KR20180030958A - Pipe coupler - Google Patents

Abstract

The present invention relates to a pipe coupler comprising a socket having a pipe-shape, having a front surface opened to allow insertion of a pipe to be connected to the pipe and having a locking protrusion formed on an inner surface thereof; an O-ring installed on an inner surface of the socket to be coupled to the outer surface of the pipe inserted into the socket; a grab ring seated on a locking protrusion of the socket and having a plurality of elastic pieces arranged to be inclined in a direction where the pipe is inserted; a screw cap coupled to the outer surface of the socket in a state where the pipe is inserted into the socket to maintain a state where the pipe is connected to the socket and preventing an end of the socket from being exposed to the outside; a spacer washer arranged between the O-ring and the grab ring and having a protrusion piece formed by protruding therefrom and supporting the elastic piece to maintain a state where the grab ring is seated on the locking protrusion; and an auxiliary grab ring installed between the grab ring and the spacer washer and having a maintaining piece protruding therefrom in such a manner as to be inclined to be in partial contact with the surface of the elastic piece to maintain a state where the elastic piece of the grab ring is arranged to be inclined when an external force is applied in a direction where the pipe is separated from the socket, wherein the diameter of an end of the maintaining piece is equal to the outer diameter of the pipe. The pipe and socket can be easily connected by using the auxiliary grab ring when connecting the pipe to the socket, thereby improving workability. Moreover, the pipe and socket can be firmly connected to improving watertightness.

Description

Pipe connector {PIPE COUPLER}

The present invention relates to a pipe connector, and more particularly, to a pipe connector in which a pipe and a socket are firmly connected while a hermetic seal is maintained therebetween.

Generally, pipes are widely used for transporting fluid such as tap water or oil or gas such as gas. Pipes are manufactured and released to a certain standard due to restrictions on transportation and handling. Therefore, when the pipe is installed at a length longer than the standard length of the pipe or bent at a certain angle, it is necessary to use a pipe connector or weld the pipes to each other.

There is a wide variety of pipe connectors for connecting pipes used in pipes for heating, heating, and the like. In particular, the use of the grip ring 20 prevents the pipe 1 inserted in the socket 10 from escaping Due to the ease of the connection work, the pipe connection of the structure has conventionally been mainly used for indoor piping.

1 is a longitudinal sectional view showing a structure of a pipe connector according to an embodiment of the present invention.

As shown in the drawing, a conventional pipe connector has two grip rings 20 provided inside a socket 10 and having a plurality of elastic pieces 21 and a socket 20 for protecting and fixing the O- And a cap 40 is coupled to an end of the cap 10.

A spacer washer (50) is installed inside the socket (10) to support the two grip rings (20) installed so as to overlap each other inside the socket (10).

Since the conventional pipe connector has a double structure in which the grip rings 20 are overlapped with each other, when the pipe 1 is inserted into the socket 10, the ends of the pipe 1 and the grip ring 20 are interfered with each other and a large amount of force is required due to the double arrangement structure of the grip ring 20 and the pipe 1 can not be easily inserted into the socket 10, .

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a pipe connecting structure for a pipe, So that the watertightness can be improved.

In order to solve the above-described problems, the present invention provides a pipe-type socket comprising: a tubular socket having a front surface opened to allow a pipe to be inserted therein and interconnected with the pipe, An O-ring installed on an inner surface of the socket and fastened to an outer surface of a pipe inserted into the socket; A grip ring which is seated on a hook of the socket and has a plurality of elastic pieces arranged to be inclined along a direction in which the pipe is inserted; A screw cap coupled to an outer surface of the socket in a state where the pipe is inserted into the socket to keep the pipe connected to the socket and prevent the end of the socket from being exposed to the outside; A spacer washer provided between the o-ring and the grip ring to project a protruding piece for supporting the elastic piece so that the grip ring can be held in the engaging jaw; Wherein the grip ring is provided between the spacer ring and the spacer washer so that when the external force acts on the grip ring in a direction in which the pipe is disengaged from the socket, Wherein a diameter of the holding end is provided with an auxiliary grip ring formed to have the same diameter as the diameter of the pipe.

Here, the holding piece may be formed flat to have a continuous plate surface, and the entire plate surface may be formed in an inclined ring shape.

The angle at which the holding piece is inclined so that the plate surface of the retaining piece is in contact with the plate surface of the elastic piece may be formed to be the same as the inclined angle of the elastic piece of the grap ring.

The plate surface of the retaining piece on the opposite side of the close contact surface to be brought into close contact with the plate surface of the elastic piece may be provided in contact with the protruding piece of the spacer washer.

In addition, in the socket, when the pipe is inserted into the socket, the tubular support is in close contact with the inner surface of the pipe to prevent deformation of the pipe when an external force acts on the pipe in a direction in which the pipe is disengaged from the socket. A sleeve may be provided.

The present invention has an effect of improving the workability by improving the insertion property when the pipe is initially inserted into the pipe connecting hole by providing a separate auxiliary grip ring inside the pipe connecting hole used for connecting the pipe and the socket .

In addition, the connection between the pipe and the socket is made solid, thereby improving watertightness.

1 is a longitudinal sectional view showing a structure of a pipe connector according to a conventional example,
2 is a longitudinal sectional view showing the structure of a pipe connector according to an embodiment of the present invention,
Fig. 3 is a perspective view showing the structure of the auxiliary grab ring of Fig. 2;

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

FIG. 2 is a longitudinal sectional view showing a structure of a pipe connector according to an embodiment of the present invention, and FIG. 3 is a perspective view showing a structure of the auxiliary grab ring of FIG.

As shown in these drawings, the pipe connector according to the present invention includes a pipe 1 having a front opening so as to be inserted into the pipe 1, interconnected with the pipe 1, and an engagement protrusion 110 formed on the inner surface thereof A tubular socket (100); An O-ring 200 installed on the inner surface of the socket 100 and fastened to the outer surface of the pipe 1 inserted into the socket; A grip ring 300 having a plurality of resilient pieces 310 which are seated on the engaging jaws 110 of the socket 100 and are inclined along the direction in which the pipe 1 is inserted; The pipe 1 is coupled to the outer surface of the socket 100 in a state where the pipe 1 is inserted into the socket 100 to maintain the pipe 1 in a state of being coupled to the socket 100, A screw cap 400 for preventing the end portion from being exposed to the outside; A protrusion piece 510 which is disposed between the O-ring 200 and the grip ring 300 and supports the elastic piece 310 so that the grip ring 300 can be held in the engagement protrusion 110, A protruding spacer washer 500; The elastic piece 310 of the grapple ring 300 is installed between the grip ring 300 and the spacer washer 500 and acts upon an external force in a direction in which the pipe 1 is disengaged from the socket 100. [ And a retaining piece 610 slantingly protruded so as to be in contact with a part of the surface of the elastic piece 310 so as to maintain the inclined state of the elastic piece 310. The diameter of the end of the retaining piece 610 is larger than the outer diameter of the pipe 1 The auxiliary grappling ring 600 is formed in the same manner as the first embodiment.

The socket 100 is inserted into the end of the pipe 1 for connection between the pipe 1 and the pipe and the pipe 1 to be connected is inserted into the other end of the socket 100, So that the pipe 1 is connected to the pipe without leakage.

The socket 100 is formed as a tubular member having a space in which the pipe 1 can be inserted therein. The outer surface of the socket 100 is threaded so that the screw cap 400 can be fastened. On the lower side of the inner wall, And a latching jaw 110 on which the grapple ring 300 can be seated.

The O-ring 200 which is seated on the stopping jaw 110 of the socket 100 is formed of an elastic material and is connected to the pipe 1 to be connected to the outer surface of the pipe to be inserted into the socket 100, Thereby preventing the occurrence of water leakage.

For this purpose, the diameter of the O-ring 200 is preferably slightly smaller than the diameter of the pipe 1 so that the O-ring 200 can be closely attached to the outer surface of the pipe.

It is effective that the O-ring 200 is formed to have a circular vertical cross-section so that the inserted pipe can be smoothly inserted while sliding on the surface of the O-ring 200 when the connected pipe is inserted into the socket 100.

The grip ring 300 is disposed on the upper side of the O-ring 200 along the height direction of the socket 100 and is in intimate contact with the outer surface of the pipe to be inserted, so that the pipe inserted into the socket 100, So that the outer surface of the pipe is fixed.

A plurality of elastic pieces 310, which are in contact with the outer surface of the pipe when the pipe is inserted, are formed in the inner surface of the insertion hole in the circumferential direction As shown in FIG.

The elastic piece 310 is disposed at an angle upward from the insertion hole of the grip ring 300 along the direction in which the pipe is inserted so that the insertion of the pipe is smoothly performed, .

The elastic piece 310 is formed in a trapezoidal shape gradually decreasing in width toward the upper side along the height direction so that an elastic cut surface is cut between the elastic piece 310 and the elastic piece 310 So that the elastic piece 310 has elasticity.

It is effective that the elastic pieces 310 are provided at a plurality of mutually opposing positions so as not to be eccentric to one side in contact with the outer surface of the pipe.

The screw cap 400 is coupled to the outer surface of the socket 100 to maintain the connected state of the pipe 1 and the socket 100 and to prevent the end of the socket 100 from being exposed to the outside, So that the worker who is working can not be hurt.

The screw cap 400 has an inner surface formed with threads to be engaged with threads formed on an outer surface of the socket 100, and an insertion hole through which the pipe can be inserted is formed at the center thereof.

The spacer washer 500 is disposed between the O-ring 200 and the grapple ring 300 to support the elastic piece 310 so that the grapple ring 300 can be held in the engagement protrusion 110 510 are protruded.

The diameter of the spacer washer 500 is formed to have the same length as the inner diameter of the socket 100 so that when the spacer washer 500 is inserted into the socket 100, the outer surface of the spacer washer 500 is inserted into the socket 100 It is preferable that the elastic piece 310 is firmly contacted with the inner surface so that the elastic piece 310 can be firmly supported.

The auxiliary grip ring 600 is installed between the grip ring 300 and the spacer washer 500 and is elastically deformed when the external force acts on the pipe 1 in the direction in which the pipe 1 is disengaged from the socket 100. [ And is a member that plays a role of maintaining the state in which the pieces 310 are arranged obliquely.

The auxiliary grip ring 600 is provided with a retaining piece 610 which is in contact with a part of the surface of the resilient piece 310 so as to be inclined and protruded. The end diameter of the retaining piece 610 is larger than the outer diameter of the pipe 1 It is preferable that they are formed in the same manner.

Since the end portion of the holding piece 610 is formed to have the same outer diameter as that of the pipe 1, when the pipe 1 is inserted into the socket 100, the outer surface of the pipe 1 and the outer surface of the auxiliary grip ring 600 There is an effect that the insertion property of the pipe 1 can be improved by preventing the holding pieces 610 from interfering with each other.

In the case of the conventional socket, since the two grip rings are disposed to overlap with each other and are installed inside the socket, when the pipe is inserted, the pipe is inserted into the socket while elastically deforming the elastic pieces provided in the two grip rings. The pipe fittings according to the present invention have a problem that the holding pieces 610 of the auxiliary grip ring 600 do not interfere with the pipe 1 inserted into the socket 100 The pipe 1 can be inserted into the socket 100 with a smaller force, so that the insertion property of the pipe 1 can be improved.

The holding piece 610 of the auxiliary grap ring 600 is formed flat so as to have a continuous plate surface and the entire plate surface is formed in a ring shape inclined so that the elastic piece 310 of the grapple ring 300 is firmly supported Since the plate surface is formed as a continuous plate surface rather than a structure cut out like the elastic piece 310 of the grip ring 300, the auxiliary grip ring 600 is assembled at an angle when assembling the socket 100 into the socket 100 There is an effect that the elastic piece 310 can be supported.

The inclined angle of the holding piece 610 such that the plate surface of the holding piece 610 is in contact with the plate surface of the elastic piece 310 is formed to be equal to the inclined angle of the elastic piece 310 of the grip ring 300 .

The plate surface of the holding piece 610 on the opposite side of the contact surface to be brought into close contact with the plate surface of the elastic piece 310 is fixed to the projecting piece 510 of the spacer washer 500, It is effective to be installed in a contact state.

When the pipe 1 is inserted into the socket 100, the socket 100 is brought into close contact with the inner surface of the pipe 1 when the pipe 1 is inserted into the socket 100. When an external force acts on the pipe 100 in a direction in which the pipe 1 is separated from the socket 100 A tubular support sleeve 700 for preventing deformation of the pipe 1 is provided.

The support sleeve 700 is disposed inside the socket 100 so that the inner surface of the pipe 1 and the outer surface of the support sleeve 700 come into contact with each other when the pipe 1 is inserted into the socket 100, It is possible to prevent the pipe 1 from being easily deformed due to deformation when an external force acts in a direction away from the socket 100.

A process of connecting a pipe and a pipe using the pipe connector according to an embodiment of the present invention having the above-described structure will be described below.

When the pipe 1 to be connected is inserted into the inner space of the socket 100, the end of the pipe 1 passes through the O-ring 200 and the spacer washer 500, Lt; / RTI >

In this state, when the operator further pushes the pipe 1 into the socket 100, the elastic piece 310 of the grip ring 300 is elastically deformed and the pipe 1 is pushed into the socket 100, The support sleeve 700 is in contact with the inner surface of the pipe 1 and the connection of the pipe 1 is completed.

At this time, since the holding piece 610 of the auxiliary grip ring 600 is not in contact with the pipe 1 inserted into the socket 100, the insertion property of the pipe 1 can be improved, The resilient piece 310 can be firmly supported by the retaining piece 610 when the external force is applied to the socket 100 so that the pipe 1 is not separated from the socket 100 So that the coupling between the pipe 1 and the socket 100 can be accurately and firmly performed.

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 as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

1: Pipe 100: Socket
110: Jaw jaw 200: O-ring
300: grip ring 310: elastic piece
400: Screw cap 500: Spacer washer
600: auxiliary grinding ring 610: retaining piece

Claims (5)

A tubular socket (100) having a front surface opened to allow the pipe (1) to be inserted therein, the tubular socket (100) interconnected with the pipe (1) and having an engagement surface (110)
An O-ring 200 installed on the inner surface of the socket 100 and fastened to the outer surface of the pipe 1 inserted into the socket;
A grip ring 300 having a plurality of resilient pieces 310 which are seated on the engaging jaws 110 of the socket 100 and are inclined along the direction in which the pipe 1 is inserted;
The pipe 1 is coupled to the outer surface of the socket 100 in a state where the pipe 1 is inserted into the socket 100 to maintain the pipe 1 in a state of being coupled to the socket 100, A screw cap 400 for preventing the end portion from being exposed to the outside;
A protrusion piece 510 which is disposed between the O-ring 200 and the grip ring 300 and supports the elastic piece 310 so that the grip ring 300 can be held in the engagement protrusion 110, A protruding spacer washer 500;
The elastic piece 310 of the grapple ring 300 is installed between the grip ring 300 and the spacer washer 500 and acts upon an external force in a direction in which the pipe 1 is disengaged from the socket 100. [ And a retaining piece 610 slantingly protruded so as to be in contact with a part of the surface of the elastic piece 310 so as to maintain the inclined state of the elastic piece 310. The diameter of the end of the retaining piece 610 is larger than the outer diameter of the pipe 1 Is provided with an auxiliary grip ring (600) formed in the same manner as the pipe fitting (600). The method according to claim 1,
Wherein the holding piece (610) is formed flat so as to have a continuous plate surface, and the entire plate surface is formed into a ring shape having an inclined shape. 3. The method of claim 2,
The inclined angle of the holding piece 610 such that the plate surface of the holding piece 610 is in close contact with the plate surface of the elastic piece 310 is equal to the inclined angle of the elastic piece 310 of the grip ring 300 And the pipe connecting portion is formed in the pipe connecting portion. The method according to claim 1,
Wherein the plate surface of the holding piece (610) on the opposite side to the close contact surface of the elastic piece (310) is in contact with the protruding piece (510) of the spacer washer (500) . 5. The method according to any one of claims 1 to 4,
When the pipe 1 is inserted into the socket 100, the socket 100 is brought into close contact with the inner surface of the pipe 1 so that the pipe 1 is separated from the socket 100 Is provided with a tubular support sleeve (700) for preventing deformation of the pipe (1) when an external force acts on the pipe (1).

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