KR102409179B1 - Hypocaust with mulitlayer heat reservation structure - Google Patents

Abstract

The present invention is to provide multiple heat storage spheres, and the configuration of the present invention includes a sphere floor 20 constructed to form the floor of a building room; A plurality of layers of heating wires 30 embedded in upper and lower multi-layers in the bottom 20 of the spheres are included, and selected from among the plurality of layers of the heating wires 30 to generate heat or the plurality of layers of the heating wires 30 It is characterized in that it heats up at the same time.
The effect of the present invention is that the heating wire is constructed in multiple layers, such as double or triple, to create a heat storage space between the hot wire and the hot wire, so that a lot of heat energy can stay for a long time, and energy saving and heat storage function are improved.

Description

Multiple heat storage spheres {Hypocaust with mulitlayer heat reservation structure}

The present invention relates to multiple heat storage spheres, and more particularly, it is possible to maintain a comfortable environment by continuously heating the spheres continuously when emptying the sphere for a long time, and energy efficiency by operating only some of the heating wires of a plurality of layers buried in the spheres It is also related to a new configuration of multiple heat storage spheres that can also be increased.

In general, Gudeulbang is also called Ondolbang, and it is a traditional Korean floor structure. Gudeulbang has a structure in which spheres (stone board or loess) are laid on the floor and the spheres are heated to heat the room. The spheres are heated directly by the flame, but the air in the room is heated by the heated spheres. Recently, due to the increased interest in health, the number of buildings forming spheres with loess has increased. A room formed by laying ocher on the floor can be called a Gudeulbang.

However, it is rare that Gudeulbang is continuously heated when it is left empty for a long time, so if you live in a Gudeulbang in a humid environment such as the rainy season, you cannot feel comfortable due to a lot of moisture, and in a cold environment such as winter, you cannot feel comfortable. There is a problem in that it is not possible to warm up the house, so it feels cold while it is being heated, and it takes a relatively long time to heat the Gudeulbang, causing inconvenience. However, if the Gudeulbang is always heated using a heating device, there are not a few problems in energy efficiency due to the waste of energy, and a difficult problem is also caused in the management of a heating device to keep the Gudeulbang always warm.

Existing electric floor ondol applies a simple construction method of laying heating wires on the floor in one row, but these electric floor ondols do not trap the generated thermal energy for a long time, so there is a problem that heat storage does not occur, resulting in high heating costs.

Korean Patent Publication No. 2001-0097383 (published on November 08, 2001) Korea Patent Publication No. 10-2017-0011319 (published on February 02, 2017) Korean Patent Registration No. 10-1667746 (registered on October 13, 2016)

An object of the present invention is to maintain a comfortable environment by continuously and steadily heating the spheres when the sphere is left empty for a long time, and among the heating wires of a plurality of layers buried in the spheres, only the heating wires of some layers are operated, and the heating wires of the other floors are still maintained in a stopped state This is to provide a new configuration of multiple heat storage spheres that can also increase energy efficiency.

According to the present invention for solving the above problems, the floor constructed to form the floor of the building room; Multiple layers of heating wires embedded in upper and lower multi-layers in the bottom of the sphere; Multiple heat storage, characterized in that it is configured to select and heat some of the plurality of layers of the heating wires or to heat the plurality of layers at the same time phrases are provided.

The bottom of the sphere, the bottom layer of the bottom; a heat insulating layer formed on the bottom layer; a heating movable layer formed above the heat insulating layer; an insulating layer formed on the heating movable layer; It is configured to include a plaster layer formed on the insulating layer, and each heating wire is embedded in a plurality of heating movable layers.

The heating movable layer is configured to include a heating layer and a heat storage storage layer formed on the heat insulating layer on the floor layer, wherein the heating layer is composed of a plurality of layers, and a heating wire is respectively embedded in each of the heating layers of the plurality of layers, characterized in that do.

One of the heating wires is embedded in each of the plurality of heating layers so that a plurality of layers of heating wires are embedded in the heating movable layer, and among the heating wires of the plurality of layers, the upper and lower heating wires are arranged to intersect in a grid pattern characterized.

The heat storage layer is disposed between the plurality of heat storage layers, the heat storage layer is composed of a plurality of layers, and the heat storage layer of the plurality of layers and the heat storage storage layer of the plurality of layers are disposed above the heat insulating layer on the bottom layer characterized by being

It is characterized in that the heat insulating layer is disposed between the lowermost heating layer and the bottom layer among the plurality of heating layers.

The heating movable layer includes a plurality of heat-generating layers and a plurality of heat-storage layers disposed above the heat-insulating layer on the floor layer, and a heat-storage layer is disposed between the plurality of heat-generating layers one by one, It is characterized in that the insulating layer is disposed between the uppermost heating layer among the heating layers and the plaster layer.

The plastering layer is characterized in that it comprises a loess layer and an oil layer formed by applying oil on the loess layer to prevent cracking of the loess layer.

Oil is applied on the loess layer to form the oil layer, and oil is applied again to the upper loess layer installed on the oil layer to form an upper oil layer, wherein the loess layer and the oil layer are composed of 2 to 5 layers characterized in that

A plurality of the heating wire is composed of a central heating wire disposed between the lowest floor heating wire and the uppermost layer heating wire, and supplies electricity generated by wind power or solar power to the central heating wire to store heat, When the room is used, electricity is supplied to the heating wire on the uppermost floor for efficient heating.

The multiple heat storage balls according to the present invention are implemented so that a lot of heat energy can stay for a long time by constructing a heat wire in multiple layers, such as double or triple, to create a heat storage space between the heat wire and the heat wire, so that energy saving and heat storage function are improved.

In the present invention, if the spheres are constructed with loess like traditional loess spheres and the temperature is raised by heating, there is also a poultice effect by far-infrared rays, and various useful effects of traditional loess spheres (effects such as promoting metabolism by emitting far-infrared rays).

According to the present invention, different radiant heating effects can be seen by operating the heating wires of each floor separately, and when heating is urgently needed, the heating wires of each floor can be operated and used at the same time, so that heating can be performed quickly at a desired time. There are effects such as increasing convenience.

1 is a partially enlarged perspective view schematically showing the structure of multiple heat storage spheres according to the present invention;
2 is a perspective view showing the structure of multiple heat storage spheres according to the present invention;
3 is a partially enlarged perspective view schematically showing the overall structure of multiple heat storage spheres according to another embodiment of the present invention;
4 is a perspective view schematically showing the overall structure of the multiple heat storage spheres shown in FIG. 3;
FIG. 5 is a plan view of FIG. 4 .

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The objects, features and advantages of the present invention will be more readily understood by referring to the accompanying drawings and the following detailed description. In addition, in describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

In addition, in describing the components of the present invention, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only for distinguishing the elements from other elements, and the essence, order, or order of the elements are not limited by the terms. For example, when a component is described as "connected", "coupled" or "connected" to another component, the component may be directly connected or connected to the other component, but between each component. It should be understood that another component may be “connected,” “coupled,” or “connected.”

1 is a partially enlarged perspective view schematically showing the structure of multiple thermal storage spheres according to the present invention, FIG. 2 is a perspective view showing the structure of multiple thermal storage spheres according to the present invention, and FIG. 3 is multiple thermal storage spheres according to another embodiment of the present invention A partially enlarged perspective view schematically showing the overall structure of the , FIG. 4 is a perspective view schematically showing the overall structure of the multiple heat storage spheres shown in FIG. 3 , and FIG. 5 is a plan view of FIG. 4 .

Referring to the drawings, the multiple heat storage spheres according to the present invention include a sphere floor 20 constructed to form the floor of a building room, and a plurality of layers of heating wires 30 embedded in the sphere floor 20 in upper and lower layers. do. In the present invention, heating is performed to heat the Gudeul floor 20 by means of a heating wire 30 . Heating the Gudeul floor 20 can be said to heat the Gudeul room.

The gudeul floor 20 includes a floor layer 22, a heating movable layer 23, an insulating layer 24, and a plastering layer 25, and the heating wire 30 is provided in a plurality of upper and lower layers on the heating movable layer 23. are buried In the case of a multi-story building, the gudeul floor 20 becomes the slab of the downstairs room.

The bottom layer 22 is the lowest in the sphere bottom 20 . The floor layer 22 is a layer installed in the building (eg, Gudeulbang) construction area to form the lowest layer of the Gudeul floor 20 . The bottom layer 22 may be formed by installing a building material such as concrete mortar to a predetermined thickness and hardening it. A heat insulating layer 22HI is formed on the bottom layer 22 .

The heating movable layer 23 is formed above the bottom layer 22 . The heating movable layer 23 includes a heating layer 23A and a heat storage storage layer 23B formed on the bottom layer 22 . At this time, a heat insulating layer 22HI is formed between the heating movable layer 23 and the bottom layer 22 . The heating movable layer 23 includes a heating layer 23A and a heat storage layer 23B, and between the heat storage storage layer 23B and the bottom layer 22 at the bottom of the heat storage storage layer 23B of the plurality of layers. A heat insulating layer 22HI is formed. The heat insulating layer 22HI may be configured by laying a heat insulating material such as a heat insulating material on the bottom layer 22 at a predetermined height.

In the present invention, the insulating layer 24 is formed on the heating movable layer 23, the plastering layer 25 is formed on the insulating layer 24, and a plurality of heating wires 30 are embedded in the heating movable layer 23. It is characterized by being The heating layer 23A is composed of a plurality of layers, and a plurality of heating wires 30 are embedded in each of the plurality of heating layers 23A. One heating wire 30 is embedded in each of the plurality of heating layers 23A, so that the heating wire 30 of the plurality of layers is embedded in the movable heating layer 23 .

A heat storage layer 23B is disposed between the plurality of heat storage layers 23A, the heat storage layer 23B is composed of a plurality of layers, and a plurality of heat storage layers 23A and a plurality of heat storage layers ( 23B) is disposed above the bottom layer 22 . That is, it becomes a structure in which the heating movable layer 23 which consists of the heat storage storage layer 23B of multiple layers and the heat generating layer 23A of multiple layers is formed on the said bottom layer 22. As shown in FIG.

The heat storage layer 23B may be made of basalt. By laying basalt at a certain height, the heat storage layer 23B may be formed. In addition, the heating layer 23A may be formed by installing a heating material that transmits heat generated by the heating wire 30 well at a predetermined height.

The heating movable layer 23 includes a plurality of heat storage layers 23A and a plurality of heat storage layers 23B disposed on the bottom layer 22, and a heat storage layer between the plurality of heat storage layers 23A. The layers 23B are arranged one by one, and the insulating layer 24 is disposed between the uppermost heating layer 23A and the plastering layer 25 among the plurality of heating layers 23A. At this time, the insulating layer 24 is formed of loess. The insulating layer 24 can be formed by installing and curing liquid loess to a certain thickness.

The heating wire 30 is composed of an electric heating wire 30 that generates heat by electricity. Of course, the heating wire 30 may be composed of a hot water heating wire 30 through which hot water passes. As the heating wire 30 , any thing capable of generating heat can be employed. In the present invention, the heating wire 30 is mainly formed of an electric heating wire 30 . At this time, the hot wire 30 is composed of a plurality of straight hot wire parts 30A parallel to each other and a connection hot wire part 30B connecting the plurality of straight hot wire parts 30A, and the hot wire 30 is attached to the heating layer 23A. ) is buried.

The plastering layer 25 includes an ocher layer 25A and an oil layer 25B formed by applying oil on the loess layer 25A. At this time, oil is applied on the loess layer 25A to form an oil layer 25B, and oil is applied again to the upper loess layer 25A installed on the oil layer 25B to form an upper oil layer 25B, The loess layer (25A) and the oil layer (25B) are composed of at least two or more layers. That is, the plastering layer 25 may be composed of a plurality of loess layers 25A and a plurality of oil layers 25B. In the present invention, the loess layer 25A and the oil layer 25B may be composed of two to five layers. At this time, as the oil for forming the oil layer 25B, soybean oil is mainly used. That is, soybean oil may be applied on the loess layer 25A to form the oil layer 25B. When the oil layer 25B is applied and formed on the loess layer 25A, the splitting of the loess layer 25A is prevented and a strong plastering layer 25 can be formed, and the installation of the plastering layer 25 is also smooth. . The oil layer 25B is applied on the loess layer 25A so that the loess layer 25A is not split.

According to the present invention of the above configuration, when power for heating is supplied to the heating wire 30 (electricity is supplied in the case of the electric heating wire 30), the heating wire 30 generates heat, and the heating of the heating wire 30 is generated. It can be heated by heating the bottom 20 of the sphere with the heat generated by the At this time, in the heating layer 23A, the heat of the heating wire 30 is smoothly transferred to smoothly heat the bottom 20 of the ball, and in the heat storage layer 23B, the heat generated by the heating wire 30 Heat can be transferred to the heating layer 23A while being stored. The heat storage storage layer 23B mainly functions to store heat generated by the heating wire 30 .

The present invention improves energy efficiency while increasing the heat storage function by selecting a portion of the plurality of layers of heating wires 30 to generate heat or simultaneously heating the plurality of layers of heating wires 30 . In the present invention, the heating layer 23A is formed in a triple layer, and the heating wire 30 is buried one by one in the heating layer 23A of the triple layer, so that the heating wire 30 of the triple layer is located at the bottom 20 of the ball. The buried embodiment is shown, among the hot wires 30 of the triple layer, the lowermost hot wire 30 (that is, the hot wire 30 of the first floor) and the uppermost hot wire 30 (that is, the third layer) of the heating wire 30) is not moved, and only the central heating wire 30 (ie, the second-layer heating wire 30) may be operated or all of the triple-layered heating wire 30 may be operated.

The multiple heat storage spheres according to the present invention are implemented so that a lot of heat energy can stay for a long time by constructing the heat wire 30 in multiple layers, such as double or triple, to create a heat storage space between the heat wire 30 and the heat wire 30, so that energy saving and The heat storage function is improved. The heating layer 23A and the heat storage layer 23B forming the heating movable layer 23 are composed of a plurality of layers, and a heating wire 30 is buried in each of the plurality of heating layers 23A, such as a building such as Gudeulbang. When a person is away for a long period of time, by operating only the central heating wire 30 among the heating wires 30 of multiple floors, energy is saved and the floor 20 of the building is always heated to an appropriate temperature. Because it maintains, you can feel comfortable, and it does not take a long time to warm the gudeul bottom 20, so it is convenient to use. In other words, in the present invention, when the building (eg, Gudeulbang) is emptied for a long time, only the heating wire 30 embedded in the middle part among the heating wires 30 of the plurality of floors is continuously and continuously operated to constantly warm the gudeul floor 20 Therefore, if you live in Gudeulbang in a humid environment such as the rainy season, you can feel comfortable by removing a lot of moisture, and in a cold environment such as winter, you can operate all the heating wires 30 of multiple layers or use the necessary heating wires 30 By selecting and operating it, it is possible to quickly heat the gudeul floor 20 and live there, so there is no case of feeling the cold while the gudeul floor 20 is warming and it takes a relatively long time to warm the gudeul floor 20, which brings convenience can give At this time, it can be said that warming the Gudeul floor 20 is to heat the Gudeulbang.

In addition, when a person vacates a building (eg, Gudeulbang) for a long time, only the central heating wire 30 is operated to store heat by the heat storage unit while continuously transferring heat through the heating layer 23A, ), there is an effect of preventing the decrease in energy efficiency due to wastage of energy because there is no need to always use a heating device to heat the Gudeulbang, A case in which a difficult problem is caused can be prevented even in the management of a heating device and the like.

The present invention applies a construction method of burying the heating wire 30 in a plurality of layers in the bottom 20 of the sphere, so that heat energy generated from the heating wire 30 can be stored for a long time, thereby solving the problem of high heating costs. At this time, the heat storage layer 23B performs a heat storage function of confining the heat energy generated from the heat wire 30 for a long time.

Therefore, in the present invention, when constructing spheres with loess like traditional loess spheres and increasing the temperature by the heating wire 30, there is also a poultice effect by far infrared rays, and various useful effects of traditional ocher spheres (e.g., promotion of metabolism by emitting far infrared rays) effect) is also present.

In the present invention, different radiant heating effects can be seen by operating the heating wires 30 of each floor separately, and when heating is urgently needed, the heating wires 30 of each floor can be operated and used at the same time. By allowing the heating wire 30 of each floor to be operated separately, there is an effect of saving energy and different effects of radiant heating can be seen, and at the same time by selecting the heating wire 30 of the necessary layer Since it can be operated and used, it can be quickly heated in the cold winter, and there is an effect such as rapid moisture removal in the rainy season.

In addition, the present invention uses solar heat as a heat source for operating the heating wire 30 (that is, the heating wire 30 is an electric heating wire 30 and the electric heating wire 30 is connected to a solar cell and used) to generate electricity during the day By storing heat energy by storing heat in multiple heat storage electric devices (eg, heat storage device) as the energy to be used, and then slowly dissipating heat (slow heat dissipation from the heating wire 30) at night when power generation is not available, high efficiency that costs expensive It is an eco-friendly, energy-saving multi-heat storage electric appliance system that does not require battery storage.

On the other hand, according to another embodiment of the present invention, the heating wire 30 is embedded one by one for each heating layer 23A of the plurality of layers, so that the heating wire 30 of the plurality of layers is embedded in the heating movable layer 23, and a plurality of Among the heating wires 30 of the layer, the upper heating wire 30 and the lower heating wire 30 may be configured to intersect in a grid shape. In the case where the upper heating wire 30 and the lower heating wire 30 are arranged to intersect in a lattice shape among the plurality of layers of the heating wire 30 , the upper heating wire 30 and the lower heating wire 30 overlap each other this will arise At this time, the portion overlapping with each other in the upper heating wire 30 and the lower heating wire 30 is visible based on the plan view of the sphere bottom 20, and when viewing the sphere floor 20 in a longitudinal section, the upper heating wire ( 30) and the portions overlapping each other in the lower heating wire 30 are spaced apart from each other by a predetermined distance in the vertical direction.

In the present invention, the heating layer 23A is formed in a triple layer, and the heating wire 30 is buried one by one in the heating layer 23A of the triple layer, so that the heating wire 30 of the triple layer is located at the bottom 20 of the ball. The buried embodiment is shown, among the hot wires 30 of the triple layer, the lowermost hot wire 30 (that is, the hot wire 30 of the first floor) and the uppermost hot wire 30 (that is, the third layer) of the hot wire 30) are arranged side by side in the vertical direction (that is, the straight hot wire part 30A and the connecting hot wire part 30B of the first floor hot wire 30, and the straight hot wire part 30A of the third floor hot wire 30) ) and the connecting hot wire part 30B are arranged side by side in the vertical direction), and the central hot wire 30 (ie, the second layer hot wire 30) is the lowermost hot wire 30 and the uppermost hot wire 30 ) and the lattice-like arrangement (that is, the straight hot wire part 30A and the connecting hot wire part 30B of the hot wire 30 of the second layer are the straight hot wire part 30A of the hot wire 30 of the first floor and the connecting hot wire (arranged so as to intersect in a lattice form with respect to the part 30B and the linear hot wire part 30A and the connecting hot wire part 30B of the three-layer hot wire 30).

Therefore, in the present invention, in the case where the upper hot wire 30 and the lower hot wire 30 are arranged to intersect in a grid shape among the plurality of layers of the hot wire 30, the upper hot wire 30 and the lower hot wire 30 Since there is a portion overlapping each other in the overlapping portion of the plurality of layers of the heating wire 30, more heat energy is transferred in the overlapping portion, so the thermal energy efficiency of warming the sphere bottom 20 is further increased and the sphere floor 20 as a whole is more It has a uniform heating effect.

On the other hand, in the present invention, the plurality of heating wires 30 is composed of a heating wire 30 in the center disposed between the heating wire 30 of the lowermost layer and the heating wire 30 of the uppermost layer, and electricity generated by wind power or solar power generation. Heat is supplied to the central heating wire 30 to store heat, and when using a room in a building, electricity is supplied to the topmost heating wire 30 for efficient heating. When a person is vacant in a room of a building for a long time, electricity generated by wind power or solar power is supplied to the central heating wire 30 to store heat, and when using the room of the building, that is, in the room of the building When a person resides, electricity is supplied to the heating wire 30 of the uppermost floor to provide efficient heating. If you want to quickly heat the room of the building, electricity will be supplied to the heating wire 30 in the center and electricity may also be supplied to the heating wire 30 in the lowermost floor to generate heat. It is meaningful in that the heating wire 30 of the uppermost layer, the heating wire 30 in the center, or the heating wire 30 of the lowest layer can be selected and operated according to conditions.

In the above, specific embodiments of the present invention have been described above. However, the spirit and scope of the present invention is not limited to these specific embodiments, and various modifications and variations are possible within the scope that does not change the gist of the present invention. Anyone who has it will understand.

Therefore, since the embodiments described above are provided to fully inform those of ordinary skill in the art to which the present invention belongs the scope of the invention, it should be understood that they are exemplary in all respects and not limiting, The invention is only defined by the scope of the claims.

20. Gudeul bottom 22. Bottom layer
22HI. Insulation layer 23. Heating movable layer
23A. heating layer 23B. heat storage layer
24. Insulation layer 25. Plaster layer
25A. Loess layer 25B. oil layer
30. Hot wire 30A. straight hot wire
30B. connection hot wire

Claims (9)

Gudeul floor 20 constructed to form the floor of the building room;
A plurality of layers of heating wire 30 embedded in the upper and lower multi-layers in the sphere bottom 20;
It is configured to select a part from among the plurality of layers of the heating wire 30 to generate heat or to simultaneously heat the plurality of layers of the heating wire 30,
The sphere bottom 20 is,
the bottommost bottom layer 22;
a heat insulating layer (22HI) formed on the bottom layer (22);
a heating movable layer 23 formed above the heat insulating layer 22HI;
an insulating layer 24 formed on the heating movable layer 23;
and a plastering layer (25) formed on the insulating layer (24);
Each heating wire 30 is embedded in the heating movable layer 23 of a plurality of floors,
The heating movable layer 23 is configured to include a heating layer 23A and a heat storage storage layer 23B formed on the heat insulating layer 22HI on the bottom layer 22,
The heating layer 23A is composed of a plurality of layers, and the heating wire 30 is embedded in each of the plurality of layers of the heating layer 23A, respectively,
The heating wire 30 is embedded one by one for each of the plurality of layers of the heating layer 23A, so that the heating wire 30 of the plurality of layers is embedded in the heating movable layer 23,
Among the plurality of layers of the heating wire 30, the upper heating wire 30 and the lower heating wire 30 are arranged to cross each other in a lattice shape,
In the case where the upper heating wire 30 and the lower heating wire 30 are arranged to intersect in a lattice shape among the plurality of layers of the heating wire 30 , the upper heating wire 30 and the lower heating wire 30 overlap each other This occurs, when the bottom of the sphere 20 is viewed in a longitudinal section, the overlapping portions of the upper heating wire 30 and the lower heating wire 30 are configured to be spaced apart by a predetermined distance in the vertical direction. .
delete delete delete According to claim 1,
The heat storage layer 23B is disposed between the plurality of layers of the heating layer 23A, and the heat storage layer 23B is composed of a plurality of layers, and the plurality of layers of the heat storage layer 23A and the plurality of layers are provided. Multiple heat storage spheres, characterized in that a heat storage layer (23B) is disposed above the heat insulating layer (22HI) on the bottom layer (22).
6. The method of claim 5,
Multiple heat storage spheres, characterized in that the heat insulating layer (22HI) is disposed between the lowermost heating layer (23A) and the bottom layer (22) among the plurality of heating layers (23A).
According to claim 1,
The heating movable layer 23 includes a plurality of heating layers 23A and a plurality of heat storage storage layers 23B disposed above the heat insulating layer 22HI on the bottom layer 22, and a plurality of heating layers. A heat storage storage layer 23B is disposed one layer at a time between 23A, and the heat insulating layer 24 is disposed between the uppermost heat generating layer 23A and the plastering layer 25 among the plurality of heat generating layers 23A. Multiple heat storage spheres, characterized in that disposed.
According to claim 1,
The plastering layer 25 includes an ocher layer 25A and an oil layer 25B formed by applying oil on the loess layer 25A to prevent cracking of the loess layer 25A. spheres.
delete

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