KR101638137B1 - Assembly type haeting structure having plate type heating system - Google Patents

Abstract

The present invention relates to an assembly type heating structure having a planar heating system, which is installed in a heating pipe arranged on the floor of an indoor space in a zigzag shape to rapidly and uniformly heat the floor by radiating the heat conducted in the heating pipe to the surface of the floor of the indoor space through the plane thereof. The assembly type heating structure comprises: conductive blocks which are arranged in the linear section parts of the heating pipe embedded in the floor of the indoor space in a zigzag shape, respectively, and are embedded in the floor parallel to each other at uniform intervals; and section radiating plates which are arranged to be exposed to the surface of the floor where the conductive blocks are arranged and radiate the heat conducted in the conductive blocks arranged in the lower part to the surface of the floor through the planes thereof.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an assembly type heating structure having a surface heating structure,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an assembly type heating structure having a surface heating structure, and more particularly, to an assembly type heating structure having a surface heating structure, The present invention relates to an assembled heating structure having a planar heating structure that allows rapid and uniform heating of a bottom surface by radiating heat in a plane.

Generally, in a heating method of a floor of a residential space such as an apartment or a house, a method of heating a floor of a residential space by circulating hot water supplied from a boiler along a heating pipe embedded in a zigzag form on the floor is adopted.

The heating pipes are arranged in a zigzag form on the floor at the time of construction of the building and are embedded in the floor by a concrete mortar so that the hot water discharged from the boiler moves along the heating pipe, And heating and heating.

However, since the bottom made of the concrete mortar is not excellent in thermal conductivity, it has a limitation that the heat of the heating pipe can not be quickly transmitted to the floor surface in a short time, and the heating pipe is arranged in a zigzag form on the floor It is difficult to uniformly heat the floor.

In order to solve these problems, in the Utility Model Registration No. 20-0204241, the Patent Registration No. 10-1294934, and the Patent Registration No. 10-0718911, the heat radiating from the heating pipe is transferred to the surface of the floor, And a heat-dissipating heating structure is proposed.

Korean Patent Registration No. 10-0638361 discloses a hot water hole provided on a bottom surface of a pillar block so that a hot water pipe can pass therethrough; A first thermally conductive metal plate attached to an upper portion of the hot water hole; A second thermally conductive metal plate vertically disposed in contact with an upper surface of the first thermally conductive metal plate; A heat storage hole intersecting perpendicularly to the hot water hole and horizontally aligned with the second thermally conductive metal plate; And a body made of a mixture of cement and quartzite.

However, the ondol furnace and the heating elements described in the above-mentioned linear documents must be constructed such that the heat conduction metal plate is made of a single plate material and the heating pipes are arranged in a standardized manner through a mold or the like, It has limitations.

That is, since the heat conduction metal plate and the mold that can form the standardized area can be provided, it is difficult for the constructor to appropriately adjust the construction interval and the construction area according to the situation in the field.

It is an object of the present invention, which is devised to solve the above-described problems, to provide an air conditioner that radiates heat in a heating pipe arranged in a staggered manner on a floor surface of an indoor space, And an assembled heating structure having a surface heating structure for realizing rapid and uniform heating of the floor surface.

The above object is achieved by the following constitutions provided in the present invention.

In the assembled heating structure having the planar heating structure according to the present invention,

A conduction block disposed in each linear section of a heating pipe embedded in a zigzag form on the floor of the indoor space and embedded in the floor at equal intervals in parallel;
And a heat radiating plate disposed on the bottom surface of the conduction block so as to be exposed in each section so as to radiate the heat transferred from the conduction block disposed at the lower portion to the bottom surface in each plane.
A plurality of press-fit grooves are formed on the upper surface exposed to the bottom surface of the conductive block. The press-fit end of the press-fit groove of the conductive block is protruded downward from the press- Fitted into the press-fit groove of the conductive block and fixedly attached to the surface of the floor;
Wherein the conductive block is formed in a shape in which a C type press-fit piece is formed in a lower portion of a block body exposed on a surface of a floor, and is downwardly press-fitted and fixed to a straight line section of a heating pipe through the press- , The C type pressing clip having the heat insulating cap formed on the outer diameter of the clip body made of a steel material having excellent elasticity is upwardly press-fitted, and the C type pressing piece of the conduction block pressed into the heating pipe is pressed by the C type pressing clip Tightly attached to the heating pipe;
Linear supporting pieces are formed at equal intervals on the bottom surface of the sectional heat dissipating plate so that the sectional heat dissipating plate is supported so as to be spaced apart from the bottom surface through the linear supporting pieces;
The conduction block disposed in the heating pipe is provided with a humidifying member for evaporating moisture through the heat transferred from the conduction block;
The humidifying member is composed of an L-shaped plate body formed by orthogonally contacting the wall face-contact piece portion and the bottom-contact piece portion. A downwardly bent press-in end is formed on the bottom- And a humidifying tank for storing water is formed on the wall surface contact piece portion which is in close contact with the wall surface.

delete

delete

delete

delete

delete

As described above, the assembled type heating structure according to the present invention includes a conduction block disposed in each linear section of a heating pipe arranged in a staggered manner on the floor of an indoor space, and a heat transfer conduit disposed along the conduction block on a floor surface The heat dissipating area is easily assembled so that rapid and uniform heating of the bottom surface is possible through the surface heat dissipation through the area heat sink.

Particularly, the sectional heat dissipating plate is fixed by press-fitting the press-fit end into the press-fit grooves formed in the conduction block, so that the convenience of installation is ensured, and the interval heat radiating plate is spaced apart by the interval between the straight line sections of the heating pipe And is fixed by changing the press-in point of the press-fitting piece according to the interval of the conductive block to be changed.

Therefore, the present invention has an advantage that it can be easily disposed in the straight line section of the heating pipe having a different interval according to the field conditions without changing the area heat sink or the conduction block.

Fig. 1 is a view showing an overall configuration of an assembled type heating structure having a planar heating structure proposed in the preferred embodiment of the present invention,
2 is a view showing a heating state of a heating structure having a planar heating structure proposed in the preferred embodiment of the present invention,
FIG. 3 is an enlarged view showing an operation state of the 'A' portion in FIG. 2,
FIGS. 4 and 5 illustrate the assembled state of the conduction block, the section heat sink, and the humidifying plate in the heating structure having a planar heating structure proposed in the preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an assembled heating structure having a planar heating structure will be described in detail with reference to the accompanying drawings.

Fig. 1 shows an overall configuration of an assembled heating structure having a planar heating structure proposed in the preferred embodiment of the present invention. Fig. 2 is a schematic view showing a heating structure having a planar heating structure proposed in the preferred embodiment of the present invention FIG. 3 is an enlarged view of the operating state of the 'A' portion in FIG. 2, and FIGS. 4 and 5 are views showing a heating state of the heating structure having a planar heating structure proposed in the preferred embodiment of the present invention. Shows the assembly state of the conduction block, the section heat sink, and the humidification plate.

The assembled heating structure 1 having a planar heating structure proposed in the preferred embodiment of the present invention is constructed such that the heat conducted in the heating pipe 110 buried in a staggered manner in the floor space B of the indoor space, To heat the surface of the bottom (B) quickly and uniformly.

As shown in FIGS. 1 and 2, the assembled type heating structure 1 having the above-described surface heating structure has a structure in which each linear section 111 of a heating pipe 110 embedded in a zigzag form in the floor space B A conductive block 10 fixed to the bottom B so as to be mutually spaced apart in the longitudinal direction; And a sectional heat dissipating plate 20 disposed on the bottom surface B of the conductive block 10 to expose the conductive surface of the conductive block 10 to the bottom surface.

The conduction block 10 and the sectional heat dissipation plate 20 are made of copper or stainless steel having good thermal conductivity and the conduction block 10 is formed of a block body 11 exposed on the surface of the bottom B And a C-shaped press-fitting piece 12 is formed at the lower portion thereof and is downwardly press-fitted into the straight-line section 111 of the heating pipe 110 through the C-shaped press-fitting piece 12 as shown in Figs.

The C type pressing clip 30 is upwardly press-fitted into the C type press-fitting piece 12 of the conduction block 10 downwardly press-fitted into the heating pipe 110, so that the conduction block inserted into the heating pipe 110 The C-type press-fitting piece 12 of the heating pipe 110 is pressed by the C-type pressing clip 30 and is brought into close contact with the straight line section 111 of the heating pipe 110 more tightly.

At this time, the C-shaped indenting piece 12 formed on the conductive block 10 and the C-shaped pressing clip 30 pressing the C-shaped indenting piece 12 are made of a steel material having excellent elasticity and thermal conductivity such as stainless steel And the conductive block 10 is preferably integrally formed by inserting a C-shaped indenting piece 12 made of a steel sheet material during molding of the block body 11.

The C-type pushing clip 30 is formed by a C-shaped heat insulating cap 32 such as urethane or plastic on the outside of the clip body 31 made of a steel plate, Heat conduction is minimized through heat insulation between the clip 30 and the bottom B so that heat loss due to heat exchange generated between the bottom B and the compression clip 30 is suppressed.

The conduction block 10 in which the press fitting piece 12 is press-fitted into the straight section 111 of the heating pipe 110 is pressed inwardly by the pushing clip 30 to be inserted into the straight section of the heating pipe 110 And the heat insulating cap 32 formed on the pressing clip 30 minimizes the heat loss to the bottom B. As a result,

When the conduction block 10 constructed as described above is disposed in each of the straight line sections 111 of the heating pipe 110 embedded in the zigzag form on the floor B, So that they are embedded in a parallel state at intervals.

Between the conductive blocks 10 which are fixed to the respective linear sections 111 of the heating pipe 110 and are spaced apart from the floor B, 2 and 3 so that the heat conducted to the conduction block 10 through the heating pipe 110 is radiated to the floor surface by the section heat sink 20 as shown in FIGS. do.

That is, the heating structure 1 according to the present invention does not heat the floor through the heating pipe 110, and conveys heat conducted from the heating pipe 110 through the conduction block 10 to the heat dissipating plate 20 And is configured to generate surface heating on the floor surface, so that uniform and rapid heating of the floor surface is possible.

In this embodiment, a simplified assembling structure is provided between the upper surface of the conductive block 10 exposed on the bottom surface and the sectional heat dissipating plate 20 so that the constructor can easily provide the sectional heat dissipating plate 20 between the conductive blocks 10 Assemble and construct.

For this, in the present embodiment, press-fit grooves 13 linearly cut in the longitudinal direction are formed on the upper surface of the conductive block 10 exposed on the bottom surface, and the sectional heat sink 20 is provided with a downwardly bent press- The intermittent heat sink 20 presses the press-fit end 21 into the press-fit groove 13 and fixes the press-fit end 21 on the upper surface of the conductive block 10.

1 to 5, downwardly bent press-in ends 21 are respectively formed on both left and right ends of the heat-radiating piece 20 so that the heat-releasing pieces 20 are inserted into the press- 13 are press-fitted into the left and right press-in ends 21, respectively, and fixed to the surface of the bottom B by fixing the right and left ends thereof to the conductive block 10 formed on both right and left sides.

At this time, the linear supporting pieces 22 are formed at equal intervals on the bottom surface of the sectional heat dissipating plate 20 so that the sectional heat dissipating plate 20 is supported on the surface of the bottom B by the linear supporting pieces 22 do.

Therefore, a partition space defined by the linear support piece 22 is formed between the bottom surface of the section heat sink 20 and the surface of the bottom B facing the bottom surface of the partition heat sink 20, And the heat dissipating plate 20 are secured.

The linear supporting piece 22 may be formed integrally with the sectional heat dissipating plate 20 and may be separately formed of rubber, urethane, plastic, or the like having heat insulating property and stretchability, And the shock absorbing property to mitigate the shock provided to the section heat sink (20).

Therefore, the sectional heat sink 20 presses the press-fit end 21 into the press-fit groove 13 of the conduction block 10, and presses the conduction block 10 between the conduction blocks 10 arranged in the straight section 111 of the heating pipe 110 So that the heat dissipation plate 20 can dissipate the heat radiated from the conductive blocks 10 disposed on both the left and right sides to dissipate heat on the surface.

Particularly, according to the present invention, the press-fitting position of the sectional heat dissipating plate 20 is changed according to the interval of the linear section 111 of the heating pipe 110, which is installed at various intervals according to the field conditions, ).

That is, in the present invention, the distance between the straight section 111 of the heating pipe 110 and the distance between the straight section 111 of the heating pipe 110 installed in the field is not divided through the conduction block 10, It is possible to construct the heat dissipating plate 20 in a form suitable for the heat dissipating structure 20, thereby reducing the cost associated with the fabrication and construction of the heating structure.

A plurality of press-fit grooves 13 are arranged on the upper surface of the conduction block 10 so as to be spaced apart from each other so that the conduction block 10 disposed in each straight section 111 of the heating pipe 110, The press-fitting groove 13 to be press-fitted into the press-fitting piece 21 is changed.

For example, when the interval between the conductive blocks 10 disposed in the straight line sections 111 of the heating pipe 110 is narrow, the interval heat sinks 20 are formed in the press-fitting grooves 13 formed on the outer side of the conductive block 10, The intermittent heat sink 20 is inserted into the press-fit groove 13 formed in the inner side of the conductive block 10 and the press-fit end 21 ).

Accordingly, the assembled heating structure 1 having a planar heating structure according to the present invention is disposed in a straight line section 111 of the heating pipe 110 arranged at various intervals to be shared by a simple construction, It is possible to quickly and uniformly generate heat on the floor surface.

The sectional heat dissipation plate 20 disposed between the conduction blocks 10 is divided into a plurality of straight sections 111 of the heating pipe 110 in which the conduction block 10 is disposed, The convex end 21 is press-fitted into the conduction block 10 disposed in the conduit block 110 and the curved section of the heating pipe 110 is covered to dissipate the heat conducted in the straight section 111 to the surface of the curved section 110 Which is also within the scope of the present rights.

That is, the heat dissipation in the straight line section is used to dissipate heat on the plane of the curve section and to heat the curve section.

1 and 2, the humidifying member 40 is disposed in the conductive block 10 disposed in the linear section 111 at the top of the heating pipe 110. In this embodiment,

The humidifying member 40 is made of a material having excellent thermal conductivity such as copper or stainless steel as in the case of the heat dissipating plate 20 and has an L- And is disposed in close contact with the bottom surface B and the wall surface W which are mutually orthogonal.

At this time, a downwardly bent indentation piece 41a is formed on the bottom contact piece portion 41 which is in close contact with the bottom B and is press-fitted into the press-in groove 13 of the conductive block 10, A humidifying tank 43 for storing water is formed on the wall-contact piece portion 42 to be adhered.

Accordingly, the heating structure 1 according to the present invention generates heat on the floor surface in a plane by heating the conduit from the heating pipe 110 through the conduction block 10 and the section heat sink 20, In particular, it is possible to continuously humidify the indoor space by evaporating the water stored in the humidifier tank 43 through the conduction heat.

1. An assembly type heating structure having a surface heating structure
10. Conductive block 11. Block body
12. Press-in piece of type C 13. Press-fit groove
20. Section heat sink
22. Linear support
30. Press clip 31. Clip body
32. Insulation cap
40. Humidifying member 41. Bottom contact piece
41a. The press-fitting piece 42. The wall-
43. Humidifier
B. Floor W. Wall
110. Heating piping 111. Line section

Claims (5)

A conduction block disposed in each linear section of a heating pipe embedded in a zigzag form on the floor of the indoor space and embedded in the floor at equal intervals in parallel;
And a heat radiating plate disposed on the bottom surface of the conduction block so as to be exposed in each section so as to radiate the heat transferred from the conduction block disposed at the lower portion to the bottom surface in each plane.
A plurality of press-fit grooves are formed on the upper surface exposed to the bottom surface of the conductive block. The press-fit end of the press-fit groove of the conductive block is protruded downward from the press- Fitted into the press-fit groove of the conductive block and fixedly attached to the surface of the floor;
Wherein the conductive block is formed in a shape in which a C type press-fit piece is formed in a lower portion of a block body exposed on a surface of a floor, and is downwardly press-fitted and fixed to a straight line section of a heating pipe through the press- , The C type pressing clip having the heat insulating cap formed on the outer diameter of the clip body made of a steel material having excellent elasticity is upwardly press-fitted, and the C type pressing piece of the conduction block pressed into the heating pipe is pressed by the C type pressing clip Tightly attached to the heating pipe;
Linear supporting pieces are formed at equal intervals on the bottom surface of the sectional heat dissipating plate so that the sectional heat dissipating plate is supported so as to be spaced apart from the bottom surface through the linear supporting pieces;
The conduction block disposed in the heating pipe is provided with a humidifying member for evaporating moisture through the heat transferred from the conduction block;
The humidifying member is composed of an L-shaped plate body formed by orthogonally contacting the wall face-contact piece portion and the bottom-contact piece portion. A downwardly bent press-in end is formed on the bottom- And a humidifying tank for storing water is formed on the wall surface contact piece portion which is in close contact with the wall surface. delete delete delete delete

Images