KR102584805B1 - Floor heating system having modularized floor pannels made of tempered glass for floor heating - Google Patents

Abstract

The present invention relates to a floor heating system installed on the floor of a building to heat the floor of the building. In detail, modular floor panels, each manufactured in a modular form using tempered glass, are installed on the floor of a building in a vertical and horizontal direction. By installing them in communication with each other, dry or wet floor heating is possible, and the heat transfer characteristics due to the convection action of high-temperature air maintains the inside of each modular floor panel at a high temperature, improving thermal insulation sustainability and tempered glass. This relates to a floor heating system equipped with a modular floor panel for floor heating made of tempered glass that can provide interior elements through a heating system.

Description

Floor heating system with modular floor heating panels made of tempered glass {FLOOR HEATING SYSTEM HAVING MODULARIZED FLOOR PANNELS MADE OF TEMPERED GLASS FOR FLOOR HEATING}

The present invention relates to a floor heating system installed on the floor of a building to heat the floor of the building. In detail, modular floor panels, each manufactured in a modular form using tempered glass, are installed on the floor of a building in a vertical and horizontal direction. By installing them in communication with each other, dry or wet floor heating is possible, and the heat transfer characteristics due to the convection action of high-temperature air maintains the inside of each modular floor panel at a high temperature, improving thermal insulation sustainability and tempered glass. This relates to a floor heating system equipped with a modular floor panel for floor heating made of tempered glass that can provide interior elements through a heating system.

Generally, on the floor of a building made of concrete slabs, etc., heating pipes are installed independently at each regularly divided point to enable heating using hot water, and the hot water distributed from the distributor is routed through the heating pipes installed at each point. It is configured to heat each point independently by distributing and circulating it.

Floor heating construction using such heating pipes includes wet floor heating construction that is buried in concrete and performs heat storage type heating, and dry (or semi-dry) floor heating construction that uses standardized panels. Among them, dry floor heating construction is a method of installing heating pipes in a certain shape and size or by prefabricating pre-installed plate-shaped panels on the floor of a building. Underfloor heating can be installed in a modular form. there is.

Meanwhile, heating pipes are usually installed in a zigzag pattern on the floor of a building, and piping panels are used to fix the heating pipes installed in this way. These piping panels are a type of fixing frame for fixing and supporting heating pipes installed on the floor of a building. Initially, their function was limited to simply fixing heating pipes, but their function is gradually expanding, and they are representative of domestic It was proposed in Publication Patent No. 10-2005-002149, etc.

However, existing piping panels, including Domestic Patent Publication No. 10-2005-002149, are made of synthetic resin materials, so the thermal conductivity of the remaining parts except the groove where the heating piping is installed is low, which not only limits rapid heating, but also durability. weak. In addition, since piping panels made of synthetic resin materials are structurally difficult to preserve heating heat, they have the disadvantage of rapidly cooling the floor of the building when the supply of heat source through the heating piping is interrupted.

KR 10-2005-0002149 A, 2005. 01. 07.

Therefore, the present invention was proposed to solve the problems of the prior art, and is a tempered glass that is easy for dry and wet building floor construction, provides improved durability and thermal insulation sustainability, and allows floor heating construction in a dry or wet method. The purpose is to provide a floor heating system equipped with modular floor panels for floor heating.

In addition, the present invention provides a floor heating system including a modular floor panel for floor heating made of tempered glass that can suppress noise between floors and provide interior elements by bonding between the upper cover and the lower pedestal. There is another purpose in doing this.

The present invention according to one aspect for achieving the above object is in the form of a module, each made of tempered glass, with a cavity through which high-temperature air moves, and a plurality of modules installed vertically and horizontally on the ground so that each is connected by bonding. modular floor panels; an air source that heats external air sucked in through an inlet and supplies high-temperature air to a cavity of one of the plurality of modular floor panels; and a power supply source for operating the air supply source by supplying power to the air supply source.

Preferably, each of the plurality of modular floor panels is installed on the ground and has a cross-section of ' 'Pedestal in the shape of a ruler; and the cross section is ' It may be characterized by including an upper cover installed on the upper part of the pedestal to cover the pedestal and having a cavity through which high-temperature air moves between the pedestal and the pedestal.

Preferably, the plurality of modular floor panels each include a pedestal installed on the ground, and an upper cover installed to cover an upper part of the pedestal and having a cavity through which high-temperature air moves between the pedestal and the pedestal, The pedestal has step-shaped steps sloping downward on both sides so that the bent lower ends of the upper cover are supported downward, and the step formed on the pedestal has a first side vertically bent downward from the upper surface of the pedestal, It includes a support surface bent horizontally on the first side, and a second side vertically bent downward from the support surface, and the upper cover has a stepped portion formed on both sides of the pedestal at the bottom of both sides bent downward. A stepped portion is formed to correspond to the stepped portion and is supported on the stepped portion of the pedestal, and the stepped portion formed on both lower sides of the upper cover has a seating surface supported on the supporting surface of the stepped portion formed on the pedestal, and is bent vertically downward from the seating surface. It includes a third side facing the second side of the stepped portion formed on the pedestal, and an exposed surface that is bent horizontally at the third side and is exposed to the ground without being supported by the support surface, wherein the exposed surface is exposed to the ground. is formed at a regular interval from the support surface and the seating surface are bonded and fixed to each other by an adhesive having elasticity, and when a downward impact is applied to the upper cover, the gap between the adhesive and the exposed surface and the ground is maintained. It may be characterized by absorbing and alleviating shock applied to the upper cover.

Preferably, a communication hole or communication port may be further formed in the upper cover to allow the plurality of modular floor panels arranged laterally adjacent to each other to communicate with each other.

As described above, according to the floor heating system according to the present invention, modular floor panels, each manufactured in a modular form using tempered glass, are installed on the floor of a building so as to communicate with each other in the longitudinal and horizontal directions, so that the floor is dry or wet. Heating construction is possible.

In addition, according to the floor heating system according to the present invention, by using high-temperature gaseous air rather than liquid (hot water) as a heat medium, high temperature can be maintained in the cavity due to heat transfer characteristics due to convection of high-temperature air, thereby ensuring continuous thermal insulation. can be improved.

In addition, according to the floor heating system according to the present invention, durability and thermal conductivity are improved by forming a modular floor panel with ceramic-based tempered glass, and interior elements can be provided through the unique design and decoration of tempered glass. there is.

In addition, according to the floor heating system according to the present invention, it is possible to provide the advantage of no risk of freezing by using non-freezing air rather than liquid (hot water) as a heat medium.

1 is a conceptual diagram showing a floor heating system according to an embodiment of the present invention.
Figure 2 is a cross-sectional perspective view of a modular floor panel according to the present invention.
Figure 3 is an exploded cross-sectional perspective view of the modular floor panel shown in Figure 2.
Figure 4 is a cross-sectional view of the modular floor panel shown in Figure 2;
Figure 5 is a cross-sectional view showing the installation state of the modular floor panel according to the present invention.

Throughout this specification, like reference numerals refer to like elements, and terms used are for describing embodiments and are not intended to limit the invention. Unless otherwise defined, all terms (including technical and scientific terms) used in this specification may be used with meanings that can be commonly understood by those skilled in the art to which the present invention pertains. Additionally, terms defined in commonly used dictionaries are not interpreted ideally or excessively unless they are defined.

Hereinafter, the technical features of the present invention will be described in detail with reference to the attached drawings.

1 is a diagram illustrating a floor heating system according to an embodiment of the present invention.

Referring to FIG. 1, the floor heating system 10 according to an embodiment of the present invention includes a plurality of modular floor panels (each modularized using tempered glass) and installed in communication with each other in the longitudinal and horizontal directions on the ground (or the floor surface of a building). 11) and an air supply source 12 that supplies high-temperature air, which is a heat chain, to the cavity 11a formed inside each modular floor panel 11.

Figure 2 is a cross-sectional perspective view of the modular floor panel according to the present invention, Figure 3 is an exploded cross-sectional perspective view of the modular floor panel shown in Figure 2, and Figure 4 is a cross-sectional view of the modular floor panel shown in Figure 2.

Referring to Figures 1 to 3, the modular floor panel 11 according to the present invention is manufactured from tempered glass material, and then a plurality of modular floor panels 11 are installed on the ground 1 in the longitudinal and horizontal directions in a matrix form.

These modular floor panels 11 are formed in communication so that high-temperature air supplied through the air source 12 moves through the cavity 11a formed in each modular floor panel 11.

3 and 4, the modular floor panel 11 is, for example, installed on the ground 1 and has a cross-section of ' A base (111) in the shape of a letter, with a cross section of ' ', is installed to cover the pedestal 111, and includes an upper cover 112 with a cavity 11a formed therein. Here, the shape of the cavity 11a may be formed in various shapes that can form a movement path for air other than the shape shown in the drawing.

As shown in FIG. 3, the base 111 has a flat structure with a lower surface placed on the ground 1 and an upper surface covered by the upper cover 112, and both sides have bent lower ends of the upper cover 112. A stepped portion 111a in the form of a step sloping downward is formed to be supported.

The stepped portion 111a formed on the pedestal 111 has a first side (a) vertically bent downward from the upper surface of the pedestal 111, and is horizontal to be parallel with the upper surface of the pedestal 111 on the first side (a). It includes a bent support surface (b) and a second side (c) vertically bent downward from the support surface (b).

As shown in FIG. 2, the upper cover 112 is provided with a cavity 11a that is installed on the upper part of the pedestal 111 and functions as a passage through which high-temperature air supplied from the air source 12 is transported.

At this time, the cavity 11a functions as a heat storage space in which the upper, left and right sides, and lower part are sealed by the combination of the upper cover 112 and the pedestal 111, and the front part through which high-temperature air flows, and the front part where high temperature air flows into the front part. The rear portion through which high-temperature air is discharged may have an open structure.

As shown in FIG. 3, the upper cover 112 has a structure in which both sides are bent downward, and the bent lower portions of both sides have a step portion 112a to correspond to the shape of the step portion 111a formed on both sides of the pedestal 111. ) is formed and is seated and supported on the step portion 111a of the pedestal 111.

The step portion 112a formed on both sides of the upper cover 112 has a seating surface (e) supported on the support surface (b) of the step portion 111a formed on the pedestal 111, and a lower side from the seating surface (e). A third side (f) that is vertically bent and faces the second side (c) of the step portion (111a), and a third side (f) that is bent horizontally on the third side (f) and is exposed without being supported by the step portion (111a). Includes exposed surface (g).

And, as shown in FIG. 4, a step 112a formed on the upper cover 112 is supported on the step 111a of the pedestal 111 to absorb and relieve the impact applied to the upper cover 112 in the downward direction. The exposed surface (g) of is formed to be spaced apart from the ground (1) by a distance of 'd' while the seating surface (e) is supported on the support surface (b) of the step portion (111a) formed on the pedestal (111).

In order to absorb the impact applied downward to the upper cover 112, step portions 112a formed on both lower sides bent toward the lower side of the upper cover 112 and step portions 111a formed on both sides of the pedestal 111 ) is bonded by an adhesive 113 having flexible elasticity.

In this way, the modular floor panel 11 according to the present invention is resistant to downward impact on the upper cover 112 as the upper cover 112 and the pedestal 111 are bonded through the elastic adhesive 113 (Figure 4). When (see arrow) is applied, the impact is first absorbed through the adhesive 113 and then secondarily absorbed through the cavity 11a formed between the upper cover 112 and the pedestal 111.

Therefore, by installing the modular floor panel 11 according to the present invention on the floor surface of a building, not only floor heating but also inter-floor noise, which is a problem in apartment complexes, can be solved.

Meanwhile, as shown in FIG. 1, a plurality of modular floor panels 11 are installed in close contact with each other in multiple rows in the horizontal (X) and longitudinal directions (Y). At this time, the modular floor panels (1) communicate with each other in the transverse direction (X) through a cavity (11a) formed in the center. In addition, the modular floor panel installed at the last end in the horizontal direction (X) communicates with other modular floor panels installed adjacent to each other in the longitudinal direction (Y), so that each of these floor panels has a communication hole or communication port (3). is formed

For example, in the structure of Figure 1, the modular floor panel in which the communication hole or communication port (3) is formed is arranged from the first row to the last in the transverse direction (X) in response to the movement path (2) of high temperature air moving in a zigzag manner. Modular floor panels installed at the top, modular floor panels installed at the top and bottom of the second row, modular floor panels installed at the top and bottom of the third row, and modular floor panels installed at the top and bottom of the fourth row. Can be formed on installed modular floor panels.

Meanwhile, the air source 12 according to the present invention is a device that supplies heated, high-temperature air to the cavity 11a of the modular floor panel 11, that is, a sealed heat storage space, and includes a blowing fan, a heater, etc. The air introduced inside is heated to a high temperature through a heater and then supplied to the cavity 11a of the modular floor panel 11 installed at the leading edge of the first row through a blowing fan.

At the inlet side of the air source 12, that is, the inlet side where external air flows in, foreign substances and fine dust (including ultrafine dust) contained in the external air are filtered and purified, and then purified air is supplied to the modular floor panel 11. An air filter 13 may be additionally installed for supply and discharge. At this time, the air filter 13 may be made of a pre filter, a medium filter, a HEPA filter, etc., and may be used by stacking them. This air filter 13 can provide a purification function for indoor air.

As shown in FIG. 1, the air supply source 12 receives power from the power supply source 14 and operates.

The power supply source 14 is a device that supplies power to drive the air supply source 12. It receives power generated from a commercial power source, battery, or solar module built in a building and supplies it to the air supply source 12. You can. In addition, power may be supplied from various electricity generating devices, stabilized, and then supplied to the air source 12.

Figure 5 is a cross-sectional view showing the installation state of the modular floor panel according to the present invention.

As shown in Figure 5, the modular floor panel 11 according to the present invention is installed on top of the insulation material 5 installed on the building slab 4. Usually, during wet floor heating construction, an insulating material (5) made of Styrofoam or silver foil mat is laid on the slab (4), and a wire mesh is optionally installed on top of it. Afterwards, cement mortar is poured on the upper part of the modular floor panel 11 according to wet construction, and then finished with a finishing material (not shown) including a reinforced floor or flooring.

To describe the operating characteristics of the floor heating system 10 according to an embodiment of the present invention, when power is first supplied from the power source 14 to the air source 12, the air source 12 sucks external air and then It is heated to a high temperature and supplied high temperature air to the cavity (11a) of the plurality of modular floor panels (11) installed longitudinally and horizontally on the building slab (4).

Thereafter, the high temperature air supplied from the air source 12 flows into the cavity 11a of the modular floor panel 11 and then sequentially passes through the cavity 11a of another modular floor panel 11 installed adjacently. It is moved, and in this process, heat exchange occurs with the modular floor panel 11 within the cavity 11a. In addition, the heating heat stored in the cavity 11a through heat exchange is transferred to the finishing material installed on the upper part of the modular floor panel 11 to provide floor heating.

In addition, since the modular floor panel 11 according to the present invention is made of a glass material with excellent thermal conductivity, heat exchange occurs quickly, enabling rapid heating, and the cavity 11a of the modular floor panel 11 preserves heating heat. By functioning as a heat storage space, the heat stored in the cavity 11a can be maintained for a long time even when the heating operation is terminated, thereby improving heating efficiency.

In particular, in the present invention, as high temperature air, i.e., gas, is used as a heat medium rather than hot water, heat transfer is relatively slow compared to hot water, and the sustainability of thermal insulation within the cavity 11a can be improved.

In addition, the modular floor panel 11 according to the present invention is formed of tempered glass, so it is well mixed with red clay or cement, enabling both dry and wet construction. This can create an interior effect.

In addition, the modular floor panel 11 according to the present invention can provide the advantage of no risk of freezing by using non-freezing air rather than liquid (hot water) as a heat medium.

As described above, the technical idea of the present invention has been described in detail in the preferred embodiments, but the preferred embodiments described above are for explanation and not limitation. As such, a person skilled in the art will understand that various embodiments are possible through combination of embodiments of the present invention within the scope of the technical idea of the present invention.

1: Ground 2: Movement path (high temperature air)
3: Communication hole (or communication port) 4: Building slab
5: Insulating material 10: Floor heating system
11: modular floor panel 11a: cavity (thermal storage space)
12: Air source 13: Air filter
14: power source 111: stand
111a: step portion 112: upper cover
112a: step portion 113: adhesive
a: first side b: support surface
c: second side e: seating surface
f: third side g: exposed side

Claims (4)

A plurality of modular floor panels, each made of tempered glass, each in the form of a module with a cavity through which high-temperature air moves, installed longitudinally and horizontally on the ground so that each is connected by bonding;
an air source that heats external air sucked in through an inlet and supplies high-temperature air to a cavity of one of the plurality of modular floor panels; and
a power supply source that supplies power to the air supply source to operate the air supply source; Including,
The plurality of modular floor panels each include a pedestal installed on the ground, and an upper cover installed to cover an upper part of the pedestal and having a cavity through which high-temperature air moves between the pedestals and the pedestal,
The pedestal is formed on both sides with steps in the form of steps sloping downward so that the bent lower ends of both sides of the upper cover are supported downward, and the steps formed on the pedestal have a first side vertically bent downward from the upper surface of the pedestal and , including a support surface bent horizontally on the first side, and a second side vertically bent downward from the support surface,
The upper cover has stepped portions formed on both lower sides bent downward to correspond to the shape of the stepped portions formed on both sides of the pedestal, and is supported on the stepped portions of the pedestal, and the stepped portions formed on both lower sides of the upper cover are supported on the pedestal. A seating surface supported on the support surface of the stepped portion formed, a third side bent vertically downward from the seating surface and facing the second side of the stepped portion formed on the pedestal, and bent horizontally on the third side to support the It includes an exposed surface that is not supported by the surface and is exposed to the ground,
The exposed surface is spaced apart from the ground at regular intervals,
The support surface and the seating surface are bonded and fixed to each other by an elastic adhesive,
When a shock is applied downward to the upper cover, the shock applied to the upper cover is absorbed and alleviated through the separation between the adhesive, the exposed surface, and the ground,
A floor heating system equipped with a modular floor panel for floor heating made of tempered glass.
According to claim 1,
Each of the plurality of modular floor panels,
It is installed on the ground, and the cross section is ' 'Pedestal in the shape of a ruler; and
The cross section is ' ', an upper cover installed on an upper part of the pedestal to cover the pedestal, and having a cavity through which high-temperature air moves between the pedestal and the pedestal;
A floor heating system equipped with a modular floor panel for floor heating made of tempered glass, comprising:
delete According to claim 2,
Provided with a modular floor panel for floor heating made of tempered glass, wherein a communication hole or communication port is further formed in the upper cover to communicate with each other laterally adjacent among the plurality of modular floor panels. Underfloor heating system.