KR20230137115A - Self-Assembly Heating Panel - Google Patents

Abstract

The present invention relates to a prefabricated heating panel that is easy to handle and install when heating the floor, and allows rapid heat transfer while minimizing heat loss. The composition includes a heating hose arrangement panel in which heating hoses are arranged and the heating hose arrangement. The insulation panel located on the back of the panel and the heat dissipation panel located on the upper surface of the heating hose arrangement panel are integrated with each other to form one prefabricated heating panel.

Description

Self-Assembly Heating Panel}

The present invention relates to a prefabricated heating panel that is easy to handle and install when heating the floor and allows rapid heat transfer while minimizing heat loss.

In general, the construction method of floor heating is divided into wet method and dry method. The wet method is a method of installing hot water pipes on the slab floor and then pouring concrete mortar to cure it. While it has the advantage of good heat storage performance and solidity, Since materials such as sand and cement are transported to the site for construction, the construction period is prolonged due to the curing process and interference with other construction processes, and skilled workers are required because the spacing and length of heating pipes must be accurately matched. In addition, in the event of a leak in the heating pipe, the poured concrete mortar layer must be destroyed with equipment such as a demolition hammer.

On the other hand, the dry method is a method developed to improve the disadvantages of the wet method. Prefabricated dry heating panels are arranged on the slab floor, heating pipes are inserted into the pipe seating grooves formed in the arranged dry heating panels, and then the upper part is installed. It is a type of covering a heat sink with good thermal conductivity and installing a finishing material.

Dry heating panels for these conventional dry methods are light in weight and advantageous for transportation and construction, but have the disadvantage of high heat loss.

Therefore, in recent years, in order to solve the above problems, a dry heating panel equipped with coupling pins of Korea Public Utility Model No. 20-2019-0002018 as shown in FIGS. 1A and 1B has been provided, and its configuration is as follows.

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A bottom plate 110 configured to form a mesh network by injection molding;

a plurality of coupling members 120 that are integrally formed on the upper surface of the bottom plate, are configured to protrude upward, and are spaced at a predetermined distance; and

Heating panel unit 130 is formed by compressing the upper part of the floor plate and is composed of a plurality of unit blocks spaced apart from each other, and a pipe seating space into which the heating pipe 150 is inserted is formed between the plurality of unit blocks. ; and the upper part of the heating panel unit 130 is covered with a galvanized iron plate 170.

The dry heating panel configured as described above has a problem of high heat loss because the bottom plate 110 in the form of a mesh net is installed at the bottom of the heating panel unit 130, and the zinc Since the iron plate 170 is provided in a covered form, there is a problem in that the galvanized iron plate 170 and the heating panel unit 130 are not integrated.

Korea Public Utility Model No. 20-2019-0002018 (Publication Date: 2019.08.08.) Republic of Korea registered utility model 20-0406999 (announcement date: 2006.01.24.) Republic of Korea Patent No. 10-2374996 (Announcement Date: 2022.03.16.)

The purpose of the present invention is to solve the problems of the conventional dry heating panel,

First, it is easy to handle, disassemble and assemble, making construction and disassembly work quick and easy.

Second, we provide a prefabricated heating panel that minimizes heat loss during heating, maximizes heating efficiency, and reduces electrical energy.

The configuration of the problem-solving means of the present invention to achieve the above purpose is,

The heating hose array panel on which the heating hoses are arranged, the insulation panel installed on the back of the heating hose array panel, and the heat radiation panel located on the upper surface of the heating hose array panel are integrated into a form that can be disassembled and assembled to form one prefabricated heating panel. To form,

The heating hose arrangement panel 10 is formed in a plurality of rows of convex-shaped supports 11 with fixing holes 12 formed in a straight line in the longitudinal/lateral direction of the upper surface at equal intervals, and the supports In the center between the four adjacent supports, a heating hose fixture 13 is formed in the form of a convex shape, where the heating hose 50 is fixed and forms a progress path 14, and the progress path 13 is formed in the four-way cross section. A heating hose advance hole 15 is formed that maintains a straight line with the furnace and is arranged in an adjacent heating hose arrangement panel, and on the back of the support part, a coupling part 16 of the same shape as the support part is formed in a concave shape. It comes true,

The insulation panel 20 has a coupling hole 21 on the surface that is inserted into the coupling portion and is formed in a convex shape, and the rear surface is formed in a flat shape,

The heat dissipation panel 30 is composed of a fixture 31 formed in the shape of a convex shape and fitted into a fixing hole formed in the support portion.

The prefabricated heating panel of the present invention, which has the above configuration, is easy to handle, disassemble and assemble, as described for the above purpose, so that construction and disassembly work can be done quickly and easily, and heat loss during heating is minimized, thereby improving heating efficiency. Not only can it be maximized, it has the effect of reducing electrical energy.

1 is a cross-sectional configuration diagram of a conventional dry heating panel;
Figure 2 is an exploded perspective view of the prefabricated heating panel of the present invention seen from the plane;
Figure 3 is an exploded perspective view seen from the front of the prefabricated heating panel of the present invention;
Figure 4 is a perspective view of the prefabricated heating panel combination of the present invention;
Figure 5 is a cross-sectional view of the prefabricated heating panel combination of the present invention;
Figure 6 is a schematic diagram of a state in which heating hoses are arranged in the prefabricated heating panel of the present invention.

The present invention relates to a prefabricated heating panel that is easy to handle and install when heating the floor and allows rapid heat transfer while minimizing heat loss. An example will be described with reference to the accompanying drawings as follows.

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As shown in Figures 2 to 6, the prefabricated heating panel of the present invention includes a heating hose array panel on which heating hoses are arranged, an insulation panel installed on the back of the heating hose array panel, and a heating hose array panel located on the upper surface of the heating hose array panel. The heat radiation panels are integrated into a form that can be disassembled and assembled to form one prefabricated heating panel.

The heating hose arrangement panel 10 is formed in a plurality of rows of convex-shaped supports 11 with fixing holes 12 formed in a straight line in the longitudinal/lateral direction of the upper surface at equal intervals, and the supports In the center between the four adjacent supports, a heating hose fixture 13 is formed in the form of a convex shape, where the heating hose 50 is fixed and forms a progress path 14, and the progress path 13 is formed in the four-way cross section. A heating hose advance hole 15 is formed that maintains a straight line with the furnace and is arranged in an adjacent heating hose arrangement panel, and on the back of the support part, a coupling part 16 of the same shape as the support part is formed in a concave shape. It comes true,

The insulation panel 20 has a coupling hole 21 on the surface that is inserted into the coupling portion and is formed in a convex shape, and the rear surface is formed in a flat shape,

The heat dissipation panel 30 is composed of a fixture 31 formed in the shape of a convex shape and fitted into a fixing hole formed in the support portion.

In the prefabricated heating panel configuration according to the present invention, the heating hose arrangement panel 10 has heating hoses 50 arranged at regular intervals, and the insulation panel 20 allows the heat generated from the heating hose 50 to be transferred to the heating hose. It is installed on the back of the heating hose array panel (10) to prevent it from being lost to the floor below the array panel (10). The heat dissipation panel (30) evenly distributes the heat generated from the heating hose (50) and generates heat. It is installed on the surface of the heating hose arrangement panel (10).

In the above configuration, the heating hose arrangement panel 10 has an iron-shaped support portion 11 with fixing holes 12 formed in a straight line in the longitudinal/transverse directions of the upper surface, as shown in FIGS. 2 and 3. It is formed in multiple rows at equal intervals, and the heating hose 50 is inserted and fixed in the center between the four adjacent support parts 11, and a heating hose fixture 13 forming a progress path 14 is iron. It is formed in a (convex) shape.

In addition, a heating hose advancement hole 15 is formed in the four-way cross section of the heating hose arrangement panel 10 and maintains a straight line with the heating hose fixture 13, and the support portion 11 is formed on the back side of the support portion 11. ) and the same shape as the coupling portion 16 is formed in a concave shape.

It is most preferable to manufacture the heating hose arrangement panel 10 with the above configuration by press molding using a press mold, but any method that can form the heating hose arrangement panel 10 is also possible.

The reason why the support portion 11 is formed in a convex shape in the heating hose arrangement panel 10 of the present invention manufactured by the method described above is that it supports and safely supports the back side of the heat dissipation panel 30, which will be explained below. This is to ensure that the support portion 11 is preferably circular or square.

The reason for forming the fixing hole 12 on the surface of the support portion 11 is that the iron-shaped fixture 31 formed on the back of the heat dissipation panel 30 is tightly fitted and coupled to the heat dissipation panel 30. This is to integrate the heating hose arrangement panel 10 and facilitate disassembly.

The shape of the fixing hole 12 is such that the innermost hole space is larger than the size of the inlet, and the shape of the fixture 31 is formed to match the shape of the fixing hole 12, so that the fixture 12 is placed in the fixing hole. ) are tightly fitted and combined, so that the heating hose arrangement panel (10) and the heat dissipation panel (30) are firmly integrated.

In addition, the plurality of support parts 11 are maintained at equal intervals, and the heating hose 50 is inserted and fixed in the center between the four support parts 11 adjacent to the surface of the heating hose arrangement panel 10 formed in a plurality of rows, and a progress path ( The heating hose fixture 13 forming 14 is formed in an iron shape, so that the heating hose 50 is tightly seated in the passage 14, and the heating hose 50 is connected by the heating hose fixture 13. ) is fixed so that the position does not move.

One embodiment of the heating hose fixture 13 forming the passage 14 is formed in four directions in the form of a triangular pillar having the same height as the support portion 11, as shown in FIGS. 2 and 3. Thus, the progress path 14 was formed in the longitudinal/lateral direction.

The reason for this is to facilitate the arrangement of the heating hoses 50 no matter which direction the heating hose arrangement panel 10 is connected to and installed in, rather than being set in a certain direction.

In order to achieve the above, it is desirable to form the heating hose arrangement panel 10 into a regular square, but it can also be formed into a rectangular shape.

In addition, a heating hose advancing hole 15 that maintains a straight line with the heating hose fixture 13 is formed in the four-way cross section of the heating hose arrangement panel 10 of the present invention, because the heating hose installed in adjacent connection is formed. This is to arrange the heating hoses 50 so that they can be easily connected to the heating hose progress hole 15 of the arrangement panel 10.

And, on the back side of the heating hose arrangement panel 10, where the heating hose fixture 13 is formed, a fixing hole 19 of the same shape as the heating hose fixture 13 is formed, thereby forming a fixing hole 19 on the surface of the insulation panel 20. By inserting and fixing the fixture 22, a firm and stable connection between the heating hose arrangement panel 10 and the insulation panel 20 is achieved.

In addition, on the back of the support portion 11, a coupling portion 16 of the same shape as the support portion 11 is formed in a concave shape, forming a convex shape formed on the surface of the insulation panel 20 described below. This is to integrate the insulation panel 20 and the heating hose arrangement panel 10 by inserting the coupler 21, as well as to facilitate disassembly.

In addition, the heating hose arrangement panel 10 is a quadrilateral panel, and connectors 17 connected to the adjacent heating hose arrangement panel 10 are formed to protrude from two side cross sections of the quadrilateral panel, Connector seating grooves 18 to which the connectors 17 are coupled are formed on the remaining two side cross-sections, so that when the heating hose array panels 10 are connected and installed in succession, the connected heating hose array panels 10 are tightly connected and stable. It is connected and installed.

Meanwhile, a finishing material 40 may be installed on the surface of the heat dissipation panel 30 so that the prefabricated heating panel of the present invention can be used without laying a separate floor or mat after installing it.

The material of the heating hose arrangement panel 10 of the present invention may be one of PP (Polypropylene) or PE (Polyethylene) containing carbon powder and soil powder that emits far-infrared rays. This is because carbon This is to ensure that heat transfer by the powder occurs quickly and that far-infrared rays beneficial to the human body are emitted from the heating hose array panel 10 by the soil powder that emits far-infrared rays.

It is preferable to use red clay powder as the soil powder that emits far-infrared rays, but stone powder or other soil powder that emits far-infrared rays can also be used.

The reason why the heating hose array panel 10 is made of PP or PE is because it is harmless to the human body and has excellent chemical resistance and strength (tensile strength, surface strength).

The material of the heat dissipation panel 30 is preferably EPP (Expanded Polypropylene) because it is light and has excellent thermal insulation properties.

The prefabricated heating panel of the present invention as described above is formed in the form of a single panel by combining the heating hose arrangement panel 10, the insulation panel 20, and the heat dissipation panel 30 so that they can be separated and coupled to each other, Heating floor construction is completed if the connection is installed continuously using the connector (17) and the connector seating groove (18) at the destination to be heated. Even when disassembly is necessary, the connector (17) is pulled out from the connector seating groove (18). It is easily dismantled, and even when the heating hose arrangement panel 10, the insulation panel 20, and the heat dissipation panel 30 are separated after disassembly, the insulation panel 20 and the heat dissipation are maintained from the heating hose arrangement panel 10 described above. The panel 30 can be disassembled in the reverse order of assembly.

One embodiment of the connector 17 is formed in a plate shape, either a flat arc or a rectangular shape, with the width gradually increasing from the cross section of the heating hose arrangement panel 10 toward the outside, and the connector seating groove 18 is formed as described above. The connector 17 is formed in a shape that matches the shape of the connector 17 that is tightly seated and fixed.

The prefabricated heating panel of the present invention as described above is easy to handle, disassemble and assemble, as explained in the above effect, so that construction and disassembly work can be done quickly and easily, and heat loss during heating is minimized to maximize heating efficiency. Not only can this be done, but it also has the advantage of reducing electrical energy.

10: Heating hose arrangement panel 11: Support part
12: Fixing hole 13: Heating hose fixture
14: Progress road 15: Heating hose progress hall
16: coupling part 17: connector
18: Connector seating groove 19: Fixing hole
20: insulation panel 21: coupling hole
22: fixture 30: heat dissipation panel
31: fixture 40; finishing materials
50: Heating hose

Claims (9)

The heating hose array panel on which the heating hoses are arranged, the insulation panel installed on the back of the heating hose array panel, and the heat dissipation panel installed on the upper surface of the heating hose array panel are integrated into a form that can be disassembled and assembled to form one prefabricated heating panel. Form,
The heating hose arrangement panel 10 is formed in a plurality of rows of convex-shaped supports 11 with fixing holes 12 formed in a straight line in the longitudinal/lateral direction of the upper surface at equal intervals, and the supports In the center between the four adjacent supports, a heating hose fixture 13 is formed in the form of a convex shape, where the heating hose 50 is fixed and forms a progress path 14, and the progress path 13 is formed in the four-way cross section. A heating hose advance hole 15 is formed that maintains a straight line with the furnace and is arranged in an adjacent heating hose arrangement panel, and on the back of the support part, a coupling part 16 of the same shape as the support part is formed in a concave shape. It comes true,
The insulation panel 20 has a coupling hole 21 on the surface that is inserted into the coupling portion and is formed in a convex shape, and the rear surface is formed in a flat shape,
The heat dissipation panel (30) is a prefabricated heating panel, characterized in that the fixture (31) is formed in the shape of a convex piece and is fitted into a fixing hole formed in the support portion.
According to paragraph 1,
A prefabricated heating panel, characterized in that a finishing material (40) is installed on the surface of the heat dissipation panel (30).
According to paragraph 1,
The heating hose arrangement panel 10 is a quadrilateral panel, and connectors 17 connected to adjacent heating hose array panels are formed to protrude on two side cross sections of the quadrangular panel, and the remaining two side cross sections are formed to protrude. A prefabricated heating panel, characterized in that a connector seating groove (18) into which the connector is coupled is formed.
According to paragraph 1,
The support portion 11 is a prefabricated heating panel, characterized in that it is formed in a circular or square shape.
According to paragraph 1,
The heating hose fixture (13) is a prefabricated heating panel, characterized in that the heating hose fixture (13) is formed in four directions in the form of a triangular pillar having the same height as the support portion, and the passage is formed in the longitudinal/lateral direction.
According to paragraph 1,
A prefabricated heating panel, characterized in that a fixing hole (19) having the same shape as the heating hose fixture is formed on the back side of the heating hose arrangement panel where the heating hose fixture is formed.
According to paragraph 1,
A prefabricated heating panel, characterized in that a fixture (22) is formed on the surface of the insulation panel (20) to be fitted into a fixing hole (19) formed at the location where the heating hose fixture on the back of the heating hose arrangement panel is formed.
According to paragraph 1,
The material of the heating hose array panel (10) is a prefabricated heating panel, characterized in that either PP (Polypropylene) or PE (Polyethylene) contains carbon powder and soil powder that emits far-infrared rays.
According to paragraph 1,
A prefabricated heating panel, characterized in that the material of the heat dissipation panel (30) is EPP (Expanded Polypropylene).