KR101980296B1 - The radiant floor heating system for remodeling antiquated buildings and construction method for the same - Google Patents

Abstract

Disclosed are a floor heat radiation heating system for remodeling decrepit buildings and a construction method thereof. The floor heat radiation heating system for remodeling decrepit buildings according to the present invention comprises: a heat radiating body disposed at an upper portion of a finishing mortar of a floor of a decrepit building from which a conventional floor finishing material is removed; a heat storage unit disposed at an upper portion of the heat radiating body, and having a plurality of phase-change material cases in which a phase-change material is accommodated in order to store heat delivered by the heat radiating body; a metal board disposed at an upper portion of the heat storage unit, and heated by the heat discharged by the heat storage unit; and a floor finishing material disposed at an upper portion of the metal board.

Description

TECHNICAL FIELD [0001] The present invention relates to a floor heating system for remodeling old buildings, and a method of constructing the floor heating system.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a floor heating system for remodeling old buildings and a construction method thereof.

Existing apartment houses have been increasing the size of units by demolishing and rebuilding existing buildings. However, the method of rebuilding the apartment unit to increase the unit household area of the apartment unit can be degraded due to the overcrowding, and the housing environment can be poor, and the apartment unit is demolished and rebuilt earlier than the original lifetime of the building, resulting in waste of resources and unnecessary construction waste .

Recently, due to the above problems, the construction of remodeling a building instead of rebuilding a old apartment or old building has been newly issued due to the government 's policy support. Especially, the existing old-age buildings are expected to increase further in the future. Therefore, it is required to revitalize the urban renewal promotion and remodeling market in order to achieve the visible results of longevity and zero energy of the facilities.

Among old buildings, residential buildings account for 65.4% of the total, while non-residential buildings account for 34.6%. Therefore, it is necessary to select the residential building as a remodeling target first.

On the other hand, in the residential buildings, the energy utilization factor technology is divided into six major technologies such as heating, hot water (hot water), home appliance, kitchen (kitchen), cooling and lighting. Among the six technology factors, 44.2% is used in the heating sector, and the energy consumption is expected to increase further in light of the rapid decrease in the mid-term (spring and autumn) due to recent climate change. Therefore, The development of heating related technology is urgently required.

In particular, most of residential buildings in Korea use hot water floor heating system, so it is necessary to analyze remodeling structure to maximize structural, economic and energy saving performance.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a sectional view showing a floor radiant heating system of a residential building.

1, a bottom floor radiation heating system 10 of a residential building includes a concrete slab 11, a heat insulating material 12, a lightweight foamed concrete 13, a wire mesh and hot water pipe 14, and a closed mortar 15 And the floor finish 16 are sequentially installed.

However, in order to remodel the existing residential building, all parts except the concrete slab 11 must be removed, so that the construction period is increased and environmental pollution due to the generation of construction waste due to the removal of the existing floor structure is caused, And lightweight foamed concrete (13) and finished mortar (15).

In addition, since the floor heating system of residential buildings requires a large amount of hot water, the heat source equipment for hot water production is continuously operated and operated in an energy consuming structure.

Therefore, in order to remodel old residential buildings, there is a need to develop a new floor heating system that can shorten construction time, minimize construction waste, reduce initial costs, and reduce energy consumption .

Korean Registered Patent No. 10-1434132 (Announced 2014.08.26)

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a floor heating system for remodeling old buildings and a construction method thereof, which can reduce air, minimize construction waste, initial costs, and reduce energy in remodeling old buildings .

According to an aspect of the present invention, there is provided a floor heating system comprising: a heating body provided on an upper part of a finished mortar of a floor of a depreciated building from which an existing floor finishing material is removed; A heat storage unit provided on the heating element and including a plurality of phase change material cases accommodating the phase change material to store heat transferred from the heating element; A metal plate provided on the heat storage unit and heated by heat emitted from the heat storage unit; And a floor finishing material provided on the upper portion of the metal plate material may be provided.

The heat storage unit has a body portion on the upper surface of which the metal plate material is seated and flanges extending horizontally on opposite sides of the lower surface of the body portion and fixed to the upper surface of the closed mortar, Wherein the phase change material case may be disposed between adjacent frames.

The lower surface of the metal plate material may be in close contact with the upper surface of the phase change material case and may be seated on the upper surface of the body portion and fixed.

"형상으로 형성될 수 있다.The frame is made of an aluminum material,

Quot; shape.

The metal plate material may be made of an aluminum material.

The heating element may be an electric mat connected to an external power source device.

And a controller connected to the heating element to control the temperature and the ON / OFF operation of the heating element.

According to another aspect of the present invention, there is provided a method of manufacturing a floor structure, comprising: exposing a finished mortar by removing an existing floor finish provided on the floor of the old structure; Installing a heating element on the top of the finished mortar; Providing a heat storage unit having a plurality of phase change material cases accommodating a phase change material on an upper surface of the heating element to store heat transferred from the heating element; And installing a metal plate heated by heat emitted from the heat storage unit on an upper portion of the heat storage unit; And installing a floor finishing material on the top of the metal plate material.

Wherein the heat storage unit further includes a plurality of frames each having a body portion on the upper surface of which the metal plate is seated and a flange extending in the horizontal direction on both side portions of the lower surface of the body portion, Disposing the body part on top of the heating element and fixing a plurality of the flanges to the upper surface of the finishing mortar; And disposing the phase change material case between adjacent body portions.

The step of installing the metal plate material may include disposing the case of the phase change material between the adjacent body parts so that the lower surface of the metal plate is brought into close contact with the upper surface of the case of the phase change material, As shown in Fig.

The heating element is composed of an electric mat connected to an external power source device, and the heating element is connected to the control part so that temperature and on / off operation can be controlled.

The embodiment of the present invention can reduce the air and minimize the construction waste and the initial cost by constructing the floor radiation heating system in a state where only the floor finishing material is removed from the floor structure of the existing old structure and the rest is maintained.

In addition, the embodiment of the present invention does not require a large amount of hot water, so energy can be saved.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a sectional view showing a floor radiant heating system of a residential building.
2 is a cross-sectional view illustrating a floor heating system for remodeling old buildings according to the present invention.
3 is an exploded perspective view illustrating a floor heating system for remodeling old buildings according to the present invention.
4 is a partial cutaway view showing a floor heating system for remodeling old buildings according to the present invention.
5 is a flowchart showing a method of installing a floor heating system for remodeling a old building according to the present invention.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings. Like reference symbols in the drawings denote like elements.

FIG. 2 is an exploded perspective view showing a floor heating system for remodeling a old building according to the present invention, FIG. 3 is an exploded perspective view illustrating a floor heating system for remodeling a old structure according to the present invention, Fig. 6 is a partial cutaway view showing a floor radiant heating system for remodeling; Fig.

2 to 4, the floor heating system 100 for remodeling the old building according to the present invention includes a heating element 110 provided on the top of the finished mortar 15 on the bottom of the old building, A heat storage unit 130 provided at an upper portion of the heat storage unit 130 to store the heat transferred from the heat emission unit 130 and having a phase change material case 131 accommodating the phase change material, A metal plate 150 heated by the heat emitted from the metal plate 150 and a bottom finish 170 provided on the top of the metal plate 150.

In this embodiment, the heating element 110 stores the heat energy in the phase change material using cheap late night electricity, and utilizes the heat energy stored in the phase change material as heating energy during the weektime. To this end, the heating element 110 is composed of an electric mat connected to an external power source device (not shown).

Also, the heating element 110 can be connected to an external power supply device, and can be connected to a renewable energy system based on electric energy such as solar light and wind power, thereby saving energy.

In this embodiment, since the electric mats are used as the heating elements 110, it is possible to omit the existing hot water related equipments (for example, boilers, heat storage tanks, hot water pipes, pipes, etc.) It is easy to construct, and complicated control such as hot water system is unnecessary.

The floor heating system 100 for remodeling the old building according to the present invention further includes a control unit (not shown) connected to the heating element 110 to control the temperature and the on / off operation of the heating element 110 . The control unit controls the heating operation of the heating element 110 according to the set temperature set by the user and controls the on / off operation of the heating element 110 according to the set time set by the user so that the cheap nighttime electricity can be used. In this embodiment, a temperature sensor (not shown) may be provided adjacent to the heating element 110 to detect the temperature of the heating element 110.

The heat storage unit 130 according to the present embodiment includes a phase change material case 131 provided on the heating element 110 and containing a phase change material.

A phase change material (PCM) is a material whose phase changes according to a change in temperature. The phase change material has a characteristic of accumulating heat in a latent heat form when the phase changes. The latent heat can store and emit much more energy than the sensible heat. Due to this characteristic, when the phase change material is applied to the building, the heat energy is stored in advance from the heating element 110, Indoor heating can be performed without consumption. That is, even when the heating element 110 is heated by using low-cost night electricity and the heat energy transferred from the heating element 110 is stored in the phase change material and is used as heating energy during the weektime to heat all the day, Energy savings can be achieved in an innovative way.

Also, in this embodiment, since the phase change material may leak to the outside during the phase change process, the phase change material is used in the form of the received phase change material case 131.

The heat storage unit 130 according to the present exemplary embodiment may include a space for accommodating the phase change material case 131 between the heating element 110 and the metal plate 150, And further includes a frame 133. The plurality of frames 133 are arranged on the upper side of the heating body 110 in parallel with each other.

"형상으로 형성된다.The frame 133 includes a body part 134 and a flange 135 formed to extend in the horizontal direction at both sides of the lower surface of the body part 134. [ That is, the frame 133 according to the present embodiment is a "

Quot; shape.

The body portion 134 is elongated in the longitudinal direction and disposed above the heating element 110 in parallel with each other. And fixes the flange 135 formed on both sides of the lower surface of the body portion 134 to the upper surface of the closed mortar 15. As described above, the frames 133 are fixed to the upper surface of the closed mortar 15 side by side. The phase change material case 131 is disposed between the adjacent frames 133. And a metal plate 150 is seated on the upper surface of the body portion 134 and fixed.

The frame 133 according to the present embodiment is formed of a high strength aluminum material. Aluminum is lightweight, corrosion resistant and has high thermal conductivity, so it is easy to install and easy to maintain.

The metal plate 150 according to the present embodiment is seated and fixed on the upper surface of the body portion 134 of the frame 133 and the lower surface thereof is brought into close contact with the upper surface of the phase change material case 131. The metal plate 150 is made of a high strength aluminum material. The metal plate 150 is fixedly mounted on the upper surface of the body portion 134 of the frame 133 to realize the Ondol floor environment. Since aluminum has a high thermal conductivity, the entire metal plate 150 can be uniformly heated and maintained by the heat generated from the heating element 110 and the phase change material. Further, since the metal plate 150 made of aluminum is fixed to the upper surface of the body portion 134, the ondol floor environment can be easily realized, which is advantageous in that the construction is simple and the maintenance is easy.

The construction method of the floor heating system 100 for remodeling the old structure according to the present invention will be described as follows.

5 is a flowchart showing a method of installing a floor heating system for remodeling a old building according to the present invention.

Referring to FIG. 5, in the method of constructing the floor heating system 100 for remodeling the old building according to the present invention, the existing floor finishing material installed on the floor of the old building is removed to expose the finishing mortar 15 (S100).

As shown in FIG. 1, the existing old-floor floor radiation heating system 10 includes a concrete slab 11, a heat insulating material 12, a lightweight foamed concrete 13, a wire mesh and hot water pipe 14, and a closed mortar 15 And the floor finish 16 are sequentially installed. In this embodiment, the flooring finishing material 16 is removed to remodel the existing old-floor flooring radiation heating system to expose the finished mortar 15.

Then, a heating element 110 is installed on the upper portion of the closed mortar 15 (S200). As described above, in this embodiment, the heating element 110 is composed of an electric mat connected to an external power source.

A heat storage unit 130 is installed on the heating element 110 (S300). The heat storage unit 130 includes a phase change material case 131 containing a phase change material and a flange 135 formed to extend in the horizontal direction at both sides of the lower surface of the body portion 134 and the body portion 134 (Not shown).

Specifically, a plurality of frames 133 are arranged on the upper side of the heat emitting body 110 in parallel with each other. That is, the body portions 134, are arranged in parallel to each other on the top of the heating body 110. And fixes the flange 135 to the upper surface of the closed mortar 15. The phase change material case 131 is disposed between the adjacent body portions 134 in a state where the plurality of frames 133 are arranged on the upper side of the heat generating body 110 in parallel with each other.

A metal plate 150 heated by heat emitted from the heat storage unit 130 is installed on the heat storage unit 130 (S400).

The phase change material case 131 is disposed between the adjacent body parts 134 and the lower surface of the metal plate 150 is brought into close contact with the upper surface of the phase change material case 131, (134).

Then, a floor finish 170 is installed on the metal plate 150 (S500).

The floor heating system 100 for the remodeling of the old building according to the present invention constructs the floor heating system 100 in a state in which only the floor finishing material of the old structure is removed, The construction waste and initial costs can be minimized, and energy can be saved by using cheap late-night electricity without using a large amount of hot water for heating.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

100: floor radiation heating system 110: heating element
130: heat storage unit 131: phase change material case
133: frame 134:
135: flange 150: metal plate
170: Floor finish

Claims (11)

A heating element provided on the upper portion of the existing closed mortar exposed by removing the existing floor finishing material installed on the old building floor;
A heat storage unit having a plurality of case-change material cases provided in the upper portion of the heating element and containing a phase change material for storing heat transferred from the heating element;
A metal plate provided on the heat storage unit and heated by heat emitted from the phase change material case; And
And a bottom finishing material provided on an upper portion of the metal plate,
Wherein the heat storage unit comprises:
And a flange which is formed to extend horizontally on both sides of the lower surface of the body portion and which is fixed to the upper surface of the closed mortar, Lt; RTI ID = 0.0 > frame,
Wherein the heating element is disposed on the top of the closed mortar and is disposed between adjacent flanges,
Wherein the phase change material case is disposed on an upper portion of the heating element and disposed between the adjacent body portions,
Wherein the metal plate material is closely adhered to the upper surface of the case of the phase change material and is seated and fixed on the upper surface of the body portion.
The method according to claim 1,
The frame is made of an aluminum material,

"Floor radiating heating system for remodeling old buildings.
The method according to claim 1,
Wherein the metal plate material is made of an aluminum material.
The method according to claim 1,
Wherein the heating element comprises an electric mat connected to an external power supply unit.
The method according to claim 1,
And a controller connected to the heating element to control the temperature and the on / off operation of the heating element.
Exposing the existing finished mortar by removing the existing flooring material installed on the old building floor;
Installing a heating element on the top of the finished mortar;
Providing a heat storage unit having a plurality of phase change material cases accommodating a phase change material for storing heat transferred from the heating element on the heating element; And
Installing a metal plate heated by heat emitted from the phase change material case on an upper portion of the heat storage unit; And
And installing a floor finish on top of the metal plate,
Wherein the heat storage unit comprises:
Further comprising a plurality of frames disposed on the upper portion of the closed mortar and having flanges on the upper surface thereof and flanges extending in the horizontal direction on opposite sides of the lower surface of the body portion,
Wherein the step of installing the heat storage unit comprises:
Disposing the flanges adjacent to the heating element with the heating element interposed therebetween and fixing the flanges to the upper surface of the finishing mortar; And
And arranging the phase change material case on top of the heating element and between the adjacent body parts,
In the step of installing the metal plate,
A floor for remodeling an old structure in which the lower surface of the metal plate is brought into close contact with the upper surface of the case of the phase change material and the metal plate is fixed to the upper surface of the body part in a state where the phase change material case is disposed between adjacent body parts, Construction method of radiant heating system.
The method according to claim 6,
Wherein the heating element is composed of an electric mat connected to an external power source device,
Wherein the heating element is connected to a controller to control a temperature and an on-off operation of the floor heating system. delete delete delete delete

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