KR102053283B1 - Pipe coupler - Google Patents

Abstract

The present invention includes a tubular socket having a front surface formed with an opening so that the pipe can be inserted into the pipe and interconnected with the pipe and having a locking jaw formed at an inner surface thereof; 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 grabbing ring seated on a locking jaw of the socket and having a plurality of elastic pieces disposed to be inclined along a direction in which the pipe is inserted; A screw cap coupled to an outer surface of the socket while the pipe is inserted into the socket to maintain the pipe coupled to the socket and to prevent the end of the socket from being exposed to the outside; A spacer washer disposed between the O-ring and the grab ring to protrude a projection piece to support the elastic piece so that the grab ring may be seated on the locking jaw; Is installed between the grab ring and the spacer washer protrudes inclined to contact a portion of the elastic piece to maintain a state in which the elastic piece of the grab ring is inclined when an external force is applied in the direction in which the pipe is separated from the socket. It is provided with a holding piece, the diameter of the end of the holding piece is provided with an auxiliary grappling formed to be the same as the outer diameter of the pipe, so that the pipe and the socket is easily connected by using the auxiliary grabbing when connecting the pipe and the socket By improving the workability and making the connection between the pipe and the socket securely, the watertightness can be improved.

Description

PIPE COUPLER {PIPE COUPLER}

The present invention relates to a pipe connector, and more particularly, to a pipe connector for tightly connecting the pipe and the socket while maintaining the airtight between them when connecting the pipe and the socket.

In general, pipes are widely used to transport fluids such as tap water and oil or fluids such as gas. Pipes are manufactured and released to certain standards due to restrictions in transportation and handling. Therefore, if the pipe is to be installed longer than the standard length of the pipe or bent at an angle, the pipe should be connected or welded to each other.

There are a wide variety of pipe connectors for connecting pipes used for plumbing for water or heating. In particular, the pipe 1 inserted into the socket 10 by using the grab ring 20 is prevented from coming out. Pipe connectors having a structure have been conventionally used mainly for indoor piping due to the ease of connection work.

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

As shown in the figure, the conventional pipe connector is installed in the socket 10 and the socket for protecting and fixing the two grab ring 20 and the O-ring 30 having a plurality of elastic pieces 21 (10) It has a structure in which the cap 40 is coupled to the end portion.

In addition, a spacer washer 50 for supporting the two grabbing rings 20 which are installed to overlap each other in the socket 10 is fixed to the inside of the socket 10.

By the way, in such a conventional pipe connector, the grab ring 20 is arranged in a double overlapping form, so that the end of the pipe 1 and the grab ring when the pipe 1 is inserted into the socket 10 ( The elastic pieces 21 of 20 are interfering with each other, and due to the double arrangement of the grabbing rings 20, a large amount of force is required, so that the pipe 1 cannot be easily inserted into the socket 10. .

The present invention has been made to solve the above problems, and when the pipe and the socket are connected, the pipe can be initially inserted into the pipe connector even with a small force, thereby improving the constructability and at the same time, the connection between the pipe and the socket is firm. The purpose of the present invention is to provide a pipe connector that can be made to improve the watertightness.

In order to solve the above problems, the present invention is a tubular socket is formed so that the front surface is formed so that the pipe can be inserted into the interconnection and interconnected with the pipe and the locking projection is formed on the inner surface; 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 grabbing ring seated on a locking jaw of the socket and having a plurality of elastic pieces disposed to be inclined along a direction in which the pipe is inserted; A screw cap coupled to an outer surface of the socket while the pipe is inserted into the socket to maintain the pipe coupled to the socket and to prevent the end of the socket from being exposed to the outside; A spacer washer disposed between the O-ring and the grab ring to protrude a projection piece to support the elastic piece so that the grab ring may be seated on the locking jaw; Is installed between the grab ring and the spacer washer protrudes inclined to contact a portion of the elastic piece in order to maintain a state in which the elastic piece of the grab ring is inclined when an external force is applied in the direction in which the pipe is separated from the socket. It is provided with a retaining piece, the diameter of the end of the holding piece proposes a pipe connector, characterized in that the auxiliary grabbing is formed to be the same as the outer diameter of the pipe.

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

In addition, the inclined angle of the holding piece may be formed to be the same as the inclined angle of the elastic piece of the grabbing so that the plate surface of the holding piece is in close contact with the plate surface of the elastic piece.

In addition, the plate surface of the holding piece on the opposite side of the contact surface in close contact with the plate surface of the elastic piece may be installed in contact with the protruding piece of the spacer washer.

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

The present invention has an effect that can easily improve the insertability at the time of initial insertion of the pipe to the pipe connector by installing a separate auxiliary grabbing inside the pipe connector used when connecting the pipe and the socket. .

In addition, it is possible to improve the watertightness by making the connection between the pipe and the socket firmly.

1 is a longitudinal sectional view showing a structure of a pipe connector according to a conventional embodiment;
Figure 2 is a longitudinal cross-sectional view showing the structure of the pipe connector according to an embodiment of the present invention,
3 is a perspective view illustrating a structure of the auxiliary grabbing of FIG. 2.

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

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

As shown in these figures, the pipe connector according to the present invention, the front surface is formed so that the pipe (1) can be inserted into the interconnection with the pipe (1) and the locking projection 110 is formed on the inner surface Tubular socket (100); An o-ring (200) installed on an inner surface of the socket (100) and fastened to an outer surface of a pipe (1) inserted into the socket; Grab ring 300 is mounted to the engaging jaw 110 of the socket 100 and provided with a plurality of elastic pieces 310 are inclined in the direction in which the pipe (1) is inserted; While the pipe 1 is inserted into the socket 100, the pipe 1 is coupled to the outer surface of the socket 100 to maintain the pipe 1 coupled to the socket 100, and Screw cap 400 to prevent the end is exposed to the outside; Protruding piece 510 disposed between the O-ring 200 and the grab ring 300 to support the elastic piece 310 to maintain the grab ring 300 seated on the engaging jaw 110. Spacer washers 500 protruding from each other; An elastic piece 310 of the grab ring 300 is installed between the grab ring 300 and the spacer washer 500 when an external force is applied in a direction in which the pipe 1 is separated from the socket 100. In order to maintain the inclined state is provided with a retaining piece 610 protruding inclined so as to contact a part surface of the elastic piece 310, the diameter of the end of the holding piece 610 is the outer diameter of the pipe (1) An auxiliary grabbing ring 600 formed in the same manner is provided.

The socket 100 is inserted and coupled to one end of the pipe (1) for the connection of the pipe (1) and the pipe, the other side is inserted into the pipe (1) to be connected to the fluid flowing along the inside to the outside The pipe (1) and the pipe serves to make a connection without leakage.

The socket 100 is a tubular member in which a space in which the pipe 1 can be inserted is formed. A thread is formed on the outer surface of the socket 100 so that the screw cap 400 can be fastened. And the locking jaw 110 to which the grab ring 300 can be seated is formed to protrude.

The O-ring 200 seated on the locking jaw 110 of the socket 100 is a member formed of an elastic material and is connected to the pipe 1 that is fastened to the outer surface of the pipe to be inserted into the socket 100. Prevents leaks in the

To this end, the diameter of the O-ring 200 is preferably formed to be somewhat smaller than the diameter of the pipe (1) to be connected so that the O-ring 200 is in close contact with the outer surface of the pipe.

In addition, the O-ring 200 may be formed to have a circular longitudinal cross section so that the pipe may be smoothly inserted while the pipe to be connected is slid from the surface of the O-ring 200 when the pipe 100 is inserted into the socket 100.

Grab ring 300 is in close contact with the outer surface of the pipe is placed on the upper side of the O-ring 200 along the height direction of the socket 100 is inserted into the socket 100 of the pipe (100) It is a member that serves to fix the outer surface of the pipe so as not to escape from.

An insertion hole into which a pipe can be inserted is formed at the center of the grabbing ring 300, and a plurality of elastic pieces 310 contacting 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 thereof. Are spaced apart at regular intervals.

The elastic piece 310 is disposed to be inclined upward at an angle along the direction in which the pipe is inserted into the insertion hole of the grabbing ring 300. The pipe is inserted smoothly, so that the inserted pipe is not easily separated. To do this.

The elastic piece 310 is formed in a trapezoidal shape whose width gradually decreases toward the upper side along the height direction thereof, so that an elastic incision surface is formed between the elastic piece 310 and the elastic piece 310. This is for the elastic piece 310 to have elasticity.

The number of the elastic pieces 310 may be any number, but any number of the elastic pieces 310 may be provided at an even number of mutually opposing positions so as not to be eccentric to one side when contacting the outer surface of the pipe to support the pipe.

The screw cap 400 is coupled to the outer surface of the socket 100 to maintain the pipe 1 and the socket 100 connected state and at the same time prevent the end of the socket 100 is exposed to the outside exposed socket (100) This is to prevent injury to the worker in the end of the work.

In addition, a screw thread coupled to a screw thread formed on an outer surface of the socket 100 is formed on an inner surface of the screw cap 400, and an insertion hole through which a pipe can be inserted is formed in the center thereof.

The spacer washer 500 is disposed between the O-ring 200 and the grab ring 300 to support the elastic piece 310 so as to maintain the grab ring 300 seated on the latching jaw 110 ( 510 is 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 formed in the socket 100. It is preferable to be in intimate contact with the inner surface to firmly support the elastic piece 310.

On the other hand, the auxiliary grab ring 600 is installed between the grab ring 300 and the spacer washer 500 so that the elasticity of the grab ring 300 when an external force is applied in a direction in which the pipe 1 is separated from the socket 100. It is a member that serves to maintain the state in which the piece 310 is inclined.

To this end, the auxiliary grabbing ring 600 is provided with a holding piece 610 which is in contact with a surface of the elastic piece 310 and protrudes inclinedly. The end diameter of the holding piece 610 is equal to the outer diameter of the pipe 1. It is preferable to form the same.

Since the end diameter of the holding piece 610 is formed to be the same as the outer diameter of the pipe 1, the outer surface of the pipe 1 and the auxiliary grabbing 600 of the pipe 1 when the pipe 1 is drawn into the inside of the socket 100. By preventing the retaining piece 610 from interfering, there is an effect of improving the insertability of the pipe 1.

In the case of the conventional socket, the two grabbing rings are disposed to overlap each other and are installed inside the socket. Therefore, when the pipe is inserted, the pipe is inserted into the socket while elastically deforming the elastic pieces provided at the two grabbing rings. Although there is a problem that the insertability of the present invention is significantly lower than that of the present invention, the pipe connector according to the present invention does not interfere with the pipe 1 into which the retaining piece 610 of the auxiliary grabbing 600 is inserted into the socket 100. Therefore, the insertability of the pipe 1 can be improved by allowing the pipe 1 to be inserted into the socket 100 even with a smaller force.

The holding piece 610 of the auxiliary grappling 600 is formed flat to have a continuous plate surface, and the entire plate surface is formed in an inclined ring shape to firmly support the elastic piece 310 of the grabbing ring 300. At the same time, since the plate surface is formed as a continuous plate surface rather than a cut structure like the elastic piece 310 of the grab ring 300, the auxiliary grab ring 600 is assembled at an angle when assembling the inside of the socket 100. Even if this is the effect that the elastic piece 310 can be supported.

In addition, the inclined angle of the holding piece 610 is formed to be the same as the inclined angle of the elastic piece 310 of the grab ring 300 so that the plate surface of the holding piece 610 is in close contact with the plate surface of the elastic piece 310. It is preferable.

In addition, the plate surface of the holding piece 610 on the side opposite to the contact surface in close contact with the plate surface of the elastic piece 310 so as to firmly support the elastic piece 310 and the protruding piece 510 of the spacer washer 500. It is effective to install in contact.

The inside of the socket 100 is in close contact with the inner surface of the pipe 1 when the pipe 1 is inserted into the inside of the socket 100 so that the external force acts in the direction in which the pipe 1 is separated from the socket 100. A tubular support sleeve 700 is provided to prevent deformation of the pipe 1.

Since the support sleeve 700 is disposed inside the socket 100, the inner surface of the pipe 1 and the outer surface of the support sleeve 700 contact each other when the pipe 1 is inserted into the socket 100 so that the pipe 1 is contacted. When the external force is applied in the direction in which the socket 100 is separated, the pipe 1 may be deformed and thus easily separated.

A process of connecting a pipe and a pipe using a pipe connector according to an embodiment of the present invention having such a configuration is as follows.

First, when the pipe 1 to be connected is inserted into the internal space of the socket 100, the end of the pipe 1 passes through the O-ring 200 and the spacer washer 500 while the elastic piece of the grabbing 300 is connected. In contact with 310.

In this state, if the worker pushes the pipe 1 further into the socket 100, the elastic piece 310 of the grabbing 300 elastically deforms and the pipe 1 is pushed in and the inside of the socket 100. The inside of the pipe 1 inserted into the support sleeve 700 is in contact with the inner surface of the pipe 1 to complete the connection of the pipe 1.

At this time, since the holding piece 610 of the auxiliary grabbing 600 does not come into contact with the pipe 1 inserted into the socket 100, the insertability of the pipe 1 may be improved, and the pipe 1 When the external force is applied in the direction in which the socket is separated from the socket 100, the retaining piece 610 can firmly support the elastic piece 310 so that the pipe 1 is not detached from the socket 100. The coupling between the pipe 1 and the socket 100 is made accurately and firmly.

Since the above has been described only with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known, should not be construed as limited to the above embodiments, the present invention described above It will be said that both the technical idea and the technical idea which together with the base are included in the scope of the present invention.

1: pipe 100: socket
110: jam jaw 200: O-ring
300: grabbing 310: elastic piece
400: screw cap 500: spacer washer
600: auxiliary grabbing 610: holding piece

Claims (5)

A tubular socket (100) having a front surface formed with an opening such that the pipe (1) can be inserted therein, interconnected with the pipe (1), and a locking projection (110) formed on an inner surface thereof;
An O-ring 200 installed on an inner surface of the socket 100 and fastened to an outer surface of the pipe 1 inserted into the socket;
A grabbing ring 300 which is seated on the locking jaw 110 of the socket 100 and is provided with a plurality of elastic pieces 310 which 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 state in which the pipe 1 is coupled to the socket 100 and of the socket 100. Screw cap 400 to prevent the end is exposed to the outside;
Protruding piece 510 disposed between the O-ring 200 and the grab ring 300 to support the elastic piece 310 to maintain the grab ring 300 seated on the engaging jaw 110. Spacer washers 500 protruding from each other;
An elastic piece 310 of the grab ring 300 is installed between the grab ring 300 and the spacer washer 500 when an external force is applied in a direction in which the pipe 1 is separated from the socket 100. In order to maintain the inclined state is provided with a retaining piece 610 protruding inclined so as to contact a part surface of the elastic piece 310, the diameter of the end of the holding piece 610 is the outer diameter of the pipe (1) Is formed in the same manner as the plate surface is provided with a lap ring 300 is disposed so as to overlap the area seated on the engaging jaw 110, the grab ring 300 by the circumferential surface of the spacer washer 500 Auxiliary grabbing 600 is pressed to the side is provided,
The socket 100 is in close contact with the inner surface of the pipe 1 when the pipe 1 is inserted into the socket 100 so that the pipe 1 is separated from the socket 100 in an external force. Pipe connector, characterized in that the tubular support sleeve 700 is provided with an end region protruding out of the socket 100 and tapered at an end portion to prevent deformation of the pipe 1 during this action. . The method of claim 1,
The retaining piece (610) is formed flat to have a continuous plate surface, the pipe connector characterized in that the entire plate surface is formed in an inclined ring shape. The method of claim 2,
The inclined angle of the holding piece 610 is the same as the inclined angle of the elastic piece 310 of the grab ring 300 so that the plate surface of the holding piece 610 is in close contact with the plate surface of the elastic piece 310. Pipe connector characterized in that it is formed. The method of claim 1,
And a plate surface of the retaining piece (610) opposite to the contact surface closely contacting the plate surface of the elastic piece (310) is in contact with the protruding piece (510) of the spacer washer (500). delete

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