KR102250817B1 - Cover for protecting pipe - Google Patents

Abstract

The present invention relates to a pipe protection cover that can be used semi-permanently due to excellent thermal insulation and heat insulation performance and excellent durability, and a first body in the shape of a half pipe surrounding one side of the pipe, and a half pipe shape corresponding to the first body It includes a second body surrounding the circumference of the other side of the pipe. At this time, the first body and the second body are made of a foam resin insulating material for thermal insulation and heat insulation, and a non-foaming resin coating portion applied to the surface of the insulating material.

Description

Pipe protection cover{COVER FOR PROTECTING PIPE}

The present invention relates to a pipe protection cover, and more particularly, to a pipe protection cover that prevents freezing of a pipe installed outdoors and heat loss of a pipe installed indoors.

In general, insulators are used for piping installed outdoors for the purpose of preventing freezing and breaking in winter, and piping installed indoors for preventing heat loss. In other words, the pipe is protected by covering the pipe with an insulating material made of styrofoam or foam resin. In particular, in order to prevent rainwater from flowing into the insulation material or to prevent the insulation material from being destroyed in the sun, a tape is wound on the surface of the insulation material or a cover obtained by bending a tin plate is covered.

However, if the tape is wrapped around the insulation material, the insulation material can be protected at an inexpensive price, but since the UV rays cannot be completely blocked, the tape dies after a certain period of time and the function of the insulation material decreases.

In addition, if you cover the insulation with a banded tin plate, the problem of the tape can be solved, but a relatively high construction cost is required.If the cover is removed when repairing the pipe in the future, it cannot be reused, so a new cover must be manufactured, etc. There was a problem.

Korean Patent Publication No. 2017-0032968 (2017.03.24.)

An object of the present invention is to provide a pipe protection cover that can be used semi-permanently due to excellent thermal insulation and heat insulation performance and excellent durability as to solve the problems of the prior art described above.

A pipe protection cover according to the present invention for achieving the above object is a protective cover surrounding a pipe installed outdoors or/and indoors. The configuration includes a first body in the shape of a half pipe surrounding one side of the pipe, and a second body surrounding the other side of the pipe in a shape of a half pipe corresponding to the first body. At this time, the first body and the second body are made of a foam resin insulating material for thermal insulation and heat insulation, and a non-foaming resin coating portion applied to the surface of the insulating material.

One side of the first body and the second body is integrally formed through an elastically deformable bent portion, and the other side of the first body and the second body is cut to wrap the pipe.

A first extension part that is in close contact with the inner circumferential surface of the second body is provided on the other side of the first body. In addition, a second extension part is provided on one side of the second body to be in close contact with the inner circumferential surface of the first body. At this time, the first body is formed to have a larger diameter than the second body, so that the first extension part is in close contact with the inner circumferential surface of the second body when the first body and the second body are fastened.

A locking protrusion is formed on an outer circumferential surface of the first extension, and a locking groove is formed on an inner circumferential surface of one side of the second body. In addition, a seating groove in which the second extension portion is seated is formed on the inner peripheral surface of the other side of the first body.

On the other hand, the pipe protection cover according to the present invention includes a straight pipe type that surrounds a pipe extending in one direction, an elbow type that surrounds a pipe that is bent at a predetermined angle, and a tee type that surrounds the pipe branching in three directions. And at least one of a joint type interposed between a pair of adjacent straight pipe types.

Wings surrounding the pipe are formed at ends of the elbow type, the T type, and the joint type, and the blades are inserted between the straight pipe type and the pipe. At this time, the wings are non-foaming resin and are formed to have the same thickness as the coating part.

The present invention configured as described above, since the first body and the second body constituting the pipe protection cover have a double foam structure consisting of a foamed resin insulation material and a non-foaming resin coating part, it is excellent in thermal insulation and insulation performance as well as durability. This is excellent and can be used semi-permanently.

In addition, in the present invention, one side of the first body and the second body is integrally formed through an elastically deformable bend, and the other side is cut to wrap the pipe, but a clip-type fastening means is provided on the other side of the cut, It is easy and can secure stability after construction, and can be reused after repairing the pipe.

1 and 2 are perspective views of a straight tubular cover among the protective covers for pipes according to an embodiment of the present invention.
3 is an AA cross-sectional view of FIG. 1.
Figure 4 is a view showing the construction process of the straight pipe cover according to an embodiment of the present invention.
5 to 7 are perspective views of an elbow-type cover, a tee-type cover, and a joint-type cover among the protective covers for pipes according to an embodiment of the present invention.
Figure 8 is a construction state diagram of a protective cover for piping according to an embodiment of the present invention.
9 to 11 are views of a straight tubular cover among the protective covers for pipes according to another embodiment of the present invention.

An embodiment according to the present invention will be described in detail with reference to the accompanying drawings. Hereinafter, in describing the embodiments according to the present invention, and in adding reference numerals to elements of each drawing, the same numerals are added to the same elements as possible even if they are indicated on different drawings.

A pipe protection cover according to an embodiment of the present invention is a cover that wraps and protects the pipe so as to prevent freezing of the pipe installed outdoors and heat loss of the pipe installed indoors.

The pipe protection cover of this embodiment is a straight pipe type cover (100 in Fig. 1), an elbow type cover (200 in Fig. 5), a tee type cover (300 in Fig. 6), a joint type cover (400 in Fig. 7), etc. depending on the construction location. It is divided into.

The straight pipe cover 100 is a cover installed on a pipe extending in one direction, and the elbow type cover 200 is a cover (200 in FIG. 5) installed on a pipe bent at a predetermined angle. In addition, the tee-type cover 300 is a cover installed on a pipe branching in three directions, and the joint-type cover 400 is a cover used to connect between a pair of adjacent straight tubular covers.

Among the above-described covers 100 to 400, the structure of the pipe protection cover according to the present embodiment will be described by taking the straight tubular cover 100 as an example.

1 to 3, the straight pipe cover 100 is formed in a pipe shape so as to surround a pipe extending in one direction. That is, it is composed of a first body 110 and a second body 120 in the shape of a half pipe corresponding to each other, and when the first body 110 and the second body 120 are fastened, it becomes a pipe shape surrounding the pipe.

In this embodiment, the half-pipe-shaped body surrounding the lower circumference of the pipe (P in FIG. 4) is referred to as the first body 110, and the half-pipe-shaped body surrounding the upper circumference of the pipe (P) is the second body. I'll call it (120).

One side (left in the drawing) of the first body 110 and the second body 120 is integrally formed through an elastically deformable bent portion 130, and the other side (right in the drawing) to be installed in the pipe (P). The incision 140 is provided to be able to do so.

Here, the first body 110 and the second body 120 constituting the straight tubular cover 100 have a double foam structure. That is, the first and second bodies 110 and 120 are made of a double foam structure consisting of half-pipe-shaped insulating materials 112 and 122 surrounding the pipe P, and coating portions 114 and 124 applied to the surfaces of the insulating materials 112 and 122. .

The above-described insulating materials 112 and 122 are parts for thermal insulation and insulation of the pipe (P), and are manufactured by foaming Teflon-based, silicone-based, thermoplastic elastomer-based, and other synthetic resins, and are physically foamed to have a full-close-cell structure. Is produced.

The physical foaming method is a physical method of expanding a polymer having a spherical foam cell structure by heat of an extruder or injection machine.It solves the shortcomings of the chemical foaming method (deterioration of thermal insulation performance) and improves thermal insulation and thermal insulation performance. The foaming effect can be maximized by mixing a polymer in a fine powder form and expanding it at a temperature before the raw material is melted.

Meanwhile, the coating portions 114 and 124 are portions for improving durability by imparting rigidity to the cover 100 and are made of a non-foaming resin unlike the heat insulating materials 112 and 122.

When the first and second bodies (110, 120) constituting the straight tubular cover (100) are made of a double foam structure consisting of a foam resin insulation material (112, 122) and a non-foam resin coating part (114, 124), moisture through the insulation material (112, 122). It is possible to minimize the penetration of, and improve the thermal insulation and thermal insulation performance, and it is possible to improve durability by imparting rigidity to the cover 100 through the coating portions (114, 124).

As described above, the first body 110 and the second body 120 are integrally formed through the bent portion 130. The bent part 130 is a part that connects the coating part 114 of the first body 110 and the coating part 124 of the second body 120, and is deformed when an external force is applied, but when the external force is removed, the original It has a certain elasticity so that it can be returned to the shape of.

As shown in the figure, a first extension 116 is provided on one side of the first body 110 (on the incision 140 side), and the other side of the second body 120 (bend 130 side) ) Is provided with a second extension 126.

The first extension part 116 and the second extension part 126 are bent in an arc shape to surround the pipe P. When the first body 110 and the second body 120 are fastened, the first extension 116 is in close contact with the inner circumferential surface of one side of the second body 120, and the second extension 126 is the first body 110 ) Is in close contact with the inner circumferential surface of the other side. At this time, the first body 110 is the second body 120 so that the first extension part 116 and the second extension part 126 are in close contact with the second body 120 and the first body 110, respectively. It is formed with a larger diameter (see Fig. 4(b)).

A locking protrusion 118 is formed on the outer circumferential surface of the first extension 116 and a locking groove 128 is formed on the inner circumferential surface of one side of the second body 120. The locking protrusion 118 and the locking groove 128 are locking means for maintaining the fastened state of the first body 110 and the second body 120. That is, it prevents the first body 110 and the second body 120 from being arbitrarily separated in a fastened state.

In addition, a seating groove 119 in which the second extension 126 is seated is formed on the inner peripheral surface of the other side of the first body 110. The seating groove 119 supports the second extension part 126 in a counterclockwise direction, so that when the locking protrusion 118 is separated from the locking groove 128, the second body 120 It automatically rotates around the center.

4 shows the construction process of the straight tubular cover 100 according to the present embodiment.

First, the first body 110 or/and the second body 120 of the straight tubular cover 100 is rotated so that the cutout 140 side is opened. In this embodiment, the second body 120 is rotated counterclockwise around the bent portion 130 to open the incision 140 side (see (a) of FIG. 4 ).

In a state where the second body 120 is rotated and opened, the pipe is positioned on the first body 110 and then the second body 120 is rotated clockwise. At this time, since the first body 110 is formed with a larger diameter than the second body 120, both sides of the first body 110 must be pressed (see FIG. 4(b)).

When the second body 120 is further rotated clockwise while pressing both sides of the first body 110, the first extension 116 is inserted into the inside of one side of the second body 120 and the locking protrusion ( 118 is fastened to the locking groove 128, and at the same time, the second extension 126 is seated on the seating portion 119.

A predetermined gap C is formed between the pipes P and the bodies 110 and 120 in the state in which the straight pipe cover 100 is installed through the above-described process. This gap C is a portion into which the blades 250 provided on the elbow-shaped cover 200 or the like are inserted when the covers 100 to 400 are constructed. That is, it is possible to prevent a thermal bridge phenomenon and condensation due to it by filling the gap between the covers 100 to 400 using the wings 250.

5 to 7 illustrate an elbow-type cover 200, a tee-type cover 300, and a joint-type cover 400 among the protective covers for pipes according to the present embodiment.

The elbow type cover 200 is a cover installed on the pipe bent at a predetermined angle, the tee type cover 300 is a cover installed on the pipe branching in three directions, and the joint type cover 400 is a pair of adjacent straight pipes. It is a cover used when connecting between type covers.

The elbow-type cover 200, the tee-type cover 300, and the joint-type cover 400 are composed of a first body 210,310,410 and a second body 220,320,420 having a half-pipe shape corresponding to each other. One side of the first body 210,310,410 and the second body 220,320,420 is integrally formed through the bent portions 230,330,430, and the other side is cut to be installed in the pipe P.

The body (210-410, 220-420) of the above-described elbow-type cover 200, tee-type cover 300, and joint-type cover 400 is made of a double foamed structure consisting of an insulating material and a coating part, thereby improving thermal insulation and insulation performance and durability. I can make it.

On the other hand, at the ends of the elbow-type cover 200, the tee-type cover 300, and the joint-type cover 400, wings 250 to 450 surrounding the pipe P are formed. Wings (250 to 450) are inserted into the gap (C in Fig. 4) of the straight tubular cover (100) when the covers (100 to 400) are installed, and thermal bridge and condensation due to the gap between the covers (100 to 400) Prevent. In particular, when the construction of the pipe protection cover is completed, the gap between the covers 100 to 400 is closed through taping (see FIG. 8).

9 to 11 show a straight pipe type cover 500 among the protective covers for piping according to another embodiment of the present invention.

The straight tubular cover 500 according to the present embodiment has a pipe shape so as to surround a pipe extending in one direction, and includes a first body 510 and a second body 520 having a half pipe shape corresponding to each other. One side (left in the drawing) of the first body 510 and the second body 520 is integrally formed through an elastically deformable bent part 530, and the other side (right in the drawing) to be installed in the pipe (P). The incision 540 is provided to be able to do so.

A first extension part 512 is provided on one side of the first body 510 (on the incision 440 side), and a second extension part 522 is provided on one side of the second body 120. The first extension part 512 and the second extension part 522 are bent in an arc shape to surround the pipe P, and when the first body 510 and the second body 520 are fastened, they are in close contact so that they overlap each other. .

A locking protrusion 514 is formed on the outer circumferential surface of the first extension part 512, and a locking groove 524 is formed on the inner circumferential surface of the second extension 522. The locking protrusion 514 has a plurality of tooth shapes formed along the outer circumferential surface of the first extension part 512, and the locking groove 524 has a plurality of tooth shapes formed along the inner circumferential surface of the second extension part 522.

As described above, when manufacturing the locking protrusion 514 and the locking groove 525 in a plurality of serrated shapes, it is possible to effectively prevent random separation by improving the fastening force between the first body 510 and the second body 520. have.

Meanwhile, splines 516 and 526 are formed on the outer circumferential surfaces of the first body 510 and the second body 520 constituting the straight tubular cover 500 of the present embodiment. In this way, when the splines 516 and 526 are formed on the outer circumferential surfaces of the first body 510 and the second body 520, it is possible to improve not only the thermal insulation and heat insulation effects, but also the coupling and durability of the cover 500. .

In this embodiment, only the straight pipe cover 500 is illustrated, but the present invention is not limited thereto, and the elbow type installed on the pipe bent at a predetermined angle, the tee type installed on the pipe branching in three directions, and a pair of adjacent straight pipe types Of course, it can be manufactured in a joint type used when connecting the covers.

The present invention has been described above through preferred embodiments, but the above-described embodiments are merely illustrative of the technical idea of the present invention, and various changes are possible within the scope not departing from the technical idea of the present invention. Those of ordinary skill will understand. Accordingly, the scope of protection of the present invention should be interpreted not by specific embodiments, but by the matters described in the claims, and all technical ideas within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

100: straight tube cover 110: first body
120: second body 130: bend
140: cutout 200: elbow cover
300: Tee type cover 400: Joint type cover

Claims (1)

A first body (110, 210, 310, 410) in the shape of a half pipe surrounding one side of the pipe (P) installed outdoors or/or indoors, and a half pipe corresponding to the first body (110, 210, 310, 410) surrounding the other side of the pipe (P) Consisting of a second body (120, 220, 320, 420) of the shape, the first body (110, 210, 310, 410) and the second body (120, 220, 320, 420) is made of a foam resin insulation for thermal insulation and insulation and a non-foaming resin coating applied to the surface of the insulation In the pipe protection cover,
The pipe protection cover,
A straight pipe cover 100 surrounding the pipe extending in one direction,
An elbow-shaped cover 200 surrounding the pipe bent at a predetermined angle,
A tee-type cover 300 surrounding the pipe branching in three directions,
Consisting of including a joint-type cover 400 interposed between a pair of adjacent straight tubular covers,
A gap C is formed between the straight pipe cover 100 and the pipe P,
Wings 250, 350, 450 are inserted into the gap C of the straight tubular cover 100 at the ends of the elbow-shaped cover 200, the tee-shaped cover 300, and the joint-shaped cover 400 to surround the pipe P Is formed,
The wings (250, 350, 450) are inserted into the gap (C) to fill between the pipe protection covers (100 to 400) to prevent thermal bridges and condensation,
One side of the first body 110 and the second body 120 of the straight tubular cover 100 is integrally formed through an elastically deformable bent portion 130, and the first body 110 and the The other side of the second body 120 is divided by a cutout 140 to wrap the pipe P,
A first extension part 116 in close contact with the inner circumferential surface of the second body 120 is provided on the side of the cutout 140 of the first body 110, and the bent part ( On the side of 130, a second extension part 126 is provided in close contact with the inner circumferential surface of the first body 110, and the second extension part 126 is provided on the inner circumferential surface of the first body 110 on the bent part 130 side. ) Is formed with a seating groove 119 to be seated,
A locking protrusion 118 is formed on an outer circumferential surface of the first extension part 116, and a locking groove 128 is formed on an inner circumferential surface of one side of the second body 120,
The diameter (diameter) of the first body 110 is larger than the diameter (diameter) of the second body 120, so that the first body 110 and the second body 120 When fastened, the first body 110 having a relatively large diameter expands the second body 120 having a relatively small diameter, so that the first extension portion 116 of the first body 110 2 Pipe protection cover, characterized in that it is in close contact with the inner circumferential surface of the body 120, through which the fastening force by the locking protrusion 118 and the locking groove 128 is improved.

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