KR100814969B1 - Pipe connecting apparatus - Google Patents

Abstract

A pipe connecting apparatus is provided to connect/disconnect pipes in a convenient manner under the condition of repeating connecting/disconnection of pipes. A pipe connecting apparatus includes a housing(10), a holder, and a stopper member. The housing has one end coupled to a first pipe member(1), and a flow channel inside. The housing includes a compressing ring(14) of a predetermined thickness fitted to the fluid flow channel. The holder is inserted to the fluid flow channel of the housing, having a plurality of elastic pieces(21) arranged in the circumferential direction. A second pipe member(2) is inserted to the hole formed by the elastic pieces, and to the compression ring such that the elastic pieces are contracted by the compression ring and tighten the second pipe member. The stopper member allows the holder inserted into the second pipe member and the compression ring to get caught at the housing.

Description

Pipe Connecting Apparatus

1 is an exploded perspective view showing a configuration of a pipe connecting device according to the present invention;

Figure 2 is a cross-sectional view showing a state before assembly of the pipe connecting device according to the invention,

Figure 3 is a cross-sectional view showing a state after assembly of the pipe connection device according to the invention,

Figure 4 is a cross-sectional view showing a state in which the pipes are connected using the pipe connecting device according to the invention.

<Description of the symbols for the main parts of the drawings>

10 housing 11 body part

12: cap 13: flow path

14: compression ring 15: sealing ring

16: guide member 20: holder

21: elastic piece 21a: stopper

21b: projection 30: locking means

31: locking groove 32: locking projection

The present invention relates to a pipe connecting device, and more particularly, to a pipe connecting device that allows two pipes separated from each other to be easily coupled to each other without leakage in a one-touch type.

In general, in order to transfer fluid, gas, water, oil, chemicals, etc. among the pipes of various materials such as copper pipes, hoses, the material of the pipes is selectively applied according to the type of the transfer fluid to form a transfer pipe.

At this time, when it is difficult to configure the various types of pipelines by using a pipe connecting device to connect the different pipes to configure the overall pipeline.

Conventional pipe connecting device is to form a thread on one side of the pipe so that the pipe connecting device is screwed with the thread so that the pipes are connected to each other. There is inconvenience of having to repeat the screwing and disassembly every time using a wrench.

The present invention has been proposed to solve the problems described above, the object of which is to connect the two different pipes in the situation that the connection and disconnection of the pipe is repeated in a fast time and firmly mutually coupled pipes To be separated.

The present invention for achieving the above object,

A housing having one end coupled to the first pipe member and having a flow path formed therein so as to allow fluid to pass therethrough, and a compression ring having a predetermined thickness fixed to one side of the flow path;

Is inserted into the flow path of the housing, a plurality of elastic pieces are surrounded by a predetermined interval along the circumferential direction and the second pipe member is inserted into the elastic piece, the elastic piece is entered by the compression ring as the compression ring enters the inside A holder which is contracted inward to compress the second pipe member;

Engaging means for engaging the housing in a state where the holder into which the second pipe member is inserted enters the compression ring;

It is configured to include.

In addition, the housing is characterized in that the sealing ring further prevents the outflow of the fluid between the flow path and the second pipe member.

In addition, the housing is inserted, characterized in that the guide member for guiding the holder to easily enter the compression ring is characterized in that the installation further.

The locking means may include a locking groove formed on an inner surface of the flow path of the housing to prevent the elastic piece of the holder from falling out of the compression ring, and a locking protrusion protruding on one side of the holder to be caught by the locking groove. It is done.

In addition, the locking groove is characterized in that the guide portion formed in the same direction as the entry direction of the holder, and the locking portion formed to be bent laterally from the guide portion.

In addition, the locking groove is characterized in that the flow absorbing portion is further extended to absorb the left and right flow of the holder at one end of the locking portion.

In addition, the end of the elastic piece of the holder is characterized in that the stopper protruding toward the center so that the second tube member is caught.

In addition, the inner side of the elastic piece is characterized in that the protrusion protruding toward the second tube member.

In addition, the housing is formed by separating the body portion and the cap portion, characterized in that the body portion and the cap portion can be mutually coupled.

Hereinafter, the technical configuration of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 is an exploded perspective view showing the configuration of the pipe connection device according to the invention, Figure 2 is a cross-sectional view showing a state before assembly of the pipe connection device according to the present invention, Figure 3 after the assembly of the pipe connection device according to the invention Figure 4 is a cross-sectional view showing a state, Figure 4 is a cross-sectional view showing a state in which the pipes are connected using the pipe connecting device according to the invention.

As shown in the drawings, the pipe connection device according to the present invention includes a housing 10, a holder 20, and a locking means 30 to hold the holder 20 to the housing 10. Is done.

The housing 10 is configured to constitute the overall appearance of the apparatus according to the present invention, and one end of the housing 10 is connected to a conventional pipe member (hereinafter, referred to as a “first pipe member”) such as a steel pipe or a hose. Fixedly coupled.

When one end of the housing 10 is coupled with the first pipe member 1, one end of the housing 10 may have a thread 10a having a predetermined pitch as shown in FIGS. 1 and 2 to increase the coupling force. In addition, one end of the first pipe member 1 is formed so that the thread 1a having the same pitch as the thread 10a of the housing 10 is formed so that the two members are mutually screwed together.

At this time, the screw thread formed in the housing 10 and the first pipe member 1 is configured such that one is a female screw and the other is a male screw.

Of course, it is not necessary to form a screw thread at one end of the housing 10 and is coupled to the first pipe member 1 in an interference fit manner, or by welding or the like to the first pipe member 1. The housing 10 may be configured to be integrated.

In addition, a flow path 13 having a predetermined diameter is formed inside the housing 10 to allow a fluid such as water, oil, gas, etc. to penetrate along the longitudinal direction of the housing 10. On one side, a compression ring 14 having a predetermined thickness is fixedly installed.

The compression ring 14 fits snugly to the inner diameter of the flow path 13 of the housing 10, and the inner diameter of the compression ring 14 is a flow path of the housing 10 because the compression ring 14 has a predetermined thickness. (13) It is necessarily smaller than the inner diameter.

At this time, it is preferable that a stepped step is formed on the passage 13 of the housing 10 in which the compression ring 14 is installed so that the compression ring 14 is not pushed when receiving the predetermined force.

In addition, the housing 10 is inserted into the body portion 11 and the body portion 11 so that the holder 20, the seal ring 15, the guide member 16, etc., which will be described later, are easily inserted and are easily assembled. It is preferable that the cap portion 12 is combined.

The cap portion 12 is coupled to the body portion 11 after all the components accommodated therein is mounted so that the components inside do not fall out, the body portion 11 and the cap portion 12 is usually It can be coupled through the coupling means, that is, bolt coupling or screw coupling.

On the other hand, the holder 20 is inserted into the flow path 13 of the housing 10, the main function is to hold the other pipe member (hereinafter referred to as "second pipe member") and the second By allowing the tube member 2 to be fixed on the housing 10, the first tube member 1 and the second tube member 2 communicate with each other.

As shown in FIGS. 1 and 2, the holder 20 is provided with a plurality of elastic pieces 21 to hold the second pipe member 2 so that the elastic pieces 21 are fixed along the circumferential direction. It is arranged in the form of spaced apart.

Therefore, when the holder 20 enters into the compression ring 14 inside the housing 10 while the second pipe member 2 is inserted into the elastic piece 21 of the holder 20, the elastic member 21 is elastic. The piece 21 is contracted inward by the compression ring 14 to compress the second pipe member 2.

In this state, the locking means 30 is provided so that the holder 20 does not retreat from the compression ring 14 in the opposite direction to the entrance, and the locking means 30 is provided with the second pipe member 2 inserted therein. The holder 20 is caught by the housing 10 in a state where the compression ring 14 enters the inside.

Here, the locking means 30 is a locking groove 31 formed in a predetermined shape on the inner surface of the flow path 13 of the housing 10 and the holder to be caught by the locking groove 31 as shown in FIG. It consists of a locking projection (32) protruding on one side of the (20).

The locking groove 31 is to be formed so that the elastic piece 21 of the holder 20 enters into the compression ring 14 and can be maintained in a state in which the second pipe member 2 is compressed. The locking groove 31 includes a guide portion 31a formed in the same direction as the entry direction of the holder 20 and a locking portion 31b formed to be bent to the side of the guide portion 31a.

Therefore, although the locking protrusion 32 of the holder 20 is always inserted into the locking groove 31, when the holder 20 enters the compression ring 14, the locking protrusion 32 is closed. When guided and moved along the induction part 31a, and the holder 20 is to be maintained in the state entered into the compression ring 14, turning the holder 20 in any one direction, the locking projection of the holder 20 As the 32 moves along the locking portion 31b in the induction portion 31a, the holder 20 is substantially caught in the locking portion 31b, so that the holder 20 cannot be retracted in the opposite direction in which it entered.

On the other hand, when a small flow or vibration occurs in the holder 20 while the locking projection 32 of the holder 20 is caught on the locking portion 31b, the holder 20 is guided at the locking portion 31b. There is a problem that can be separated by moving toward the (31a) through the induction portion 31a, one end of the locking portion 31b to prevent this and to absorb this even if left and right flow occurs in the holder 20 It is preferable that the flow absorbing portion 31c is further formed.

As shown in FIG. 2, the flow absorbing portion 31c is not positioned on the same line as the catching portion 31b at the end of the catching portion 31b, and has a predetermined length so as to step with the catching portion 31b.

When the locking projection 32 of the holder 20 is positioned in the flow absorbing portion 31c formed as described above, the holder 20 may be moved even if the second pipe member 2 fitted to the holder 20 flows from side to side. Since the holder is not separated from the flow absorbing part 31c, as a result, the holder 20 is maintained in the state of being inserted into the compression ring 14 while pressing the second pipe member 2.

In addition, as shown in Fig. 3, when the second pipe member 2 is inserted into the elastic piece 21 of the holder 20 to apply a force toward the compression ring 14 on the holder 20, the second pipe It is preferable that a stopper 21a is formed at the end of the elastic piece 21 to protrude toward the center of the holder 20 so that the member 2 is caught by the elastic piece 21.

In addition, the inner surface of the elastic piece 21 is preferably formed with a protrusion 21b to protrude toward the second tube member 2, the protrusion 21b is the elastic piece 21 is The second pipe member 2 is prevented from escaping from the elastic piece 21 in the compressed state of the second pipe member 2.

Meanwhile, a gap between the flow path 13 of the housing 10 and the second pipe member 2 in a state where the holder 20 in which the second pipe member 2 is fitted is mounted to the housing 10. It is preferable that a seal ring 15 is further installed in the housing 10 to prevent the furnace fluid from leaking out.

In addition, as shown in Figure 3, the guide member 16 for guiding the holder 20 so that the holder 20 easily enters the inside of the compression ring 14 is fixed to the housing 10, The guide member 16 is provided in the form of a washer in the middle of the holder 20 to prevent the elastic piece 21 of the holder 10 from biasing on any one of the flow path 13 of the housing 10. desirable.

Hereinafter, the operation of the present invention will be described with reference to FIGS.

As shown in FIG. 3, the compression ring 14, the holder 20, and the seal ring 15 are positioned inside the housing 10 while the housing 10 is coupled to the first pipe member 1. do.

In this case, the holder 20 is positioned so that the center line thereof is coincident with the center line of the housing 10 by the guide member 16 installed inside the housing 10, and the end of the holder 20 is the compression ring ( 14) is caught and touched.

In this state, when the second pipe member 2 which is substantially coincident with the inner diameter of the holder 20 is inserted from the opposite side of the first pipe member 1, the second pipe member 2 of the holder 20 The elastic piece 21 enters into the elastic piece 21 and is caught by the stopper 21a at the end of the elastic piece 21. In this case, when the second pipe member 2 is applied with a larger external force, the elastic piece 21 as shown in FIG. As the 21 enters into the compression ring 14, the elastic piece 21 is retracted. Accordingly, the elastic piece 21 compresses the second pipe member 2 so that the second pipe member 2 is pressed. It does not fall out of the holder 20.

At this time, the protruding portion 21b formed on the inner surface of the elastic piece 21 presses the second pipe member 2 to a greater pressure so that the second pipe member 2 slides on the elastic piece 21. In order to prevent falling out, and to prevent the elastic piece 21 from being retracted from the compression ring 14 in this state, when the second pipe member 2 is turned in one direction, the locking protrusion 32 formed in the holder 20 is formed. ) Moves from the guide portion 31a of the locking groove 31 formed in the housing 10 toward the locking portion 31b on the side thereof, so that the holder 20 is caught by the housing 10.

In this state, when the second pipe member 2 is turned to the maximum, and the external force applied to the second pipe member 2 is removed, the elastic piece 21 which has been forcibly contracted by the compression ring 14 is naturally compressed. The locking projection 32 is placed in the flow absorbing portion 31c of the locking groove 31 by moving in the direction of exiting from the reference numeral 14.

When the locking projection 32 is positioned in the flow absorbing portion 31c, the holder 20 does not come out of the housing 10 even when the left and right flows are applied to the second pipe member 2. By moving the left and right by the length of the absorbing portion (31c) can be absorbed the flow applied to the second pipe member (2).

Of course, even in this state, the second pipe member 2 is pressed by the elastic piece 21 of the holder 20 so that it is not separated from the holder 20.

On the other hand, when the second pipe member 2 is to be separated from the holder 20, the second pipe member 2 is slightly pushed toward the first pipe member 1 and rotated in one direction so that the holder 20 is closed. The locking protrusion 32 passes through the step of the flow absorbing portion 31c and comes toward the guide portion 31a of the locking groove 31 along the locking portion 31b, and the locking protrusion 32 is the guide portion 31a. When positioned in the elastic piece 21 of the holder 20 can be released from the compression ring (14).

When the elastic piece 21 is removed from the compression ring 14 as described above, the pressing force applied to the second pipe member 2 is also released, and the second pipe member 2 can be separated from the holder 20.

In the above, the present invention has been described in detail by using the preferred embodiments, but the scope of the present invention is not limited to the specific embodiments, and those skilled in the art may be configured within the scope of the present invention. Substitution and modification of the elements are possible but this also belongs to the rights of the present invention.

According to the present invention as described above, when connecting two different pipes can be easily connected to or separated from each other by a one-touch method, it is very useful to connect and disconnect pipes in a situation where the connection and disconnection of the pipes is repeated. There is a distinctive effect.

Claims (9)

A housing 10 having one end coupled to the first pipe member 1 and having a passage 13 formed therein so as to allow fluid to pass therethrough, and a compression ring 14 having a predetermined thickness fixed to one side of the passage 13; Inserted into the flow path 13 of the housing 10, a plurality of elastic pieces 21 are surrounded by a predetermined interval along the circumferential direction, and the second pipe member 2 is inserted into the elastic piece 21 inside A holder 20 configured to compress the second pipe member 2 by contracting the elastic piece 21 inwardly by the compression ring 14 as the compression ring 14 enters the inner side; A catching means (30) for catching the housing (10) in a state in which the holder (20) into which the second pipe member (2) is inserted is entered into the compression ring (14); Pipe connectors configured including The pipe connecting device according to claim 1, wherein the housing (10) is further provided with a seal ring (15) for preventing the flow of fluid between the flow path (13) and the second pipe member (2). The method of claim 1, wherein the holder 10 is inserted into the housing 10 is characterized in that the guide member 16 for guiding the holder 20 to easily enter the compression ring 14 is further installed. Pipe connector. According to claim 1, The locking means 30, A locking groove 31 formed on an inner surface of the flow path 13 of the housing 10 to prevent the elastic piece 21 of the holder 20 from being removed from the compression ring 14 and the locking groove 31. Pipe connection device, characterized in that made of a locking projection (32) protruding on one side of the holder 20 to be caught. The method of claim 4, wherein the locking groove 31 is composed of a guide portion 31a formed in the same direction as the entry direction of the holder 20, and a locking portion 31b formed to be bent laterally from the guide portion 31a. Pipe connector characterized in that. The pipe according to claim 5, wherein the hook groove (31) is further provided with a flow absorbing portion (31c) formed at one end of the hook portion (31b) to absorb the left and right flows of the holder (20). Connector. The pipe connecting device according to claim 1, wherein a stopper (21a) protruding toward the center is formed at the end of the elastic piece (21) of the holder (20) to catch the second pipe member (2). The pipe connecting device according to claim 1, wherein a protruding portion (21b) protruding toward the second pipe member (2) is formed on an inner surface of the elastic piece (21). According to claim 1, wherein the housing 10 is made of a body portion 11 and the cap portion 12 is separated, the body portion 11 and the cap portion 12 is a pipe connection device, characterized in that the mutual coupling .

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