KR102051970B1 - Water pressure cap for pipe - Google Patents

Abstract

The present invention relates to a hydraulic pressure cap for a piping and, more particularly, to a hydraulic pressure cap for a piping, which closes an open end of the piping. The hydraulic pressure cap for the piping closes an end of a piping socket, and comprises: a housing portion having an insertion hole formed therethrough in both side directions, and having a plurality of engaging protrusions protruding from one side thereof; and a core portion having one side disposed inside the plurality of the engaging protrusions, and the other side pressed into the insertion hole to be fixedly coupled. The plurality of the engaging protrusions are spaced apart in a circumferential direction of the housing portion. The engaging protrusion and the core portion are spaced apart. The engaging protrusion is elastically deformed in an inner direction in which the core portion is disposed and in an opposite direction thereof by an external force. When the hydraulic pressure cap is mounted on the piping socket, the engaging protrusion is coupled to the outer circumferential surface of the piping socket. The core portion is inserted into the inside of the piping socket so that the outer circumferential surface is in close contact with an O-ring mounted on an inner surface of the piping socket.

Description

Water pressure cap for piping {WATER PRESSURE CAP FOR PIPE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hydraulic pressure cap for piping, and more particularly, to a hydraulic pressure cap for piping that covers an open end of the piping.

In general, when installing a cap (cap) at the end of the pipe, not only to prevent foreign matters from entering the inside of the pipe, but also to provide the pipes necessary for the transportation and movement of all power devices, fluids such as liquids and gases. During installation, a part of the pipe is sealed by coupling a stopper to the end of the pipe to block the flow of fluid.

As a means for installing a stopper at the end of a conventional pipe, a means of forcing a wedge-shaped stopper with a tool such as a hammer and forcing it to be fixed, a welding means for welding a pipe stopper and a pipe, and a part of a pipe stopper Screw threading means for forming a male screw part and a female screw part inside the end of the pipe and screwing and fixing it is used.

On the other hand, in order to measure the pressure of the fluid existing in the pipe, etc., a hydraulic cap is installed at the end of the pipe and sealed, and the water pressure inside the pipe may be measured as necessary.

However, such a conventional pipe stopper or hydraulic cap is complicated in structure and takes a long time to be mounted at the end of the pipe, or has to be separately threaded, or pushed from the pipe by a strong fluid pressure inside the pipe. There was a problem such as separation and separation.

Patent Registration 10-0836593 Patent Registration 10-0586856

The present invention is to solve the above-mentioned problems, the pipe is easily mounted on the end of the pipe socket without forming a thread in the pipe socket, the pipe is not arbitrarily pushed by the pressure of the fluid present inside the pipe socket The purpose is to provide a hydraulic cap.

In order to achieve the above object, the hydraulic pressure cap for piping according to the present invention, in the hydraulic pressure cap for piping to which the end of the pipe socket is mounted, has an insertion hole penetrating in both directions therein and a housing portion having a plurality of protrusions protruding from one side thereof. Wow; One side is disposed inside the plurality of the locking projections, the other side is pressed into the insertion hole is fixed to the core portion; comprising a plurality of the locking projections are spaced apart from each other along the circumferential direction of the housing, The locking protrusion and the core portion are spaced apart from each other, and the locking protrusion is elastically deformed in an inward direction and the opposite direction in which the core portion is disposed by an external force, and when the hydraulic cap is mounted on the pipe socket, the locking protrusion of the pipe socket It is coupled to the outer peripheral surface, the core portion is characterized in that the outer peripheral surface is in close contact with the O-ring mounted on the inner surface of the pipe socket.

A flange portion having a larger diameter in the outward direction protrudes from an end portion of the pipe socket, and the O-ring is mounted inside the flange portion, and the locking protrusion is caught on an outer circumferential surface of the flange portion to couple the housing portion to the pipe socket. .

The locking projection may include an extension part having one end connected to one side of the housing part and the other end protruding in a direction opposite to the housing part; Comprising a locking projection protruding on the inner surface of the other end of the extension, when the hydraulic cap is mounted on the pipe socket, the extension covers the outer peripheral surface of the flange portion and the locking jaw is caught on the outer peripheral surface of the flange portion, The housing portion is coupled to the end of the pipe socket.

A band for pressing and fastening a plurality of the locking protrusions, wherein the outer side of the extension part has a seating groove formed along the circumferential direction of the housing part, and the housing part is coupled to the pipe socket. The band is fastened after being seated in the seating groove to prevent the hooking protrusion from being deformed in a direction away from the flange part, so that the hooking protrusion is maintained in a state coupled to the flange part, and the band seated in the seating recess is Departure is prevented from being caught by both ends of the seating groove.

The core portion, the insertion portion is pressed into the insertion hole; While having a larger diameter than the insertion portion formed in one end of the insertion portion integrally; the contact portion is made of, by the step according to the difference in the diameter of the insertion portion and the close contact portion is inserted into the insertion hole, the close contact The diameter of the part is larger than the inner diameter of the o-ring attached to the flange part and smaller than the inner diameter of the flange part, so that the outer peripheral surface of the close part is in close contact with the o-ring when the close part is inserted into the flange part.

It is mounted to the core portion, and further comprises a hydraulic pressure gauge for measuring the pressure of the fluid present in the pipe socket.

According to the hydraulic pressure cap for piping of the present invention as described above has the following effects.

The hydraulic cap of the present invention can be easily mounted at the end of the pipe socket without forming a separate thread in the pipe socket, and the hydraulic cap is pushed by the pressure of the fluid present in the pipe socket, thereby being separated from the pipe socket. You can prevent it.

In particular, by tightening the band it can be further prevented that the hydraulic cap is separated from the pipe socket arbitrarily separated.

In addition, the operator can easily remove the hydraulic cap from the pipe socket by cutting the band and opening the locking projections.

1 is a perspective view of a hydraulic cap for piping according to an embodiment of the present invention,
2 is an exploded perspective view of a hydraulic cap for piping according to an embodiment of the present invention,
3 is a cross-sectional view before mounting the hydraulic pressure cap for the pipe in accordance with an embodiment of the present invention,
4 is a cross-sectional view of the hydraulic cap attached to the pipe socket in Figure 3,
5 is a cross-sectional view of the band fastened in FIG.
6 is a perspective view of the state shown in FIG.

Piping hydraulic cap 1 of the present invention is mounted to close the end of the pipe socket 40 temporarily or permanently, as shown in Figures 1 to 3, the housing portion 10 and the core The part 20 and the band 30 are comprised.

The pipe socket 40 to which the hydraulic cap 1 is coupled has a flange portion 41 protruding from the end of the pipe socket 40.

The pipe socket 40 may be straight, or may be bent elbow or T-shape.

The pipe socket 40 may be integrally formed at the end of the pipe, or may be separately mounted at the end of the pipe.

The housing part 10 is formed in a substantially cylindrical shape, and the insertion hole 11 is penetrated in both directions.

One side of the housing portion 10 is formed with a plurality of locking projections 12 protruding.

The plurality of the locking protrusions 12 are spaced apart from each other along the circumferential direction of the housing part 10.

The core portion 20 is formed in a substantially columnar shape, one side is disposed inside the plurality of the locking projections 12, the other side is fixedly coupled to the insertion hole 11 by a press-fit method.

The core portion 20 is composed of an insertion portion 21 and the contact portion 22.

The insertion part 21 is a part press-fitted into the insertion hole 11.

The close contact portion 22 has a larger diameter than the insertion portion 21 and is integrally formed at one end of the insertion portion 21.

The core portion 20 is inserted into the insertion hole 11 only the insertion portion 21 by a step according to the difference in diameter between the insertion portion 21 and the contact portion 22, the contact portion 22 Is disposed inside the locking protrusion 12.

The locking protrusion 12 and the core part 20 are spaced apart from the contact part 22 in detail.

The locking protrusion 12 is elastically deformed in an inner direction in which the core part 20 is disposed and an opposite direction by an external force.

As shown in Figure 4, when the hydraulic cap 1 of the present invention is mounted on the pipe socket 40, the locking projection 12 is coupled to the outer peripheral surface of the pipe socket 40, the core portion 20 is inserted into the pipe socket 40.

At this time, the core portion 20 is in close contact with the outer ring surface of the O-ring 42 mounted on the inner surface of the pipe socket 40, to block the flow of fluid filled in the pipe socket 40 to the outside.

Inside the flange portion 41 of the pipe socket 40, the O-ring 42 is attached to the outer circumferential surface of the core portion 20 in detail.

To this end, the diameter of the contact portion 22 is larger than the inner diameter of the O-ring 42 mounted on the flange portion 41 and smaller than the inner diameter of the flange portion 41.

Therefore, when the close contact portion 22 is inserted into the flange portion 41, the outer circumferential surface of the close contact portion 22 is in close contact while pressing the O-ring 42.

When the hydraulic cap 1 is mounted on the pipe socket 40, the locking protrusion 12 is caught on an outer circumferential surface of the flange part 41 to couple the housing part 10 to the pipe socket 40. Let's do it.

At this time, since the core portion 20 is fixedly coupled to the insertion hole 11 of the housing portion 10 by a press-fit method, the flange portion 41 fixes the locking protrusion 12 of the housing portion 10. When coupled to the outer peripheral surface of the), at the same time the core portion 20 is inserted into the inside of the flange portion (41).

The locking projection 12 caught by the flange portion 41 includes an extension portion 13 and a locking projection 14.

One end of the extension part 13 is connected to one side of the housing part 10, and the other end of the extension part 13 protrudes in a direction opposite to the housing part 10.

The extension portion 13 is thin in thickness can be elastically deformed inward and outward by an external force.

The locking jaw 14 is formed to protrude on the inner surface of the other end of the extension portion (13).

Accordingly, when the hydraulic cap 1 is mounted on the pipe socket 40, the extension part 13 covers the outer circumferential surface of the flange part 41 while elastically deforming in the direction in which the core part 20 is disposed. The locking jaw 14 is caught by the outer circumferential surface of the flange portion 41, the housing portion 10 is coupled to the end of the pipe socket 40.

The band 30 is made of a strip type, and one end and the other end are coupled to each other to form a closed curved ring shape.

As shown in FIGS. 5 and 6, the band 30 is coupled to one end and the other end while surrounding the outside of the plurality of locking protrusions 12 and presses the locking protrusion 12 inward. do.

In order to prevent the band 30 from slipping or detaching from the locking protrusion 12, a seating groove 15 is formed along the circumferential direction of the housing part 10 on the outer surface of the extension part 13. It is.

In the state in which the housing part 10 is coupled to the pipe socket 40, the band 30 is seated in the seating groove 15 and wrapped after the extension part 13 is fastened to the locking protrusion 12. ) Is pressed into the inward direction in which the flange portion 41 is located.

By the fastening of the band 30 as described above, it is possible to maintain the state in which the engaging projection 12 is coupled to the flange portion 41 and at the same time the locking projection 12 from the flange portion 41 It can be prevented from being deformed in the direction away, the locking projection 12 is deformed in the state that the band 30 is fastened so as to prevent the hydraulic cap 1 is separated from the flange portion 41 at random can do.
In particular, the band 30 is seated in the seating groove 15 and is fastened to press the close contact with the locking projection 12 toward the core portion 20 direction so that the locking step 14 is the flange portion 14 ) To be held on the outer circumferential surface of the

In addition, the band 30 seated in the seating groove 15 has an effect that both sides are caught from both ends of the seating groove 15 is separated from the locking projection 12.

On the other hand, the hydraulic cap 1 of the present invention may be made to further include a hydraulic pressure gauge (not shown) mounted on the core portion 20, to measure the pressure of the fluid present in the pipe socket 40. have.

Hereinafter, the mounting and detaching process of the present invention having the above-described configuration will be described.

1 and 3, when the hydraulic cap 1 is fitted to the end of the pipe socket 40, as shown in FIG. 4, the locking projection 12 has a large diameter plan After the elastic deformation along the outer circumferential surface of the branch portion 41, the locking jaw 14 of the locking projection 12 is caught by the flange portion 41.

At the same time, the core portion 20 is inserted into the inside of the flange portion 41 and the outer peripheral surface is in close contact with the O-ring 42 to seal the inside of the pipe socket 40.

As described above, the locking jaw 14 of the locking protrusion 12 is caught by the flange portion 41 in the state in which the core portion 20 is inserted into the pipe socket 40. ) Can be optionally prevented from being separated into the pipe socket 40.

5 and 6, the band 30 is fastened to surround the locking protrusion 12 so that the hydraulic cap 1 is more firmly fixed to the pipe socket 40. do.

By fastening the band 30 as described above, the engaging projection 12 caught on the flange portion 41 is elastically deformed in the outward direction of the flange portion 41 so that the hydraulic cap 1 is the pipe socket ( 40 can be prevented from detaching arbitrarily.

In particular, by the hydraulic pressure of the fluid present in the pipe socket 40, it is possible to prevent the hydraulic cap 1 from being separated from the end of the pipe socket 40.

On the other hand, if you want to separate the hydraulic cap (1) coupled to the pipe socket 40, the band 30 is cut using a cutter or the like.

Thereafter, while holding the housing protrusion 10 in the outward direction while pulling the latching protrusion 12 elastically deformed by an external force, it is pulled in the opposite direction of the pipe socket 40.

Then, the hydraulic cap 1 can be separated from the pipe socket 40, so that other pipes or the like can be connected to the pipe socket 40 or checked therein.

The hydraulic cap 1 of the present invention as described above is easily mounted to the end of the pipe socket 40 can prevent the fluid present in the inside of the pipe socket 40 to flow out, optionally the pipe socket It is possible to prevent separation and separation at 40.

In addition, the operator can easily separate the hydraulic cap 1 from the pipe socket 40 by cutting the band 30 and opening the locking projection 12.

Piping hydraulic cap for the present invention is not limited to the above-described embodiment, it can be carried out in various modifications within the range that the technical idea of the present invention is allowed.

1: hydraulic cap,
10: housing portion, 11: insertion hole, 12: locking projection, 13: extension portion, 14: locking jaw, 15: seating groove,
20: core part, 21: insertion part, 22: adhesion part,
30: band,
40: pipe socket, 41: flange portion, 42: O-ring.

Claims (6)

In the hydraulic cap for piping mounted to the end of the pipe socket,
An insertion hole formed in both directions in the interior thereof, and a housing part in which a plurality of locking protrusions protrude from one side;
A core part of which one side is disposed inside the plurality of the engaging protrusions and the other side is press-fitted into the insertion hole and fixedly coupled thereto;
To include a band for pressing by pressing the plurality of the engaging projection;
A plurality of the locking projections are spaced apart from each other along the circumferential direction of the housing portion,
The locking projection and the core portion are spaced apart from each other,
The locking projection is elastically deformed in the inner direction and the opposite direction in which the core portion is disposed by an external force,
An end portion of the pipe socket is formed with a protruding flange portion having a larger diameter in an outward direction, and an O-ring is mounted inside the flange portion.
When the hydraulic cap is mounted on the pipe socket, the locking protrusion is caught on the outer circumferential surface of the flange part to engage the housing part with the pipe socket, and the core part is inserted into the pipe socket so that the outer circumferential surface is an inner surface of the pipe socket. In close contact with the O-ring mounted on,
The jamming projection,
An extension part having one end connected to one side of the housing part and the other end protruding in an opposite direction to the housing part;
It consists of; engaging the projection formed on the inner surface of the other end of the extension;
The plurality of extension parts protruding in the opposite direction of the housing portion are spaced apart from each other along the circumferential direction of the housing portion,
When the hydraulic cap is mounted on the pipe socket, the extension part elastically deforms in the direction in which the core part is disposed, covering the outer circumferential surface of the flange part, and the locking jaw is caught on the outer circumferential surface of the flange part, and the housing part of the pipe socket Coupled to the end,
A seating groove is formed along the circumferential direction of the housing part on an outer side surface of the extension part.
In a state in which the housing part is coupled to the pipe socket, the band is seated in the seating groove and then fastened to press the close contact with the locking projection toward the core part, so that the latching jaw is caught on the outer circumferential surface of the flange part. Keep it up,
The band seated in the seating groove is caught from both ends of the seating groove is prevented from being separated from the locking projections,
The core portion,
An insertion part press-fitted into the insertion hole;
It has a larger diameter than the insertion portion while being formed integrally with one end of the insertion portion;
Only the insertion part is inserted into the insertion hole by a step according to the difference in diameter between the insertion part and the close contact part.
The diameter of the close contact portion is larger than the inner diameter of the O-ring mounted on the flange portion and smaller than the inner diameter of the flange portion, and the outer peripheral surface of the close contact portion is in close contact with the pressing O ring when the close contact portion is inserted into the flange portion. Hydraulic pressure cap for piping. delete delete delete delete The method according to claim 1,
A hydraulic pressure cap for piping, characterized in that further comprising; a hydrometer mounted on the core portion, the pressure gauge for measuring the pressure of the fluid present in the pipe socket.

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