KR102194367B1 - Polyethylene pipe coupling device - Google Patents

Abstract

The present invention relates to a polyethylene water pipe jointing device, wherein a pair of pipe portions, a socket portion formed with a hollow portion that can be inserted respectively at both ends; A metal ring portion disposed between the socket portion and the pipe portion, the pipe portion passing through; A metal ring holder portion positioned between the socket portion and the metal ring portion and coupled to the shape surrounding the metal ring portion; And a cap part coupled to the outer surfaces of both ends of the socket part, and surrounding the metal ring part and the metal ring holder part, wherein when the inner surface of the metal ring holder part and the outer surface of the metal ring contact each other, the metal Two blades formed toward the inside at both ends of the ring part may contact the outer surface of the pipe part to support the pipe part.

Description

Polyethylene water pipe jointing device {POLYETHYLENE PIPE COUPLING DEVICE}

The present invention relates to a pipe fitting for polyethylene water supply. More specifically, when the inner surface of the metal ring holder and the outer surface of the metal ring are in contact, two blades formed from both ends of the metal ring toward the inside contact the outer surface of the pipe and pressurize the pipe. . Due to this feature, expansion in the length direction of the pipe portion and separation in the width direction can be prevented.

In general, polyethylene pipes are mainly used for water supply pipes. Although it has a weak tensile strength, it is lightweight and has abundant cold resistance, so it is widely used in industrial sites. Since these polyethylene pipes are generally long connected and are deformed and installed according to the installed structure, a connection body having a polyethylene pipe is required.

1 shows a conventional polyethylene pipe jointing device.

A conventional polyethylene pipe fitting device is composed of a socket 10, an O-ring 20, a pusher 30, a holder 40, and a cap 50. In addition, the O-ring 20, the pusher 30, the holder 40, and the cap 50 are provided in a pair, and have a structure that is coupled to both ends based on the socket 10. At this time, in FIG. 1, one O-ring 20, a pusher 30, a holder 40, and a cap 50 are shown as a reference.

After the operator passes the cap 50, the holder 40, the pusher 30, and the O-ring 20 through the pipe 1b in order, rotate the cap 50 and connect it to the socket 10 to connect each part. It is the principle that the pipe 1 is connected while fixing it.

However, the conventional polyethylene pipe jointing device has the following problems. Polyethylene pipes are generally rolled and shipped for production and transport, so the outer diameter is not constant. For this reason, there is a problem that it is difficult to couple the holder 40 having teeth therein to the polyethylene pipe. In addition, when the water pressure above the standard is generated, the holder 40 is pushed, and there is a problem in that water leakage occurs due to the detachment phenomenon and damage deformation of the pipe 1. In addition, in order to combine the cap 50 and the holder 40, a tapered portion 51 must be formed on the cap 50, which causes a problem of increased cost and increased manufacturing time.

Accordingly, there is a need to develop a joint device having an increased fixing force capable of replacing the existing holder role and preventing separation of the pipe.

KR 10-0374109 B1

An object of the present invention is characterized in that when the inner surface of the metal ring holder part and the outer surface of the metal ring abut, two blades formed from both ends of the metal ring toward the inside contact the outer surface of the pipe part to pressurize the pipe part. do. Due to this feature, expansion in the length direction of the pipe portion and separation in the width direction can be prevented.

In order to achieve the above object, according to an embodiment of the present invention, a socket portion formed with a hollow portion that can be inserted into each of a pair of pipe portions at both ends; A metal ring portion disposed between the socket portion and the pipe portion, the pipe portion passing through; A metal ring holder portion positioned between the socket portion and the metal ring portion and coupled to the shape surrounding the metal ring portion; And a cap part coupled to the outer surfaces of both ends of the socket part, and surrounding the metal ring part and the metal ring holder part, wherein when the inner surface of the metal ring holder part and the outer surface of the metal ring contact each other, the metal Two blades formed toward the inside at both ends of the ring part contact the outer surface of the pipe part to support the pipe part.

Hereinafter, the present invention will be described in more detail.

The metal ring unit according to an embodiment of the present invention includes: a ring body having a predetermined thickness; A first pressing portion protruding from one end portion of the ring body portion toward the inside; And a second pressing portion formed at the other end of the ring body portion in the same shape as the first pressing portion, wherein the ring body portion has a predetermined inclination so that the second pressing portion abuts the outer surface of the pipe. , The first pressurization part has a predetermined gap with the outer surface of the pipe.

According to an embodiment of the present invention, the metal ring portion may further include a groove portion having a plurality of grooves, wherein the groove portion includes: a first groove penetrating from one point of one end to the other end; A second groove recessed only a predetermined length in the longitudinal direction at one point of one end; And a third groove, wherein the metal ring part smoothly moves in the longitudinal direction from the outer surface of the pipe due to the first groove.

According to an embodiment of the present invention, an O-ring fixed end having a step is formed by being spaced apart from the center of the socket part in the longitudinal direction at both ends at a predetermined interval.

According to an embodiment of the present invention, an O-ring portion is formed between the metal ring portion and the O-ring fixing end to pass through the pipe portion.

The metal ring holder portion according to an embodiment of the present invention, a holder body portion having a hollow portion, both ends are opened; And a protruding end protruding from an inner surface of the holder body part, wherein a space is formed inside the holder body part due to the protruding end, and the metal ring part is accommodated in the space so that the protruding end part is the metal ring part. The O-ring is pressed by pressing.

According to an embodiment of the present invention, a point at which the second pressing portion is connected to an outer surface of the ring body portion and a point at which an inner surface of the holder body portion is connected to one side is formed by round processing, and the metal ring holder portion and It reduces wear in the bonding of the metal ring part.

According to an embodiment of the present invention, threads are formed on an outer surface of the socket portion and an inner surface of the cap portion to engage with each other.

The metal ring part according to an embodiment of the present invention is a metal material.

According to the present invention, due to the structure in which the metal ring portion in the form of a ring that serves as a holder presses the pipe portion, there is an advantage in that the effect of preventing expansion in the width direction of the pipe portion and preventing separation in the length direction is increased.

In addition, the tapered portion of the conventional cap is unnecessary, resulting in cost reduction and manufacturing time reduction.

In addition, there is an effect of increasing the fastening force between the components, and the airtightness of the O-ring portion is improved due to the structure in which the protruding end presses the metal ring portion.

In addition, it is easy to couple the socket portion and the cap portion due to the form in which the threads are engaged, and there is an effect of increasing durability by increasing the coupling force.

1 shows a conventional polyethylene pipe jointing device.
2 is a view showing a state in which the pipe fitting for polyethylene water according to the present invention connects a pair of pipe parts.
3 is a cross-sectional view showing a state in which the pipe fitting for polyethylene water supply according to the present invention connects a pair of pipe parts.
4 is a view showing a socket according to the present invention.
5 is a view showing the inside of the socket portion.
6 shows a cross-sectional view of one cap portion.
7 is an enlarged cross-sectional view of a metal ring portion and a metal ring holder portion surrounding the pipe portion.
8 is an enlarged cross-sectional view of the pipe fitting device according to the present invention before fastening of the metal ring portion and the metal ring holder portion.
9 is a three-sided view of a metal ring part of the pipe fitting device according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail so that those skilled in the art can easily implement the present invention. However, the present invention may be implemented in various different forms and is not limited to the embodiments described herein.

The terms used in this specification are for describing exemplary embodiments, and therefore, are not intended to limit the present invention. In this specification, the singular form also includes the plural form unless specifically stated in the phrase. As used in the specification, "comprise" and/or "comprising" refers to the presence of one or more other components, steps, actions and/or elements, and/or elements, steps, actions and/or elements mentioned. Or does not exclude additions.

The definitions of terms used below are as follows. "Longitudinal direction" refers to the x-axis direction based on FIG. 2, and both ends of the lengthwise direction are referred to as'ends'. In addition, the inner side means a side relatively close to the center of the same member. The outer side means the side opposite to the inner side.

The polyethylene water pipe joint device according to the present invention includes a socket part 100, an O-ring part 200, a metal ring part 300, a metal ring holder part 400, and a cap part 500. 2 is a view showing a state in which the pipe joint for polyethylene water supply according to the present invention connects a pair of pipe portions 1, and FIG. 3 is a cross-sectional view showing the inside of the pipe joint. Hereinafter, a pipe jointing device for polyethylene water according to the present invention will be described with reference to FIGS. 2 and 3.

The socket portion 100 is formed with a hollow portion 102 so that a pair of pipe portions 1 can be inserted at both ends, respectively.

In this case, refer to FIGS. 4 and 5. 4 is a view showing the socket unit 100 according to the present invention, and Fig. 5 is a view showing the inside of the socket unit 100. It is preferable that a pipe fixing end 103 is formed at the center of the socket portion 100 in the longitudinal direction along the inner surface of the socket portion 100. Ends of the pipe portions 1a and 1b are in contact with both ends of the pipe fixing end 103, respectively. Due to this structure, a structure in which the pair of pipe portions 1 is firmly supported by the pipe fixing end 103 is formed, so that the possibility of separation of the pair of pipe portions 1 is lowered. This has the advantage of increasing the life of the pipe fitting device.

In addition, it is preferable to form an O-ring fixed end 104 with a step apart from the pipe fixed end 103, which is the center of the lengthwise direction of the socket part 100, at a predetermined interval at both ends. The O-ring fixed end portion 104 has an O-ring portion 200 to be described later, and the inner end of the O-ring portion 200 is supported by the O-ring fixed end 104, and the outer end is supported by the metal ring portion 300 to be performed. A structure that supports both is formed. For this reason, there is an advantage that the possibility of separation of the O-ring part 200 is lowered, and there is an advantage that the life of the pipe jointing device is increased.

The metal ring part 300 is located between the socket part 100 and the pipe parts 1a and 1b. In addition, the pipe portions 1 and 1a are penetrated. It is preferable that the metal ring part 300 is provided in a pair. In order to prevent redundant description, it will be described based on one metal ring part 300.

The metal ring part 300 has a ring shape and is preferably a metal material, but is not necessarily limited to this example. In addition, the inner end of the metal ring part 300 abuts the O-ring part 200, and the outer end of the metal ring part 300 abuts the metal ring holder part 400. Detailed configurations and effects thereof will be described later.

It is preferable that the metal ring holder part 400 has a cylindrical shape in which only a predetermined length is protruded from the inner surface in the longitudinal direction and a step is formed in the longitudinal direction. In addition, the inner end of the protruding end of the metal ring holder part 400 abuts the outer end of the metal ring part 300. Due to this structure, the metal ring part 300 compresses the O-ring part 200 to increase the hermeticity of the socket part 100 and the pipe part 1.

It is preferable that the metal ring holder part 400 is made of a metal material. As will be described later, due to this, the metal ring portion 300 can support the pipe portions 1a and 1b, and durability due to the metal material can be secured.

In addition, it is preferable that the metal ring holder part 500 is provided in a pair. In order to prevent redundant description, it was described based on one metal ring holder part 400.

The cap part 500 is coupled to the outer surface of the socket part 100. In addition, the cap portion 500 is preferably provided in a pair. In order to prevent redundant description, it will be described based on one cap part 500.

6 shows a cross-sectional view of one cap part 500. It is preferable that a cap portion thread 401 is formed on the inner surface of the cap portion 500 at a predetermined interval in the longitudinal direction. Correspondingly, referring to FIG. 5, it is preferable that the socket portion threads 101 are formed on the outer surface of the socket portion 100 at a predetermined interval in the length direction.

The cap part thread 401 and the socket part thread 101 are mutually engaged to enable coupling, and when the cap part 500 is pushed and turned from the outer end to the inner end, the cap part 500 is in a state in which the socket part 100 is coupled. It is moved from the outer end to the inner end in the longitudinal direction. Due to this structure, there is an advantage in that the coupling force between the cap portion 500 and the socket portion 100 is increased, and there is an advantage in that the lifespan is increased. In addition, there is an advantage of lowering the possibility of separation of the pair of pipe portions 1.

As described above, the O-ring portion 200 is positioned between the metal ring portion 300 and the O-ring fixed end 104 to penetrate the pipe portions 1a and 1b. It is preferable that the O-ring part 200 is provided in a pair. In order to prevent overlapping descriptions, descriptions will be made based on one O-ring unit 200. The O-ring is a component for enhancing airtightness, and is preferably made of rubber.

Referring to FIGS. 7 to 9, the metal ring part 300 and the metal ring holder part 400 according to the present invention will be described in more detail. FIG. 7 is an enlarged cross-sectional view showing a metal ring part and a metal ring holder part enclosing the pipe part, and FIG. 8 is an enlarged cross-section before fastening of the metal ring part and the metal ring holder part of the pipe joint according to the present invention. , Figure 9 is a three-sided view of the metal ring portion of the pipe fitting device according to the present invention.

The combination of the metal ring part 300 and the metal ring holder part 400 according to the present invention will be described with reference to FIGS. 7 and 8.

The metal ring part 300 passes through the pipe part 1a, and the metal ring holder part 400 also passes through the pipe part 1a.

In this case, the inner surface of the metal ring holder part 400 and the outer surface of the metal ring part 300 are in contact with each other and are combined.

In order to describe the effect therefor, detailed descriptions will be made with detailed components of the metal ring part 300 and the metal ring holder part 400.

The metal ring part 300 includes a ring body part 310 having a predetermined thickness in a ring shape, a first pressing part 320 and a second pressing part 320 protruding from both ends of the ring body part 310 toward the inside in a sharp shape. It is provided with a pressing portion 330.

Accordingly, the first pressing part 320 and the second pressing part 330 are located in contact with the outer surface of the pipe part 1a.

At this time, since the ring body 310 has a predetermined inclination, it is preferable that it is not parallel to the central axis of the pipe 1a.

Therefore, as shown in Figure 8, the second pressing portion 330 abuts the outer surface of the pipe portion (1a), but the first pressing portion 320 is spaced apart from the outer surface of the pipe portion (1a) a predetermined distance Will be located.

That is, due to the inclination of the ring body part 310, a predetermined gap is generated between the outer surfaces of the first pressing part 320 and the pipe part 1a, so that the pipe part 1a penetrates the metal ring part 300 There is an advantage that free movement is possible when moving in the direction.

The metal ring holder part 400 includes a cylindrical holder body 410 with both sides open, and a protruding end 420 formed by protruding only a predetermined length from the inner side of the holder body 410 in the longitudinal direction. It is equipped.

Accordingly, a space S is formed inside the holder body 410 due to the protruding end 420, and the metal ring 300 is accommodated in the space S (see FIG. 8).

That is, when the metal ring holder part 400 through which the pipe part 1a is passed is coupled to the metal ring part 300, the inner surface of the holder part main body 410 and the outer surface of the ring main body 310 And the inner end of the protruding end 420 is pressed against the outer end of the metal ring part 300.

At this time, as shown in FIG. 8, when the metal ring holder part 400 and the metal ring part 300 are coupled, it is preferable that interference occurs as much as the area of reference numeral A.

Accordingly, as the area of reference numeral A interferes, the metal ring part 300 further compresses the pipe part 1a to provide an effect of supporting support.

In other words, since the inner diameter of the holder body portion 410 is smaller than the outer diameter of the metal ring portion 300, interference as indicated by reference numeral A occurs, and thus the metal ring holder portion 400 is the metal ring portion 300 It is possible to firmly support the pipe portion (1a) by compression bonding with.

Accordingly, there is an advantage of increasing the effect of preventing expansion of the pipe portion 1a in the width direction and preventing separation in the length direction.

In addition, as shown in Figure 8, the point connected to the outer end and the outer surface of the metal ring part 300 and the point connected to the inner end and the inner surface of the metal ring holder part 400 are rounded, as indicated by reference numeral R. desirable.

Accordingly, in a process in which the metal ring holder part 400 is coupled with the metal ring part 300 and simultaneously generates interference, the first abutting part is rounded, thereby minimizing friction between metals.

Accordingly, since it is possible to reduce the wear of the metal ring part 300 and the metal ring holder part 400, there is an effect of increasing the life of the polyethylene pipe joint device according to the present invention.

Also, referring to FIG. 9, the metal ring part 300 according to the present invention further includes a groove part 340. The groove portion 340 is provided with a first groove 341, a second groove 342 and a third groove 343.

The first groove 341 is formed by penetrating only a predetermined thickness from an inner end to an outer end in the longitudinal direction at a point of the metal ring part 300.

The second groove 342 and the third groove 343 are formed by being spaced apart from the first groove 341 along the inner end and recessed only a predetermined length in the longitudinal direction.

That is, the second groove 342 and the third groove 343 do not penetrate from the inner end to the outer end in the longitudinal direction, and are formed by recessing only a predetermined length.

In this case, the second groove 342 and the third groove 343 have a predetermined inclination, and are provided to be opened toward the first pressing part 320.

Accordingly, due to the inclination of the ring body portion 310, the gap between the outer surface of the pipe portion 1 and the gap can be further compressed by using the second groove 342 and the third groove 343.

In this way, when the pipe part 1 penetrates the metal ring part 300, the metal ring part 300 can be opened using the first groove 341 to the third groove 343, so that the first pressing part ( 320) and the second pressing portion 330 can be reduced, and the range in which the metal ring portion 300 can be compressed in the shape of the first groove 341 to the third groove 343 is increased. It has the advantage of encouraging solid support of 1).

Hereinafter, an example of use of the pipe jointing device for polyethylene water according to the present invention will be described.

First, each O-ring part 200, the metal ring part 300, and the metal ring holder part 400 are sequentially inserted into the pair of pipe parts 1.

Next, the metal ring holder part 400 and the metal ring part 300 are forcibly fitted so as to be parallel with respect to the lengthwise direction, and are fastened by fitting.

Next, the socket portion 100 is placed in the center, and each pipe portion 1 is inserted toward both ends of the socket portion 100.

Finally, by coupling the pair of cap portions 500 to the socket portion 100 at both ends of the socket portion 100 in a screw-fastening manner, the pair of pipe portions 1 can be fixed.

The effects of the present invention are summarized as follows. First, due to the structure in which the ring-shaped metal ring part 300, which replaces the role of the existing holder 40, presses the pipe part 1, the expansion of the pipe part 1 in the width direction is prevented and the deviation in the length direction is prevented. There is an advantage that the effect is increased.

In addition, the tapered portion 51 of the conventional cap is unnecessary, resulting in cost reduction and manufacturing time reduction.

In addition, there is an effect of increasing the fastening force between the components, and the airtightness of the O-ring part 200 is improved due to the structure in which the protruding end 420 presses the metal ring part 300.

In addition, it is easy to couple the socket unit 100 and the cap unit 500 due to the shape of the screw thread engaging, and there is an effect of increasing durability by increasing the bonding force.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of the person skilled in the art using the basic concept of the present invention defined in the following claims are also present. It is within the scope of the invention.

100: socket part, 200: O-ring part,
300: metal ring part, 400: metal ring holder part,
500: cap portion.

Claims (9)

A socket portion formed with a pair of pipe portions, each of which can be inserted at both ends;
A metal ring portion disposed between the socket portion and the pipe portion, the pipe portion passing through;
A metal ring holder part positioned between the socket part and the metal ring part and coupled to the metal ring part in a shape surrounding the metal ring part; And
It is coupled to the outer surfaces of both ends of the socket portion, the cap portion surrounding the metal ring portion and the metal ring holder portion; Including,
When the inner surface of the metal ring holder part and the outer surface of the metal ring abut, two blades formed from both ends of the metal ring toward the inside contact the outer surface of the pipe part to support the pipe part,
The metal ring part,
A ring body portion of a ring shape having a predetermined thickness;
A first pressing portion protruding from one end portion of the ring body portion toward the inside; And
A second pressing unit formed at the other end of the ring body unit in the same shape as the first pressing unit;
The ring body portion has a predetermined inclination so that the second pressing portion abuts against the outer surface of the pipe, and the first pressing portion has a predetermined gap with the outer surface of the pipe,
The metal ring part,
Further provided with; a groove having a plurality of grooves,
The groove portion,
A first groove penetrating from one point of one end to the other end;
A second groove recessed only a predetermined length in the longitudinal direction at one point of one end; And a third groove;
Due to the first groove, the metal ring part smoothly moves in the longitudinal direction from the outer surface of the pipe,
An O-ring fixed end with a step is formed by being spaced apart from the center of the socket part at a predetermined interval at both ends in the longitudinal direction,
An O-ring portion is formed between the metal ring portion and the O-ring fixed end portion and passes through the pipe portion,
The metal ring holder part,
Holder body portion having a hollow portion, both ends are opened; And
And a protruding end protruding from the inner side of the holder body,
A space is formed inside the holder body part due to the protruding end, and the metal ring part is accommodated in the space so that the protruding end presses the metal ring part to compress the O-ring part,
A point at which the second pressing portion is connected to an outer surface of the ring body portion and a point at which an inner surface of the holder body portion is connected to one side is formed by round processing,
Reduces wear in the coupling of the metal ring holder part and the metal ring part,
The outer surface of the socket part and the inner surface of the cap part are formed with threads to engage with each other,
The metal ring part is a metal material,
When the pipe part passes through the metal ring part, the first groove, the second groove, and the third groove may open the metal ring part,
The second groove and the third groove are opened toward the first pressing part
Pipe joints for polyethylene water supply.
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