KR102319053B1 - Floor system using Electric and/or hot water and construction method thereof - Google Patents

Abstract

The disclosed technology relates to a flooring system using electricity and/or hot water and a construction method thereof, and a first groove portion 110 for accommodating a hot water pipe in the upper portion, and parallel to the left and right sides with respect to the first groove portion 110, respectively. The flat plate portion 140 and the first groove portion 110 having second and third groove portions 120 and 130 formed to a lower plate 100 having a support part 150 formed in a space between the plurality of flat plate parts 140 to support the accelerator pipe when the accelerator pipe is received; and an upper plate 200 having first and second protrusions 220 and 230 fitted to the second and third groove portions 120 and 130 of the lower plate 100 formed thereunder. In the embodiment of the present invention, construction is possible without the foamed concrete and pipe installation on the upper surface of the slab, the concrete mortar process covering the hot water pipe (concrete foam mortar of about 9 cm), etc. This can significantly reduce costs, light weight, and construction period.

Description

Floor system using Electric and/or hot water and construction method thereof

The present invention relates to a flooring system using electricity and/or hot water and a method of constructing the same, and it is possible to facilitate heating by hot water and/or electricity, or a pipe through which hot water flows, and an electric flat carbon heating element It relates to a flooring system using electricity and/or hot water that can be easily installed and a method of constructing the same.

In general, in order to heat a home, it is necessary to install a boiler.

Most boilers use wet piping, and in the existing wet piping, the foundation concrete is poured on the floor, that is, the slab structure, then cured for a certain period of time and hardened. After that, mortar work to level the top so that it is flat.

Then, when the concrete is completely hardened, a separate finishing work such as reinforced flooring is performed on the upper surface to complete the heating work.

However, the existing wet heating construction has a problem in that it takes a lot of construction time and cost.

In addition, in the case of partial damage to the existing wet heating system, the entire floor must be replaced or reconstructed.

Therefore, the existing method has a problem in that it takes a lot of construction time and cost even in case of partial damage. 13 is a photograph showing in detail the problems of the conventional wet process.

Domestic patent application 10-2003-43476 Domestic utility model registration application 20-1993-2363

The technical problem to be achieved by the present invention is to solve the conventional problems, and the construction can be done without the foam concrete and pipe installation on the upper surface of the slab, and the concrete mortar process (about 9 centimeters of concrete foam mortar) covering the hot water pipe. An object of the present invention is to provide a flooring system using electricity and/or hot water that can reduce the overall load and height of an aggregation building with many floors, thereby reducing the weight of the building and significantly shortening the construction period, and a construction method thereof.

In addition, the technical problem to be achieved by the present invention is to solve the conventional problem, and when the floor is partially damaged and the floor needs to be exchanged or replaced, only the damaged upper plate can be easily separated from the lower plate and only the damaged part can be easily replaced. and/or to provide a flooring system using hot water and a method for constructing the same.

In addition, the technical problem to be achieved by the present invention is to solve the conventional problem, and it is simple by installing a lower plate to install a heating pipe, inserting a heating water pipe into the central groove of the lower plate, and fitting the upper plate to the upper groove. In order to ensure that the construction is completely completed without additional processes as in the prior art, and heating is performed even when the heating water pipe is not used, a flat carbon heating plate is adhered to the upper part of the lower plate, connected to electricity, and then the upper plate is inserted. It is an object to provide a hybrid type flooring system using electricity and/or hot water that can also be heated by a floor system and a construction method thereof.

In addition, the technical problem to be achieved by the present invention is to solve the conventional problem, and by using a magnesium board having an excellent thermal insulation function under the lower plate, the electric and / Alternatively, to provide a flooring system using hot water and a method for constructing the same.

In addition, the technical problem to be achieved by the present invention is to solve the conventional problem, and the top plate is manufactured using a resin such as PVC instead of wood (plywood, wood powder) that does not transfer heat such as reinforced flooring, so that heat transfer is fast even at low temperatures. It is to provide a flooring system using electricity and/or hot water that can be heated quickly and is not decomposed because it is not made of wood and is excellent in indoor environment and durability, and a construction method thereof.

In addition, as described above, the present invention is useful in various aspects such as cost, required time, efficiency, and prevention of environmental pollution in the construction method, and can obtain great effects.

A flooring system according to one aspect of the present invention for solving these technical problems,

A first groove portion 110 for accommodating a hot water pipe in an upper portion, and second and third groove portions 120 and 130 respectively formed in parallel on the left and right sides based on the first groove portion 110, A flat plate portion 140 formed to protrude flat in a predetermined shape in the space between the first groove portions 110, and between the plurality of flat portion 140 to support the accelerator pipe when the accelerator pipe is accommodated in the first groove portion 110 a lower plate 100 having a support 150 formed in the space;

and an upper plate 200 having first and second protrusions 220 and 230 fitted into the second and third grooves 120 and 130 of the lower plate 100 , formed thereunder.

a flat board 300 formed under the lower plate 100;

It further includes a flat heat insulating material 400 formed under the board 300 .

The board 300 is characterized in that it blocks the thermal bridge phenomenon in which heat flows to the slab by using the magnesium board 300 having an excellent thermal insulation function.

The upper plate 200 is characterized in that the heat of the lower plate 100 is conducted by using a resin material including PVC.

A method of constructing a flooring system according to one aspect of the present invention for solving these technical problems,

Installing the insulation 400 on the building slab;

installing a board 300 on the insulating material 400;

installing a lower plate 100 on the board 300;

installing a hot water pipe in the upper first groove part 110 of the lower plate 100;

Installing the upper plate 200 by inserting the first and second protrusions 220 and 230 of the upper plate 200 into the upper second and third grooves 120 and 130 of the lower plate 100 in an interference fit method. include

A method of constructing a flooring system according to another aspect of the present invention for solving these technical problems,

Installing the insulation 400 on the building slab;

installing a board 300 on the insulating material 400;

installing a lower plate 100 on the board 300;

installing a carbon heating element 500 on the lower plate 100; and

Installing the upper plate 200 by inserting the first and second protrusions 220 and 230 of the upper plate 200 into the upper second and third grooves 120 and 130 of the lower plate 100 in an interference fit method;

includes

Embodiments of the disclosed technology may have effects including the following advantages. However, since it does not mean that the embodiments of the disclosed technology should include all of them, it should not be understood that the scope of the disclosed technology is limited thereby.

In the embodiment of the present invention, construction is possible without the foamed concrete and pipe installation on the upper surface of the slab, the concrete mortar process covering the hot water pipe (concrete foam mortar of about 9 cm), etc. It is possible to provide a flooring system using electricity and/or hot water, which can reduce the weight of the building and significantly shorten the construction period, and a construction method thereof.

In addition, in the embodiment of the present invention, when the floor is partially damaged and the floor needs to be exchanged or replaced, only the damaged upper plate is easily separated from the lower plate and only the damaged part can be easily replaced. A flooring system using electricity and/or hot water and its Construction methods can be provided.

In addition, in the embodiment of the present invention, by installing the lower plate to install the heating pipe, inserting the heating water pipe into the central groove of the lower plate, and fitting the upper plate to the upper groove, the construction is simply completed without additional process, A hybrid method that can be heated even by electricity by attaching a flat carbon heating plate to the upper part of the lower plate, connecting the electricity, and then inserting the upper plate so that heating is performed even when the heating water pipe is not used. / or to provide a flooring system using hot water and a construction method thereof.

In addition, in an embodiment of the present invention, a flooring system using electricity and/or hot water that reduces the overall load compared to the overall heavy load when the existing wet method has a large concrete pouring load and becomes several tens of floors, and a method for its construction. can

In addition, in the embodiment of the present invention, while the existing construction requires pouring work, the present invention simply fits the upper plate to the lower plate so that the work is completely completed without additional processes as in the prior art, so the height of the block for heating is reduced, Specifically, it is possible to provide a flooring system using electricity and/or hot water and a method for constructing the same, which can be reduced by about 10 cm per floor, and can be increased by about 3 m on the back side in the case of a 30-story building.

In addition, in an embodiment of the present invention, a flooring system using electricity and/or hot water to reduce heat loss by blocking a thermal bridge phenomenon in which heat flows to the floor or slab by using a magnesium board having an excellent thermal insulation function under the lower plate, and a method for its construction can provide

In addition, in the embodiment of the present invention, the top plate is also manufactured using a resin such as PVC, not wood (plywood, wood powder), which does not transfer heat such as reinforced flooring. It is possible to provide a flooring system using electricity and/or hot water and a method for constructing the same, which is not decomposed and is excellent in indoor environment and durability.

1 is a view showing a lower plate applied to a flooring system using electricity and/or hot water according to an embodiment of the present invention.
2 is a view showing a side surface of a lower plate applied to a flooring system using electricity and/or hot water according to an embodiment of the present invention.
3 is a view showing a top plate applied to a flooring system using electricity and/or hot water according to an embodiment of the present invention.
4 is a view showing a bottom surface of a top plate applied to a flooring system using electricity and/or hot water according to an embodiment of the present invention.
5 is a diagram illustrating a board applied to a flooring system using electricity and/or hot water according to an embodiment of the present invention.
6 is a view showing an insulating material applied to a flooring system using electricity and/or hot water according to an embodiment of the present invention.
7 is an exploded perspective view of a flooring system using electricity and/or hot water according to an embodiment of the present invention.
8 is an exploded perspective view of a flooring system using electricity and/or hot water according to another embodiment of the present invention.
9 is a view showing an example in which the floor system using electricity and/or hot water according to an embodiment of the present invention is actually applied to a hot water pipe.
10 and 11 are views showing details of the fitting of the upper plate and the lower plate according to an embodiment of the present invention.
12 is a view showing in detail the material or characteristics of the upper plate of the present invention.
13 is a photograph showing in detail the problems of the conventional wet construction method.

Since the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

Terms such as first, second, A, B, etc. may be used to describe various components, but the components are not limited by the above terms, and only for the purpose of distinguishing one component from other components. used only as For example, without departing from the scope of the present invention, a first component may be referred to as a second component, and similarly, a second component may also be referred to as a first component. and/or includes a combination of a plurality of related listed items or any of a plurality of related listed items.

A singular expression in terms used herein should be understood to include a plural expression unless the context clearly dictates otherwise. And terms such as “comprising” mean that there is a specified feature, number, step, operation, component, part, or a combination thereof, but one or more other features or number, step operation component, part It is to be understood that this does not exclude the possibility of the presence or addition of or combinations thereof.

Prior to a detailed description of the drawings, it is intended to clarify that the classification of the constituent parts in the present specification is merely a division according to the main function that each constituent unit is responsible for. That is, two or more components to be described below may be combined into one component, or one component may be divided into two or more for each more subdivided function.

In addition, each of the constituent units to be described below may additionally perform some or all of the functions of other constituent units in addition to the main function it is responsible for. Of course, it may be carried out by being dedicated to it. Accordingly, the existence or non-existence of each component described through the present specification should be interpreted functionally.

1 is a view showing a lower plate applied to a flooring system using electricity and/or hot water according to an embodiment of the present invention.

2 is a view showing a side surface of a lower plate applied to a flooring system using electricity and/or hot water according to an embodiment of the present invention.

3 is a view showing a top plate applied to a flooring system using electricity and/or hot water according to an embodiment of the present invention.

4 is a view showing a bottom surface of a top plate applied to a flooring system using electricity and/or hot water according to an embodiment of the present invention.

5 is a diagram illustrating a board applied to a flooring system using electricity and/or hot water according to an embodiment of the present invention.

6 is a view showing an insulating material applied to a flooring system using electricity and/or hot water according to an embodiment of the present invention.

7 is an exploded perspective view of a flooring system using electricity and/or hot water according to an embodiment of the present invention.

8 is an exploded perspective view of a flooring system using electricity and/or hot water according to another embodiment of the present invention.

9 is a view showing an example in which the floor system using electricity and/or hot water according to an embodiment of the present invention is actually applied to a hot water pipe.

10 and 11 are views showing details of the fitting of the upper plate and the lower plate according to an embodiment of the present invention.

12 is a view showing in detail the material or characteristics of the upper plate of the present invention.

1 to 8 , a flooring system according to an embodiment of the present invention includes:

A first groove portion 110 for accommodating a hot water pipe in an upper portion, and second and third groove portions 120 and 130 respectively formed in parallel on the left and right sides based on the first groove portion 110, A flat plate portion 140 formed to protrude flat in a predetermined shape in the space between the first groove portions 110, and between the plurality of flat portion 140 to support the accelerator pipe when the accelerator pipe is accommodated in the first groove portion 110 a lower plate 100 having a support 150 formed in the space;

and an upper plate 200 having first and second protrusions 220 and 230 fitted into the second and third grooves 120 and 130 of the lower plate 100 , formed thereunder.

a flat board 300 formed under the lower plate 100;

It further includes a flat heat insulating material 400 formed under the board 300 .

The board 300 is characterized in that it blocks the thermal bridge phenomenon in which heat flows to the slab by using the magnesium board 300 having an excellent thermal insulation function.

The upper plate 200 is characterized in that the heat of the lower plate 100 is conducted by using a resin material including PVC.

In an embodiment of the present invention, heating can be easily used even with electricity without installation of a hot water pipe, or a pipe through which hot water flows can be conveniently installed.

In the present invention, heating facilities can be conveniently used in various different environments, and since it is an integrated structure that does not require additional work such as a separate upper finishing work, that is, monorium and reinforced flooring, easy construction, cost reduction, and construction period are greatly shortened make it short

7 to 12, the present invention provides a floor-shaped upper plate 200 and a lower plate 100 of a structure that can easily install a facility using hot water circulation piping or electricity (carbon heating plate 500) and heating heat It is composed of a heat insulating material 400 that prevents flow through the floor to the outside.

The upper plate 200 has a floor shape in which various patterns such as wood or marble shapes are expressed, and the lower part has first and second protrusions 220 and 230 in the form of protruding wedges that are stably fixed to the lower plate 100 . It is formed in the shape of (ㅠ).

In the lower plate 100, a planar carbon heating element 500 is installed or a hot water pipe is easily installed in a hot water pipe interlocking groove.

By forcibly fitting the first and second protrusions 220 and 230 on the back surface of the floor-shaped upper plate 200 into the second and third grooves 120 and 130 of the structure of the lower plate 100, all finishing is completed and a separate finish Construction, that is, the construction process such as reinforced flooring or monorium, is eliminated, reducing construction costs and improving work efficiency (shortening period) of heating construction.

The construction method of the flooring system according to the characteristics of the present invention will be described with reference to FIG. 7 as follows.

First, clean the floor to be constructed, and then perform the foundation work to level the floor. If necessary, a slab can be formed to perform flat work.

Then, the insulation 400 is installed on a flat floor or building slab. That is, after constructing all the basic floor plates to be a flat floor so that the width and length coincide with each other, the insulation 400 is constructed so that the floor plate does not lift from the floor.

Then, the board 300 is installed on the insulating material 400 . That is, the magnesium board 300 with a thickness of 10 to 12 mm is covered on the insulating material 400 and fixed with the slab floor and concrete taka or adhered with an eco-friendly bond so as not to float.

The lower plate 100 is sequentially installed on the board 300 , and in particular, it is fixed with the magnesium board 300 as a piece for fixing the floor lower plate 100 .

Then, a hot water pipe is installed in the upper first groove part 110 of the lower plate 100 .

In particular, when using a heating hot water boiler, a hot water pipe is inserted into the first groove part 110 of the lower plate 100 to install the heating pipe for each room, and then is used in connection with the distributor of the boiler. At this time, a state in which the hot water pipe 600 is actually connected to the lower plate 100 is illustrated in FIG. 9 . Here, since the boiler connection method is well known in this field, a detailed description thereof will be omitted.

Then, the upper plate 200 is installed by inserting the first and second protrusions 220 and 230 of the upper plate 200 into the upper second and third grooves 120 and 130 of the lower plate 100 in an interference fit method. do. That is, when the work of the lower plate 100 is finished, the first and second protrusions 220 and 230 of the floor-shaped upper plate 200 are placed in the upper second and third grooves 120 and 130 of the lower plate 100 in order. Cover it up and put it on to finish.

If necessary, heating using a carbon heating element 500 (planar heating element) rather than a heating hot water pipe is also possible, which will be described with reference to FIG. 8 .

First, clean the floor to be constructed and then perform the foundation work to level the floor. If necessary, a slab can be formed to perform flat work.

Then, the insulation 400 is installed on a flat floor or building slab. That is, after constructing all the basic floor plates to be a flat floor so that the width and length coincide with each other, the insulation 400 is constructed so that the floor plate does not lift from the floor.

Then, the board 300 is installed on the insulating material 400 . That is, the magnesium board 300 with a thickness of 10 to 12 mm is covered on the insulating material 400 and fixed with the slab floor and concrete taka or adhered with an eco-friendly bond so as not to float.

The lower plate 100 is installed on the board 300 , and in particular, it is fixed with the magnesium board 300 as a piece for fixing the floor lower plate 100 .

Then, the carbon heating element 500 is installed on the lower plate 100 . In particular, when heating using electricity, the carbon heating element 500 (planar heating element) is connected to the + wire and the - wire by line to install the flat carbon heating element 500 .

Here, the electric connection method of the carbon heating element is well known in the art, so a detailed description thereof will be omitted.

Then, the upper plate 200 is installed by inserting the first and second protrusions 220 and 230 of the upper plate 200 into the upper second and third grooves 120 and 130 of the lower plate 100 in an interference fit method. do. That is, when the work of the lower plate 100 is finished, the first and second protrusions 220 and 230 of the floor-shaped upper plate 200 are placed in the upper second and third grooves 120 and 130 of the lower plate 100 in order. Cover it up and put it on to finish.

If necessary, in the embodiment of the present invention, it is also possible to apply a heating pipe and a carbon heating plate at the same time, in this case, quick heating is possible, and even when one method is unavailable, a hybrid method of heating in another method is possible.

In the embodiment of the present invention, construction is possible without the foamed concrete and pipe installation on the upper surface of the slab, the concrete mortar process covering the hot water pipe (concrete foam mortar of about 9 cm), etc. This can reduce the weight of the building and significantly shorten the construction period.

In addition, in the embodiment of the present invention, when the floor is partially damaged and replacement or replacement of the floor is required, only the damaged upper plate 200 can be easily separated from the lower plate 100 to easily replace only the damaged part.

In addition, in the embodiment of the present invention, the construction is simply completed by installing the lower plate to install the heating pipe, inserting the heating water pipe into the central groove of the lower plate, and fitting the upper plate 200 to the upper groove, and heating When the water pipe is not used, the construction can be completed simply by attaching the carbon heating plate to the upper part of the lower plate, connecting the electricity, and then inserting the upper plate 200 .

In addition, in the embodiment of the present invention, it is possible to reduce heat loss by blocking the thermal bridge phenomenon in which heat flows to the floor or slab by using the magnesium board 300 having an excellent thermal insulation function under the lower plate.

In addition, in the embodiment of the present invention, the upper plate is also manufactured using a resin such as PVC, not wood (plywood, wood powder), which does not transfer heat, such as reinforced flooring, so that heat transfer is fast. It does not decay and is excellent in indoor environment and durability. 12 shows the material and characteristics of the upper plate in detail.

In addition, in the embodiment of the present invention, when the conventional wet method has a large concrete pouring load and becomes several tens of layers, the overall load may be reduced while a huge load is applied overall.

In addition, in the embodiment of the present invention, compared to the existing construction that requires pouring work, the work is finished by simply fitting the upper plate to the lower plate, so the height of the block for heating is reduced, specifically, about 10 cm per floor is reduced, In the case of the back side, the height can be reduced by about 3 m, so it can be raised further.

The above-described one embodiment has been described with reference to the embodiment shown in the drawings for better understanding, but this is only exemplary, and that various modifications and equivalent other embodiments are possible therefrom by those of ordinary skill in the art. will understand the point. Accordingly, the true technical protection scope of the disclosed technology should be defined by the appended claims.

Claims (7)

A first groove portion 110 for accommodating a hot water pipe in an upper portion, and second and third groove portions 120 and 130 respectively formed in parallel on the left and right sides based on the first groove portion 110, A flat plate portion 140 formed to protrude flat in a predetermined shape in the space between the first groove portions 110, and between the plurality of flat portion 140 to support the accelerator pipe when the accelerator pipe is accommodated in the first groove portion 110 a lower plate 100 having a support 150 formed in the space; and
an upper plate 200 having first and second protrusions 220 and 230 fitted to the second and third groove portions 120 and 130 of the lower plate 100 formed thereunder;
including,
a flat board 300 formed under the lower plate 100; and
It further comprises;
The board 300 blocks the thermal bridge phenomenon in which heat flows to the slab by using the magnesium board 300 having excellent thermal insulation function,
The upper plate 200 is characterized in that the heat of the lower plate 100 is conducted by using a resin material including PVC,
It is characterized in that the carbon heating element 500 is installed on the upper part of the lower plate 100,
The upper plate 200 has a floor shape in which a wood or marble pattern is expressed, and the lower part has first and second protrusions 220 and 230 in the form of protruding wedges that are stably fixed to the lower plate 100 . It is characterized in that it is formed in a (ㅠ) shape,
Covering the magnesium board 300 with a thickness of 10 to 12 mm on the insulating material 400 and fixing the slab floor with a concrete taka or attaching it with an eco-friendly bond so as not to float
floor system. delete delete delete delete delete Installing the insulation 400 on the building slab;
installing a board 300 on the insulating material 400;
installing a lower plate 100 on the board 300;
installing a hot water pipe in the upper first groove part 110 of the lower plate 100;
installing a carbon heating element 500 on the lower plate 100; and
Installing the upper plate 200 by inserting the first and second protrusions 220 and 230 of the upper plate 200 into the upper second and third grooves 120 and 130 of the lower plate 100 in an interference fit method; including,
The upper plate 200 has a floor shape in which a wood or marble pattern is expressed, and the lower part has first and second protrusions 220 and 230 in the form of protruding wedges that are stably fixed to the lower plate 100 . It is characterized in that it is formed in a (ㅠ) shape,
The step of installing the board 300 on the insulation 400 is,
Covering the magnesium board 300 with a thickness of 10 to 12 mm on the insulating material 400 and fixing the slab floor with a concrete taka or attaching it with an eco-friendly bond so as not to float,
Methods of construction of the floor system.

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