KR101701355B1 - Diy diy module-type hot waterondol heating system - Google Patents

Abstract

The present invention relates to a DIY module type hot water and floor heating system which can be reused and be easily connected to a radiator panel on an insulation module, wherein only a part of a curve protrusion can be attached and detached. According to the present invention, the DIY module type hot water and floor heating system includes: an insulation module having an insertion protrusion and an insertion groove in all directions in a predetermined area, wherein the insulation module has multiple grid holes arranged in a grid form and the insulation module is connected to each other by connection between the insulation protrusion and the insulation groove; a pipe arranging module mounted on the insulation module by having a path in which a pipe is arranged; and the radiator panel mounted on the pipe arranging module to disperse and transmit heat of the pipe. The pipe arranging module comprises multiple units, and a connection protrusion connected to the grid hole is formed at a lower end of each of the units. The curve protrusion for forming the path is formed on the upper end.

Description

DIY Modular hot water oundol heating system {DIY MODULE-TYPE HOT WATER ONDOL HEATING SYSTEM}

The present invention relates to a DIY modular hot water oundol heating system, and more particularly, to a DIY modular hot water oundol heating system capable of attaching and disassembling only a part of curved projections and easily coupling a heat sink to the heat insulating module ≪ / RTI >

Generally, in boiler heating piping construction, after insulating material is filled, gravel is filled or air concrete is laid, wire mesh is laid on it, and boiler heating piping is connected to wire mesh by bundling wire. Then, after applying the mortar again, finish with the plaster.

However, in the above-mentioned method, since the heater fixes the heating pipe to the wire mesh with the binding wire, the spacing of the heating pipes is not uniform, the thickness of the applied mortar is not constant, and the efficiency is low. After the mortar is applied, The construction period is lengthened so much, and the labor cost is increased, which is a factor of rising the construction cost.

Also, in case of repairing defects, in case of leaked water, it can be easily detected by sonar. However, when water leakage is low, it is not detected by sonar. In such a case, You need to find the leak point. In the worst case, you have to lift the whole floor. If you want to find the leak point, it is necessary to cure the waste and cure it again with mortar. Especially in autumn and winter, where temperature is low, curing time is more needed, which causes many inconveniences and costs to residents.

Various dry heating systems have been developed in order to solve the problems of the wet type construction method. Among them, the Korean Patent No. 10-1267516 (Registered, Hot Water Heating Panel System, hereinafter referred to as "the prior art" For example.

The conventional art has a heating panel having a plurality of projections and fitting grooves having a predetermined area and being connected to each other by a combination of the fitting projections and the fitting grooves. On the upper surface of the heating panel, And a coupling groove is formed at the center of the protrusion for forming the curved groove, the coupling groove being formed at the center of the coupling groove, In the meantime, a fixing groove is formed at both sides of the coupling groove, and a through hole is formed at the center of the projection to penetrate the lower portion and the supporting ring is inserted. In the space surrounded by the projection, curved projections for supporting the heating hose are bent Is formed.

However, when the plurality of heating hoses are concentrically arranged at the start and end points of the heating hose on the floor surface, some of the protrusions or the curved projections are separated from the heating panel, It was necessary to secure a space for the user.

In addition, in the related art, when the heat sink is stacked on the heating panel, the heat hose is not detached or supported firmly because the heat sink joining structure to the heating panel is not taken into consideration, so that the heat sink is lifted, It is not possible to move and recycle when the adhesive is properly applied. In addition, since the heat sink is not attached to the heating panel uniformly, the role of the heat sink is deteriorated, The heating efficiency is also lowered.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a DIY modular hot water oundol heating system capable of attaching and dismounting only a part of curved projections.

It is another object of the present invention to provide a DIY modular hot water oundol heating system that allows heat sinks to be easily combined and reused for the heat insulating module.

According to an aspect of the present invention, there is provided a DIY modular hot water / ondol heating system including a plurality of projections and fitting grooves formed in four directions with a predetermined area, A heat insulating module connected to each other by a groove connection and having a plurality of grid holes arranged in a lattice pattern; A piping arrangement module mounted on the heat insulating module with a passage through which piping can be arranged; And a heat dissipating plate mounted on the pipe arrangement module to diffuse and transmit the heat of the pipe, wherein the pipe arrangement module comprises a plurality of units, and a coupling protrusion And a curved projection for forming the passage is formed at the upper end.

And a support cap inserted at a lower portion of the grid hole. In this case, the coupling protrusion of the pipe array module is configured to be connectable to the support cap.

In addition, at least one of the curved protrusions is formed with a fastening hole, a through hole is formed in the heat dissipating plate at a position corresponding to the fastening hole, and the heat sink is fastened to the fastening hole through the fastening hole, And a fixing means for fixing the substrate.

The piping arrangement module may include a first unit having a first coupling protrusion inserted into the grid hole and fitted to the support cap, and a main-curved protrusion protruding from the first unit, And a second coupling protrusion inserted into the grid hole to be fitted into the support cap or the first coupling protrusion, the auxiliary coupling protrusion being formed in the support hole to assist in forming a passage in the curved portion of the pipe, And a second unit in which an auxiliary-curved projection for protruding is formed.

At this time, the support cap includes a support plate that is seated on the bottom surface and has a hole formed at the center thereof, a support main body vertically extended from the support plate and inserted into the grid hole, and a through hole is formed so that the fastening member passes through and is fastened to the bottom surface And a diaphragm portion disposed at a lower portion of the support portion and spaced apart from the bottom surface.

According to the DIY modular hot water and ondol heating system according to the present invention, only a part of curved protrusions can be attached and disassembled, and the installation structure of the heating pipe can be easily changed according to various site conditions and design conditions .

According to the present invention, since the heat sink can be easily coupled to the heat insulating module, the pipe and the heat sink can be closely contacted, thereby maximizing the heating efficiency.

1 is a perspective view illustrating the construction of a DIY modular hot water oundol heating system according to a first embodiment of the present invention;
2 is an exploded perspective view of the DIY modular hot water and ondol heating system according to the first embodiment,
3 is a cross-sectional view taken along the line A-A 'in Fig. 1,
4 is a diagram illustrating a state in which a pipe arrangement module and a pipe are installed on a heat insulating panel according to the first embodiment,
FIG. 5 is an exploded perspective view showing a second embodiment of a DIY modular hot water / ondol heating system according to the present invention,
6 is a cross-sectional view taken along line B-B 'in Fig. 5,
7 is a view illustrating a state in which a pipe arrangement module and a pipe are installed on a heat insulating panel according to the second embodiment,
8 is a view showing a form in which the arrangement angles of the first unit and the second unit are changed on the heat insulating module,
9 is a view illustrating a state in which a pipe array module according to a modification is installed in a heat insulating module.

Hereinafter, a DIY modular hot-water oven heating system according to the present invention will be described in detail with reference to the accompanying drawings.

≪ Embodiment 1 >

First, a first embodiment of a DIY modular hot water and ondol heating system according to the present invention will be described.

FIG. 1 is a perspective view showing the construction of a DIY modular hot water ondol heating system according to a first embodiment of the present invention, FIG. 2 is an exploded perspective view of a DIY modular hot water ohndol heating system according to the first embodiment, FIG. 3 is a sectional view taken along the line A-A 'in FIG. 1, and FIG. 4 is a view illustrating a state in which a pipe arrangement module and a pipe are installed on a heat insulating panel according to the first embodiment.

As shown in the drawings, the DIY modular hot-water oven heating system according to the first embodiment mainly includes the heat insulating module 10, the pipe array module 20, and the heat sink 30, .

The heat insulating module 10 has a predetermined area and has a fitting protrusion 11 and a fitting groove 13 in four directions. The fitting between the fitting protrusions 11 and the fitting groove 13 allows the heat insulating modules 10 Respectively. In this heat insulating module 10, a plurality of grid holes 15 are formed in a lattice form.

The pipe arrangement module 20 is mounted on the heat insulating module 10 with a passage through which the pipe 50 can be arranged. The piping arrangement module 20 is composed of a plurality of units 21 and is mounted on the heat insulating module 10. The lower ends of the units 21 are coupled to a support cap 40, A projection 22 is formed and a curved projection 24 for forming the passage is formed at an upper end.

At this time, the coupling protrusion 22 is fitted into the support cap 40 and has a cylindrical structure.

In addition, the curved projection 24 may have various shapes of projections. In this embodiment, the main-curved projection 24a for forming the passage in the curved portion of the pipe 50 and the curved projection 24a for forming the passage in the curved portion And an auxiliary-curved projection (24b) for supporting a straight portion of the pipe and forming a passage at the straight portion of the pipe. 2, the main-curved projection 24a is formed by a combination of two arcs and has an elliptic shape with a sharp end, and the auxiliary-curved projection 24b has a substantially triangular- And the diagonal line is curved so as to correspond to the radius of curvature of the main-curved projection 24a.

The curved projection 24 is formed with a coupling hole 25 for coupling with the heat radiating plate 30. In the present embodiment, the coupling hole 25 is formed in the auxiliary-curved projection 24b have.

The heat dissipating plate 30 is mounted on the pipe arrangement module 20 to diffuse and transmit the heat of the pipe 50 and the fixing means F is fastened to the fastening hole 25 of the auxiliary- Lt; / RTI > For this, a through hole 31 is formed at a position corresponding to the fastening hole 25 at four corners of the heat dissipating plate 30, and a fixing means F is inserted through the through hole 31. The heat dissipating plate 30 is preferably made of a material having a high heat transfer rate for rapid diffusion of heat as well as preventing lifting of the pipe.

The fixing means F may employ various constructions, and bolts are exemplified in this embodiment.

The support cap 40 is inserted in the lower part of the grid hole 15 and fixed to the bottom surface of the building through fastening means. The supporting cap 40 includes a supporting plate 41 having a hole 41a formed at its center and having a bottom surface and a supporting portion 41 extending vertically from the supporting plate 41 to be inserted into the grating hole 15 And a diaphragm 43 formed with a through hole 43a through which the fastening means T passes and is fastened to the bottom surface and spaced apart from the bottom surface of the bottom support 42.

A locking protrusion 42a is formed on the support portion 42 to allow the pipe arrangement module 20 to be coupled to the support cap 40 inserted into the grid hole 15, The engaging protrusions 22 of the pipe arrangement module 20 may be formed with engaging protrusions 23.

The fixing of the support cap 40 to the floor surface through the fixing means T is performed by fixing the support cap 40 to the uneven surface of the bottom surface of the pipe arrangement module 20 So that the heat insulating module 10 can be brought into close contact with the bottom surface.

The partition plate 43 is spaced apart from the bottom surface so that a space is formed between the coupling unit T and the bottom surface when the support cap 40 is fixed to the bottom surface, Is firmly fixed to the floor surface and is elastically deformed by the fastening means T so that the fastening means T is pressed by the restoring force to prevent the fastening means T from coming off. That is, the diaphragm portion 43 serves as a spring washer with respect to the fastening means T.

Next, the operation of the DIY modular hot water and ondol heating system according to the first embodiment will be described.

The supporting cap 40 is inserted into the grid hole 15 of the heat insulating module 10 and the fitting protrusion 11 of the heat insulating module 10 and the fitting groove 13 of the heat insulating module 10 . The heat insulating module 10 is installed throughout the space for floor heating.

On the heat insulating module 10, a pipe arrangement module 20 is installed. Since the piping arrangement module 20 is composed of a plurality of units 21, a plurality of units 21 are mounted on the heat insulating module 10 to correspond to the design of the piping arrangement. The engaging projection 22 formed at the lower end of each unit 21 is inserted into the supporting cap 40 so that the engaging projection 23 of the engaging projection 22 engages with the engaging projection 42a ).

The heat insulating module 10 is tightly fixed to the floor surface even if the floor surface is not uniformly flattened with the bottom surface by the fastening means T through the through hole 43a of the support cap 40. [

The piping arrangement module 20 is also provided with a piping arrangement 50 in which the curved portion of the piping is arranged along the main-curved projection 24a of the piping arrangement module 20, The straight line portion of the pipe is arranged. The main-curved projection 24a and the auxiliary-curved projection 24b can be used to arrange the pipes in accordance with the piping design.

4, when a plurality of pipes are concentrically arranged at the start and end points of the floor heating space, that is, at the start and end points of the pipe 50, the pipe arrangement module 20 There is illustrated a configuration in which two units 21 are removed to secure a space for arrangement of concentrated pipes. As described above, in the present embodiment, the heating system can be installed in the floor heating space quickly and conveniently without any field work such as cutting of the heat insulating module 10.

A heat sink 30 is mounted on the piping 50 and the piping array module 20 arranged as described above. Since the through hole 31 is formed in the heat dissipating plate 30, the fixing means F is inserted through the through hole 31 to be coupled to the fastening hole 25 of the auxiliary-curved projection 24b .

The first embodiment of the DIY modular hot water and ondol heating system that facilitates the installation of piping can be implemented through this process.

≪ Embodiment 2 >

Next, a second embodiment of the DIY modular hot water and ondol heating system according to the present invention will be described. The same reference numerals are used for the components corresponding to those of the first embodiment among the components of the second embodiment.

5 is an exploded perspective view illustrating a second embodiment of a DIY modular hot water oundol heating system according to the present invention, FIG. 6 is a cross-sectional view taken along line B-B 'of FIG. 5, In which the piping arrangement module and the piping are installed on the heat insulating panel according to the first embodiment of the present invention.

As shown, in the second embodiment, the piping arrangement module 20 is composed of two different units, and the two units are combined into a unit form of the piping arrangement module 20 in the first embodiment . That is, the piping arrangement module 20 includes a first coupling protrusion 22a to be inserted into the grid hole 15, and a main-curved projection 24a for forming a passage in the curved portion of the piping 50 And a second coupling projection 22b inserted into the grating hole 15 and fitted into the support cap 40 or the first coupling projection 22a. And a second unit (21b) in which auxiliary-curved protrusions (24b) are formed so as to protrude and form a passage in a straight portion of the pipe (50) to assist in forming a passage at the curved portion of the pipe .

In this case, in the first embodiment, the pipe array module 20 is configured as a rectangular unit, but in the second embodiment, the first unit 21a is formed in a circular shape including the main-curved projection 24a, The second units 21b are stacked on the first unit 21a or disposed on the same coplanar plane. Therefore, in this embodiment, a grating hole is further formed in the center of four grating holes in the first embodiment.

8 first positioning grooves 17 are formed radially around the grid holes 15 of the heat insulating module and the first unit 21a is provided with one or more first positioning grooves 17 corresponding to the first positioning grooves 17, And one or more second positioning protrusions 26b corresponding to the first positioning recesses 17 may be formed in the second unit 21b.

At this time, at least one second positioning groove 27a is formed in the first unit 21a at a position corresponding to the first positioning groove 17 for insertion of the second positioning projection 26b.

The first positioning projection 26a is inserted into the first positioning groove 17 while the first unit 21a is inserted into the grid hole 15 to determine the positioning angle, The second positioning projection 26b of the second unit 21b can be inserted into the second positioning groove 27a.

The second positioning projection 26b of the second unit 21b is directly inserted into the first positioning groove 17 when the second unit 21b is directly inserted into the grid hole 15 .

In the present embodiment, four first positioning projections 26a and four second positioning projections 26b are illustrated, but the number of the second positioning projections 26b can be changed.

The arrangement angles of the first unit 21a and the second unit 21b can be changed through the positioning grooves and the positioning projections, thereby realizing more various types of piping arrangements. For example, as shown in FIG. 8, the first unit 21a and the second unit 21b can be arranged on the heat insulating module 10 by changing the angle to 45 degrees. By this arrangement, The degree of arrangement freedom can be increased.

The first engaging protrusion 22a has a first engaging protrusion 23a formed on an outer surface of the first engaging protrusion 22b and protruding from the inner surface of the first engaging protrusion 22b, And second engaging concavities and convexities 23b protruding from the inner surface while the engaging concavities 23a are inserted can be formed.

Alternatively, the first engaging protrusion 23a may be inserted into the outer surface of the engaging protrusion 42a, and the second engaging protrusion 23b may be inserted into the engaging protrusion 42a. . This is because both the first unit 21a and the second unit 21b are stacked together by using the support cap 40 having a single dimension and the second unit 21b is assembled by itself .

With such a configuration, it is possible to form a space in which the pipe array module 20 is not disposed in the heat insulating module 10, to utilize a space on the first unit 21a with sufficient space by combining only the first unit 21a, The first unit 21a and the second unit 21b can be installed and used, and the degree of freedom in arranging the pipes can be increased.

7, in the space in which the plurality of pipes 50 are concentrated, the first unit 21a and the second unit 21b are not all installed in the heat insulating module 10, The second unit 21b is not installed in the branching space, and a space in which the piping can be arranged can be secured.

9, in the space where the piping is concentrated, the piping arrangement module 20 is composed of only the main-curved projection 24a ', while the main-curved projection 24a' May be arranged in a 4x4 form in a half size in the first and second embodiments so that three pipes can pass between them and two pipes can be arranged in the outline.

Other configurations and operations are the same as those in the first embodiment, and a detailed description thereof will be omitted.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined by the appended claims. It is obvious that you can do it.

10: heat insulating module 11: fitting projection 13: fitting groove
15: Grating hole 17: First positioning groove
20: Piping arrangement module 21: Unit
21a: first unit 21b: second unit
22: engaging projection 22a: first engaging projection
22b: second engaging projection 23: engaging concave and convex
23a: first engaging concave and convex 23b: second engaging concave and convex
24: curved projection 24a: main-curved projection
24b: auxiliary-curved projection 25: fastening hole
26a: first positioning projection 26b: second positioning projection
27a: second positioning groove
30: heat sink 31: through hole
40: support cap 41: support plate 41a: hole
42: support part 42a:
43: diaphragm 43a: through hole
50: Piping
F: Fixing means
T: fastening means

Claims (5)

A plurality of grid holes (11) and a plurality of grid holes (13) are formed, which are connected to each other by a combination of the fitting protrusions (11) and the fitting grooves (13) 15) are formed;
A piping arrangement module (20) having a passage through which piping (50) can be arranged to be mounted on the heat insulating module (10); And
And a heat sink (30) mounted on the pipe arrangement module (20) to diffuse and transmit the heat of the pipe (50)
The piping arrangement module 20 includes a plurality of units 21. At the lower end of each unit 21 is formed a coupling protrusion 22 capable of engaging with the grid hole 15, A curved projection 24 is formed,
And a support cap 40 inserted at a lower portion of the grid hole 15. The coupling protrusion 22 of the pipe arrangement module 20 is configured to be coupled to the support cap 40,
At least one of the curved protrusions 24 is formed with a fastening hole 25 and a through hole 31 is formed in the heat dissipating plate 30 at a position corresponding to the fastening hole 25,
And fixing means F fastened to the fastening hole 25 through the through hole 31 to fix the heat dissipating plate 30 to the piping arrangement module 20,
The support cap 40 includes a support plate 41 having a hole 41a formed at the center thereof and a vertically extending support plate 41 inserted into the grid hole 15, And a diaphragm portion 43 formed with a through hole 43a to be fastened to the bottom surface through the fastening means and spaced apart from the bottom surface of the supporting portion 42. The DIY modular hot water / Heating system. delete delete The method according to claim 1,
The pipe arrangement module (20)
And a first engaging projection 22a inserted into the grating hole 15 and fitted into the supporting cap 40. The main engaging projection 24a for forming a passage in the curved portion of the pipe 50, A first unit 21a protruding from the first unit 21a,
And a second coupling protrusion 22b inserted into the grid hole 15 and fitted into the support cap 40 or the first coupling protrusion 22a. And a second unit (21b) protruding and forming auxiliary-curved protrusions (24b) for supporting and forming a passage in the straight part of the pipe (50). delete

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