 to prevent the piping and the piping connector from being exposed from the landfill box 400, thereby preventing interference with an external object due to exposure, thereby preventing damage to the connection portion.

Therefore, the first fastening part 100 or the second fastening part 200 formed at one end of the piping connector 1000 and the outdoor unit piping 10 are easily and firmly connected to each other in the narrow space, The first coupling part 100 or the second coupling part 200 formed at the other end of the piping connector 1000 and the indoor piping 20 can be easily and firmly connected to each other outside the landfill box 400. [

Accordingly, the outdoor unit piping 10 and the indoor unit piping 20 can be conveniently, firmly, and quickly connected, thereby remarkably shortening the working time, preventing the refrigerant gas from leaking completely, improving the durability of the piping .

Meanwhile, the installation of the piping and the landfill box connecting the air conditioner indoor unit and the outdoor unit is performed by first selecting a location where the outdoor unit and the indoor unit of the air conditioner (cooler) are installed at the time of designing the building and circulating the outdoor unit and the indoor unit Pressure piping, which is a traveling path of the refrigerant gas, and a location for installing the landfill box is selected so as to achieve a clean theorem.

The high pressure and low pressure piping and the filling box for connecting the outdoor unit and the indoor unit are arranged and fixed at the designed position, and then the cement is installed at the time of installing the formwork (the structure temporarily installed to make the concrete structure into a predetermined shape and dimensions). At this time, one end of the pipe connecting the indoor unit and the outdoor unit, which are composed of the high-pressure and low-pressure pipes, is located in the landfill box.

A method of connecting the outdoor unit pipe and the indoor unit pipe in the landfill box using the pipe connector according to the present invention will now be described with reference to FIG.

(a) an indoor unit piping 20 composed of high-pressure and low-pressure piping located in the installed filling box 400 and a first coupling part 100 of the piping connector 1000 and a second coupling part (130) of the first fastening structure or the female fastening structure (21) of the second fastening structure forming the fastening structure (200).
The first fastening structure includes a male coupling hole 11 having a male thread 11a formed on its outer surface and a coupling slope 11b formed therein and two or more slits 111 A piping support holder 110 having two or more spikes 112 formed between the piping support holder 110 and the cutout 111 and a hermetic sealing means 120 located at one side of the piping support holder 110 to maintain airtightness, And a female coupling 130 which supports the pipe support holder 110 and the sealing means 120 and has a female thread 131 for fastening the inner surface of the pipe support holder 110. The second fastening structure has an inclined surface 200a A male coupling 210 formed on the outer surface of the inclined surface 200a to receive a male screw 211 for coupling and one end of the outdoor unit piping 10 or the indoor unit piping 20 is received and coupled, A female screw 21a for fastening with the male screw 211 of the female coupling 210 is formed It consists of a connector arm (21).

The female connector 130 and the female connector 21 may be formed integrally with one end of the outdoor unit pipe 10 or the indoor unit pipe 20 or may be formed to be removable by screwing or the like.

(b) is fastened to the female connector (130) of the first fastening structure and the male connector (11) of the first fastening structure formed at one end of the pipe connector (1000).

For example, the piping support holder 110, which constitutes the first fastening portion 100, and the sealing means 120 are successively fitted to the outer surface of the one end of the outdoor unit piping 10 and then the female screw (not shown) 131 and the male screw 11a formed on the outer surface of the male connector 11 are tightened.

At this time, since the inner surface of the male connector 11 forms a tapered inclined surface 11b corresponding to the outer surface of the pipe support holder 110, the inner surface of the male connector 11 presses the outer surface of the pipe support holder 110, Since the spike 112 formed at the tip is protruded so as to form a step higher than the outer surface of the pipe support holder 110 so that the outer surface of the outdoor pipe 10 can be easily pinched Lt; / RTI >

When the female connector 130 is turned clockwise, the female connector 130 is deeply coupled to the male connector 11 to advance the pipe holder 110 and the sealing means 120, and at the same time, the center of the outdoor unit pipe 10 The spike 112 presses the outer surface of the outdoor unit piping 10 to form a solid fastened state.

Accordingly, even if a high pressure is generated due to the operation of the air conditioner, the outdoor unit piping 10 is prevented from being loosened or detached, thereby improving the performance.

(c) Next, the body 300 of the piping connector 1000 is bent or rotated to the left or the right to pull out the second fastening part 200 formed at the other end of the piping connector 1000 out of the embedding box 400 The female connector 21 of the second fastening structure of the piping connector 1000 formed at one end of the indoor unit piping 20 is fastened to the female connector 210 of the second fastening structure of the piping connector 1000.

(d) The body 300 of the piping connector 1000 is bent or rotated to the left or right to insert the piping connector 1000 into the landfill box 300, and then the lid 410 is closed to finish.

The step of fastening the female coupling 210 of the second fastening structure and the female coupling 21 of the second fastening structure may include the step of fastening the expansion pipe 20a to the end of the outdoor unit pipe 10 or the indoor unit pipe 20, .

The female connection port 21 prevents the expansion tube 20a of the outdoor unit piping 10 or the indoor unit piping 20 from being detached from the female connection port 21 by the engagement protrusion 21b formed at one end of the female connection port 21 A firm fixation is achieved.

Accordingly, it is possible to quickly, easily, and firmly tighten the pipe without welding, and to prevent the indoor pipe 20 from being loosened or released even when a high pressure is generated.

Therefore, by applying the connection method with the pipe connector, the operator can prevent the refrigerant gas from flowing out due to the loosening of the piping connecting the outdoor unit and the indoor unit from the high pressure, and the connection is made robust and easy without welding to improve the durability and speed It is easy to work and can save money.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. And will be apparent to those skilled in the art to which the invention pertains.

100: first fastening part 110: piping support holder
111: incision section 112: spike
112a: inclination angle 120: sealing means
121, 121a: O-ring 122:
122a: main part 130: female connector
131: female thread 200: second fastening part
200a: slope 210: male connector
211: male screw 220: tool support
300: Body 400: Filling box
10: outdoor unit piping 11: male connector
11a: male screw 11b: engaging slope
20: indoor unit piping 20a: expansion part
21: female connector 21a: female thread
21b:

Claims (8)

delete A first fastening part and a second fastening part which are connected to the indoor unit piping or the outdoor unit piping installed inside the landfill box and the first fastening part and the second fastening part which are formed between the first fastening part and the second fastening part, 1. A landfill box piping connector comprising a body of stainless steel or stainless steel alloy forming a spiral wrinkle to form a flexible structure,
The first fastening portion and the second fastening portion may include male coupling holes formed in the outer surface of which male coupling holes are formed and two or more slitting portions formed at intervals along the circumference at the distal end, A first fastening structure comprising a pipe support holder having at least two spikes, a pipe support holder and a sealing means, and a female connector having a female thread for fastening on the inner surface thereof,
Or the first fastening portion and the second fastening portion is formed with an inclined surface at the front end and a male connecting port formed with a male screw for fastening at one end of the inclined surface and a first end of the refrigerant pipe, Wherein a second fastening structure comprising a male connector of male connector and a female connector formed with a female screw for fastening is adopted and the other fastener adopts the first fastening structure. delete 3. The method of claim 2,
Wherein the engaging slope of the male coupling hole of the first fastening structure is tapered so that the diameter of the male engaging hole becomes smaller toward the inside. 3. The method of claim 2,
Ring holding grooves for easily accommodating the O-rings are formed on the outer surface of the rear end portion and the inner surface of the rear end portion of the pipe support holder, respectively, and the spikes are formed on one side of the front end portion, And an inclined angle is formed at the tip of the spike so as to more easily penetrate into the outer surface of the pipe when external pressure acts on the pipe. 3. The method of claim 2,
Wherein the spike of the first fastening structure is formed so as to have a step higher than the outer surface of the pipe support holder so that the spike of the first fastening structure is first contacted with the inner surface of the male connector when the female connector is fastened, Piping connector. In the method of connecting a flushing box piping using the piping connector of claim 2,
(a) an indoor unit pipe made up of high-pressure and low-pressure pipes located in the installed filling box and a male screw formed on the outer surface forming the first fastening portion and the second fastening portion of the pipe connector at one end of the outdoor pipe, A piping support holder having a connecting port, two or more cut-out portions formed at intervals along the circumference at the tip and two or more spikes formed between the cut-out portions, and a piping support holder located at one side of the piping support holder, A first fastening structure comprising a hermetically sealing means, an arm connection port for supporting the piping support holder and the hermetically sealed means and having a female screw for fastening on the inner surface thereof, or a first fastening structure having an inclined surface at the tip thereof, And an outer pipe or an indoor pipe is received and coupled to the inner surface of the male connector, Forming a female connector of the second fastening structure comprising a female screw arm connecting port for the male thread and the fastening of the male connector is formed with;
(b) fastening the male connector of the first fastening structure to the female connector of the first fastening structure formed on the pipe connector;
(c) After bending or rotating the body of the pipe connector left or right to pull out the second fastening portion of the pipe connector from the landfill box, the female connector of the second fastening structure of the pipe connector formed at one end of the indoor unit pipe, Fastening the male connector of the two fastening structure;
(d) bending or rotating the body of the piping connector to the left or right to insert the piping connector into the landfill box, closing the lid and finishing it; And connecting the flushing pipe to the flushing pipe. 8. The method of claim 7,
Wherein the step of fastening the female connector of the second fastening structure to the female connector of the second fastening structure comprises forming an expansion part at the end of the indoor unit pipe or the outdoor unit pipe.

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