KR102647001B1 - Building wall insulation device - Google Patents

Abstract

In the present invention, the back of a square case of the same size as the wall to be constructed is adhered to the wall with an adhesive, a water tank filled with water is provided in the basement of the case, and the water filled in the water tank is pumped to form the square case. It relates to a wall insulation device for a building and a wall insulation construction method for a building, which insulate the wall surface to be constructed by flowing pumped water through pipes provided inside. The indoor wall insulation device for the building includes: One side is fixed with an adhesive layer (15), has a receiving space inside, has the same area as the indoor wall, and its interior is filled with air to function to block the movement of cold or heat transmitted from the indoor wall. The structure includes a square case (11) in which a main body (111) with a receiving space and a cover (112) with irregularities fitted to the main body (111) are joined by bolt fastening; a water tank (12) filled with water (121) located underground on the wall; A pump (13) that pumps the water (121) of the water tank (12) using electrical energy; A pipe 14 connected to the pump 13 and providing a path through which the water 121 of the water tank 12 flows; The pipe 14 is characterized in that it is installed inside the square case 11.

Description

Building wall insulation device

The present invention relates to a wall insulation device for a building, and more specifically, the back of a square case of the same size as the wall to be constructed is bonded to the wall with an adhesive, and a water tank filled with water is provided in the basement of the case. , relates to a wall insulation device for a building that insulates the wall to be constructed by pumping water filled in a water tank and flowing the pumped water through a pipe provided inside the square case.

Let us take a look at the prior art in this field.

According to Registration No. 10-0632270 (Concrete wall insulation construction method and its structure), "In constructing insulation on a concrete wall, insulation construction of a concrete wall with a rough surface and a recessed groove is formed on one side of the insulation adjacent to the wall. It relates to the method and its structure.

It is provided with an insulating material attached to the concrete wall with a gypsum bond or adhesive, a double-sided tape integrally attached to the back of the insulating material attached to the concrete wall at a certain interval, and an interior finishing material attached to the surface of the insulating material with the double-sided tape adhesive. And

Accordingly, the adhesion to the wall is increased by providing a construction method that forms a rough surface and a recessed groove on one side of the insulation material adjacent to the concrete wall, and the production cost is reduced by replacing the sand used conventionally, and the sand is sprinkled and leveled to a certain thickness. Working time is shortened by eliminating the process, and the amount of plaster bond or adhesive used can be reduced by applying gypsum bond or adhesive to the insulation material by partially applying it and adhering to the required area rather than covering the entire surface. and an insulation construction method and structure for a concrete wall that can be easily installed even by highly skilled workers due to easy horizontal adjustment."

Registration number 10-0632270 (concrete wall insulation construction method and its structure)

However, the conventional insulation construction method is limited to applying insulation material thickly to the wall, so in buildings such as pensions that are occasionally heated or not heated in the off-season, the indoor temperature drops below zero during the very cold winter, so furniture placed indoors is not used. Damage from freezing and damage to electronic products is increasing.

In addition, when the building manager operates the boiler in away mode to prevent freezing, the heating cost by kerosene or LPG rather than city gas increases rapidly, and there is a problem of increasing the management cost of the building because there are no or few guests.

The present invention is intended to solve the above-mentioned problems, and in order to effectively insulate the wall of a building even in hot summer or cold winter, the wall is provided with a square case filled with air, and piping is arranged inside this square case. The purpose is to provide a wall insulation device for a building that allows underground water to flow through this pipe.

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The present invention for achieving the above object is an indoor wall insulation device of a building, one side of which is fixed to the indoor wall with an adhesive layer (15), an accommodating space therein, and an area equal to that of the indoor wall, the interior of which is fixed to the indoor wall with an adhesive layer 15. It is filled with air and performs the function of blocking the movement of cold or heat transmitted from the indoor wall, and its structure consists of a main body 111 with a receiving space formed and a cover 112 with irregularities that are fitted into the main body 111. ) a square case (11) joined by bolt fastening; a water tank (12) filled with water (121) located underground on the wall; A pump (13) that pumps the water (121) of the water tank (12) using electrical energy; A pipe 14 connected to the pump 13 and providing a path through which the water 121 of the water tank 12 flows; The pipe 14 is characterized in that it is installed inside the square case 11.

In the embodiment, the pipe 14 is fixed to the square case 11 and the wall by fastening anchor bolts to the holes provided on both sides of the pipe fixing bracket 16, and is connected to the water intake pipe 141, 1 vertical pipe (142), first inclined pipe (143), second vertical pipe (144), second inclined pipe (145), third vertical pipe (146), third inclined pipe (147), fourth vertical pipe The pipe 148 and the water outlet pipe 149 are connected in series.

Another feature of the present invention is a method of constructing wall insulation of a building using a wall insulation device, which includes step S11 of installing a water tank 12 in the basement below the wall to be insulated; Step S12 of adhering a square case (11) having the same area as the wall surface to the wall surface with an adhesive layer (15); Inlet pipe (141), first vertical pipe (142), first inclined pipe (143), second vertical pipe (144), second inclined pipe (145), third vertical pipe (146), third inclined pipe Step S13 of connecting (147), the fourth vertical pipe (148), and the water outlet pipe (149) in series; Insert anchor bolts into the holes on both sides of the pipe fixing bracket 16 in the square case 11 to secure each of the pipes 141, 142, 143, 144, 145, 146, 147 (147). 148) Fastening (149) to be fixed to the square case (11) and the wall, and connecting the pump (13) to the water intake pipe (141) and the first vertical pipe (142) to install it at a designated location. S14; Step S15 of maximizing the insulation effect by sealing the inside of the square case 11 and preventing air flow between the inside and outside of the square case 11; By supplying power to the pump 13 to pump the water 121 of the water tank 12, the water intake pipe 141, the first vertical pipe 142, the first inclined pipe 143, and the second vertical pipe (144), flowing to the second inclined pipe (145), third vertical pipe (146), third inclined pipe (147), fourth vertical pipe (148), and water outlet pipe (149), inside the square case (11) It includes step S16 of controlling the temperature.

According to the preferred effect of the present invention, the wall surface of the building can be insulated very effectively due to the insulation performance of the thick air layer and the effect of maintaining the air layer at room temperature by groundwater even in the cold winter or hot summer. It has the advantage of increasing the durability of buildings built in remote areas and lowering maintenance costs.

Figure 1 is a cross-sectional view illustrating a wall insulation device according to the present invention as seen from the front.
Figure 2 is a cross-sectional view illustrating a wall insulation device according to the present invention as seen from the side.
Figure 3 is a perspective view illustrating the appearance of the pipe fixing bracket in the wall insulation device according to the present invention.
Figure 4 is a flow chart illustrating the wall insulation construction method according to the present invention.
Figure 5 is a cross-sectional view illustrating the square case of the wall insulation device according to the present invention as seen from above.

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Hereinafter, the present invention will be described in detail with reference to the attached drawings.
Figure 1 is a cross-sectional view illustrating a wall insulation device according to the present invention viewed from the front, Figure 2 is a cross-sectional view illustrating a wall insulation device according to the present invention viewed from the side, and Figure 3 is a wall insulation device according to the present invention. It is a perspective view illustrating a pipe fixing bracket in an insulation device, and Figure 5 is a cross-sectional view illustrating a cross section of the square case of the wall insulation device according to the present invention as seen from above.

Referring to FIGS. 1, 2, 3, and 5, one side is fixed to the indoor wall with an adhesive layer 15, has a receiving space therein, has the same area as the indoor wall, and is filled with air. A square case (11) is provided to block the movement of cold or heat transmitted from the indoor wall.

At this time, the square case 11 is composed of a main body 111 with a receiving space formed as shown in FIG. 5 and a cover 112 with irregularities that fit into the main body 111, and the main body 111 and the It is preferable to connect the cover 112 by bolting for future maintenance of pipes, etc.

In addition, a water tank 12 filled with water 121 is provided in the basement of the wall, and a pump 13 is provided for pumping the water 121 of the water tank 12 using electrical energy, A pipe 14 is connected to the pump 13 and provides a path through which the water 121 of the water tank 12 flows. At this time, the pipe 14 is installed inside the square case 11. Let us look at this pipe 14 in more detail with reference to FIG. 1.
The pipe 14 is installed inside the square case 11, and is fixed to the square case 11 and the wall by fastening anchor bolts in the holes provided on both sides of the pipe fixing bracket 16. A water intake pipe 141 in contact with the lowest part of the water tank 12, the other end of which is connected to the pump 13 to collect water from the lowest part of the water tank 12, and formed in the shape of an inverted letter (L), One end is connected to the pump 13, and the other end is connected to the first vertical pipe 142 vertically to the top of the square case 11, and is obliquely connected to the first vertical pipe 142 to allow groundwater to flow due to gravity. A first inclined pipe 143 that allows groundwater to flow naturally through a natural flow, a second vertical pipe 144 connected perpendicularly to the first inclined pipe 143 to allow groundwater to flow naturally by gravity, and a second vertical pipe 144 ) and a second inclined pipe 145 that is obliquely connected to allow groundwater to flow naturally by gravity, and a third vertical pipe (146) connected perpendicularly to the second inclined pipe 145 to allow groundwater to flow naturally by gravity. ), a third inclined pipe 147 that is obliquely connected to the third vertical pipe 146 so that groundwater flows naturally by gravity, and is vertically connected to the third inclined pipe 147 so that groundwater flows naturally by gravity. A fourth vertical pipe 148 is connected in series to allow the water to flow, and a water outlet pipe 149 is connected to the fourth vertical pipe 148 at an angle so that groundwater naturally flows by gravity and falls into the water tank 12. One end of the water intake pipe 141 is opened and one end of the water outlet pipe 149 is open, so that the overall structure of the pipe is configured to prevent freezing and bursting accidents due to an increase in the volume of water caused by temperature changes in groundwater in winter.
Therefore, the insulation device according to the present invention is a very efficient insulation device for livestock barns, off-season pensions, etc., where heating costs are difficult to bear due to the piping structure in which groundwater flows at a constant temperature in a square case filled with air with very low thermal conductivity. can be provided.

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Let's take a look at the insulation construction method using the above-described insulation device.

Figure 4 is a flowchart illustrating the wall insulation construction method according to the present invention. After proceeding with step S11 of installing the water tank 12 in the basement below the wall to be insulated, a square case with the same area as the wall is formed. Step S12 is performed to adhere (11) to the wall using an adhesive layer (15).

Next, the water intake pipe (141), the first vertical pipe (142), the first inclined pipe (143), the second vertical pipe (144), the second inclined pipe (145), the third vertical pipe (146), the third After proceeding with step S13 to connect the inclined pipe 147, the fourth vertical pipe 148, and the water outlet pipe 149 in series, holes on both sides of the pipe fixing bracket 16 are installed in the square case 11. Insert anchor bolts into the pipes (141) (142) (143) (144) (145) (146) (147) (148) (149) and fasten them to the square case (11) and the wall. Then, step S14 is performed to connect the pump 13 to the water intake pipe 141 and the first vertical pipe 142 and install it at a designated location.

Next, after proceeding with step S15 of sealing the inside of the square case 11 and preventing air flow between the inside and outside of the square case 11 to maximize the insulation effect, power is supplied to the pump 13 to inject water into the water tank. By pumping the water 121 of (12), the water intake pipe 141, the first vertical pipe 142, the first inclined pipe 143, the second vertical pipe 144, the second inclined pipe 145, the Step S16 is performed to adjust the internal temperature of the square case 11 while flowing through the 3 vertical pipe 146, the third inclined pipe 147, the fourth vertical pipe 148, and the water outlet pipe 149.

Therefore, the insulation construction method according to the present invention allows groundwater with a constant temperature to flow along the pipe even in mid-winter or mid-summer, making it possible to rapidly improve insulation performance by moving away from the existing passive insulation method to a more active insulation method.

11; square case
12; water tank
13; Pump
14; pipe
141; water intake pipe
142; 1st vertical pipe
143; 1st inclined pipe
144; 2nd vertical pipe
145; 2nd inclined pipe
146; 3rd vertical pipe
147; 3rd inclined pipe
148; 4th vertical pipe
149; Outlet pipe
15; adhesive layer
16; Piping fixing bracket

Claims (3)

In an unused building, in order to effectively insulate the wall of the building even in the cold winter, a square case filled with air is provided on the wall, and a pipe is placed inside the square case to allow groundwater supplied underground through this pipe. In the indoor wall insulation device that allows the flow,
One side is fixed to the indoor wall with an adhesive layer (15), has a receiving space inside, has the same area as the indoor wall, and its interior is filled with air to block the movement of cold or heat transmitted from the indoor wall. It performs the function of: a square case (11) in which a main body (111) with a receiving space and a cover (112) with irregularities that fit into the main body (111) are joined by bolt fastening;
A water tank (12) partially filled with water (121) located underground of the wall;
A pump (13) that vertically pumps water (121) from the lowest part of the water tank (12) to the top of the square case (11) using electrical energy;
A pipe 14 connected to the pump 13 and providing a path through which the water 121 of the water tank 12 flows;
The pipe 14 is installed inside the square case 11, and is fixed to the square case 11 and the wall by fastening anchor bolts in the holes provided on both sides of the pipe fixing bracket 16. A water intake pipe 141 in contact with the lowest part of the water tank 12, the other end of which is connected to the pump 13 to collect water from the lowest part of the water tank 12, and formed in the shape of an inverted letter (L), One end is connected to the pump 13, and the other end is connected to the first vertical pipe 142 vertically to the top of the square case 11, and is obliquely connected to the first vertical pipe 142 to allow groundwater to flow due to gravity. A first inclined pipe 143 that allows groundwater to flow naturally through a natural flow, a second vertical pipe 144 connected perpendicularly to the first inclined pipe 143 to allow groundwater to flow naturally by gravity, and a second vertical pipe 144 ) and a second inclined pipe 145 that is obliquely connected to allow groundwater to flow naturally by gravity, and a third vertical pipe (146) connected perpendicularly to the second inclined pipe 145 to allow groundwater to flow naturally by gravity. ), a third inclined pipe 147 that is obliquely connected to the third vertical pipe 146 so that groundwater flows naturally by gravity, and is vertically connected to the third inclined pipe 147 so that groundwater flows naturally by gravity. A fourth vertical pipe 148 is connected in series to allow the water to flow, and a water outlet pipe 149 is connected to the fourth vertical pipe 148 at an angle so that groundwater naturally flows by gravity and falls into the water tank 12. One end of the water intake pipe 141 is open and one end of the water outlet pipe 149 is open, so that the overall structure of the pipe is a pipe designed to prevent freezing and bursting accidents due to temperature changes in groundwater in winter. wall insulation device.

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