KR101256438B1 - Piping system for energy saving - Google Patents

Abstract

PURPOSE: A pipe system for energy saving is provided to reduce energy consumption with low facility prices by generating hot water while cooling a building with low-temperature water supplied to a cold water line. CONSTITUTION: A pipe system for energy saving comprises a boiler(1), a cold water line(2), a hot water line(3), a heating line(4), and a water control unit(5). The boiler generates and supplies hot water. The cold water line supplies water to demand places. The hot water line is connected to the boiler to supply hot water to the demand places. The heating line is connected to the boiler to circulate heating water to the demand places. The water control unit controls the flow of the water.

Description

Energy Saving Piping System {PIPING SYSTEM FOR ENERGY SAVING}

The present invention relates to an energy-saving piping system, and more particularly, by cooling and using hot water supplied to a cold water line to generate hot water at the same time to reduce energy consumption at a low facility cost. The present invention relates to an energy-saving piping system that can recover solar heat, extend the life of a heating line, and reduce maintenance costs.

In general, a common house such as a single house and an apartment is provided with a plumbing system for supplying cold water and hot water used in a bathtub or a sink, and heating water for heating.

1 is a view for explaining a conventional general plumbing system, as shown in the conventional plumbing system is a cold water line (2) to supply and flow the raw water, such as water (usually called water supply) or ground water supplied from the water supply source, It consists of a hot water line (3) for supplying and flowing hot water, and a boiler (1) for generating and supplying hot water supplied to the hot water line.

The cold water line 2 is branched from the main cold water line 21 and connected to the boiler 1, the bath 71, the basin 72, the sink 73, the toilet 74, etc., which are the use points. (32), the hot water line (3) is connected to the boiler 1, the main hot water line 31, the hot water flows, and branched from the main hot water line (31), the use of the tub, wash basin, And a plurality of branch hot water lines 32 connected to a sink and the like, and a heating line 4 for heating.

The heating line 4 is disposed in the floor of the bedroom, living room, kitchen, etc. to discharge hot air and substantially heat the heating water circulation line 41, and to supply hot water to the heating water circulation line 41. Heating water supply line 42 disposed between the boiler 1 and the heating water recovery line 43 disposed so that the water cooled by heat exchange is recovered to the boiler 1 while circulating the heating water circulation line 41. It is provided.

And, briefly looking at the heating using the hot water, the hot water of the hot water supplied from the boiler 1 installed in the building is moved to the supply side hot water distributor 45 through the heating water supply line 42. The heating water introduced into the supply-side hot water distributor 45 is heated through heat exchange with the indoor floor while circulating through the heating water circulation line 41 embedded in each room separately. As such, the hot water whose temperature is reduced while performing the heat exchange process with the indoor floor is recovered to the discharge-side hot water distributor 46, flowed into the boiler 1 through the heating water recovery line 43, reheated, and recirculated. Will do

In the conventional piping system as described above, since the boiler 1, in which hot water is generated and supplied, is driven in dependence on fossil energy such as oil, gas, and electricity, operation cost is excessively high, and environmental pollution such as air pollution is caused. There are disadvantages. In particular, recently, the depletion of fossil energy and a surge in demand have led to a sharp rise in energy costs, which has led to a serious increase in consumer's cost burden.

In addition, since the above-mentioned heating water circulation line 41 is not used in the summer, the circulation of water is not performed, causing scale or corrosion to shorten the lifespan of the pipe, and there is a problem in that maintenance costs are generated. In addition, since the heating water circulation line 41 is heated by atmospheric temperature or solar heat, it is necessary to operate a cooling device such as an air conditioner for a long time in order to avoid heat in summer, so that the cost burden of the consumer increases due to the increase of energy consumption. have.

Accordingly, various researches and developments have been made to solve the conventional problems as described above. For example, Korean Unexamined Patent Publication No. 10-1999-015686 discloses a hot water / heating piping system using solar heat, and Korean Utility Model Registration No. 20-0431547 discloses a dual use for heating of solar facilities. A boiler linkage piping and control system is disclosed.

Korean Patent Laid-Open Publication No. 10-1999-015686 is a water level control pipe (7) between the thermal heater collection tank (2) and the auxiliary collection container (4) while using a solar heater as shown in FIG. Is connected, the circulation motor (9) is operated by the temperature sensor of the boiler (3) or thermal heater collection tank (2), the automatic motor (12) is operated so that the hot water of the solar heat collecting plate (1b) for heating Written or stored in the heat storage tank 2, while the solar heater (1a) can not be operated, the boiler (3) is operated to use the heating and hot water.

In addition, the Republic of Korea Registered Utility Model Publication No. 20-0431547 is a solar water heater hot water tank 200 and in the boiler connection piping and control system for the combined use of the heating of the solar thermal facility as shown in FIG. The solar hot water supply pipe 230 connecting the heating water supply pipe 320 is connected to a point 350 between the boiler hot water circulation pump 330 and the heating load facility 400 and a point 350 of the piping. The solar hot water circulating pump 250 is installed to flow in the flow direction of the heating water supply main 320, and the starting is linked to the set temperature of the solar hot water temperature sensor 260, and the heating water return main body 310 is installed. At one point 340, the solar hot water return pipe 240 is connected to connect the lower portion of the solar water heater hot water tank 200.

However, the above-mentioned Republic of Korea Patent Publication No. 10-1999-015686 and Republic of Korea Utility Model Registration No. 20-0431547 can reduce the cost of energy by using solar heat as an energy source of heating, but solar heat In order to use a variety of devices such as solar panels, water tanks, hot water tanks, etc., a lot of facility costs are required to install them, and space for the facility is not only needed, but also maintenance and operation costs are excessive. Its high effectiveness makes it less effective, and has limitations that cannot be applied to apartments.

The present invention has been proposed in view of the above, by performing a cooling operation using the raw water of the cold water supplied to the cold water line and at the same time to generate hot water to utilize the energy saving to reduce the energy consumption at a low facility cost The purpose is to provide a type piping system.

Another object of the present invention is to provide an energy-saving piping system that is simple in structure and simple to recover solar heat.

Another object of the present invention is to provide an energy-saving piping system that can extend the life of the heating line, and can reduce the maintenance cost.

In order to achieve the above object, the energy-saving piping system according to the present invention, the energy-saving piping system, boiler for generating and supplying hot water; Cold water line is supplied to the raw water flows into the use; A hot water line connected to the boiler and supplying hot water to a use place; And a heating line connected to the boiler to circulate the heating water to a use place, and connected between the cold water line, the hot water line, and the heating line, and the incoming raw water is heat-exchanged with the heat of the building via the heating line. It is characterized in that it further comprises a water control unit for controlling the flow of water to be supplied back to the cold water line is supplied to the use place.

The cold water line includes a main cold water line through which raw water is supplied and flows, and a branch cold water line branched from the main cold water line and connected to a use place. The hot water line includes a main hot water line connected to the boiler. And a branched hot water line branched from the main hot water line and connected to a use place, wherein the heating line is a heating water circulation line disposed in a building and a heating water supply line connected to the boiler to supply hot water to the heating water circulation line. And a heating water recovery line installed to recover the heating water of the heating water circulation line to the boiler.

The water control unit is connected to the raw water inlet pipe portion connected to the heating water supply line so that the raw water flows into the heating water circulation line, a first raw water control valve installed on the raw water inlet pipe portion, the main hot water line is connected to the A second raw water control valve closed when the raw water flows into the heating water circulation line, and a third raw water control valve connected to the heating water supply line and closed so as not to flow back to the boiler when raw water is introduced into the heating water circulation line, A raw water discharge pipe part connected between the discharge end of the heating water circulation line and the main cold water line behind the second raw water control valve, a fourth raw water control valve installed in the raw water discharge pipe part, and the heating water circulation line And a fifth raw water control valve connected to the heating water recovery line so that raw water discharged through the discharge end is not flowed back to the boiler. have.

On the other hand, in order to achieve the above object, the energy-saving piping system according to the present invention, the first to fifth raw water control valve is a valve body with a valve body for opening and closing the flow path, the valve body is installed in the valve body An input unit configured to be an automatic valve having an actuator for driving, for inputting an input signal for operation of the actuator; And a control unit for applying a driving signal to the actuator according to the input signal applied from the input unit.

In this case, the controller may open the first and fourth raw water control valves when performing the energy saving mode in which the incoming raw water is circulated through the heating water circulation line to be heat-exchanged and then discharged to the main cold water line. Applying a drive signal to close the second, third, and fifth raw water control valves, closing the first and fourth raw water control valves when the raw water is in a normal mode not passing through the heating water circulation line; And a driving signal for opening the second, third, and fifth raw water control valves.

In addition, the supply side hot water distributor installed in the heating water supply line so that the inlet side of the plurality of heating water circulation line is connected, the discharge installed in the heating water recovery line so that the discharge side of the plurality of heating water circulation line is connected. It is provided with a side hot water distributor, the heating water circulation line may be disposed at least one of the floor, wall, ceiling of the building.

According to the energy-saving piping system according to the present invention, while performing the cooling function by using the cold air of the raw water, such as water or ground water supplied from the water source and at the same time to recover the heat of the building heated by atmospheric temperature or solar heat Since hot water can be generated and utilized, energy consumption can be significantly reduced, and the amount of fossil energy used can be reduced, thereby reducing air pollution.

In addition, the energy-saving piping system according to the present invention can be constructed at a low cost since it can be simply and simply configured by using only a plurality of valves and short pipes (short pipes) in a general piping system provided in a building. There is an advantage that the maintenance cost is reduced.

In addition, the energy-saving piping system according to the present invention because the circulation of water is made even in the heating line not used in the summer, the scale or corrosion does not occur in the pipe is extended the life of the pipe, can reduce the maintenance cost There is an advantage.

1 is a view for explaining a conventional general piping system
2 and 3 is a view for explaining a piping system having a conventional solar thermal facility,
4 is a view for explaining the technical concept of an energy-saving piping system according to an embodiment of the present invention;
5 is a piping diagram showing an energy-saving piping system according to an embodiment of the present invention;
Figure 6 is a view showing the main parts of the energy-saving piping system according to an embodiment of the present invention,
7a and 7b is a view for explaining the operation of the energy-saving piping system according to an embodiment of the present invention,
8 is a view illustrating a modification of the energy-saving piping system according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

4 is a view for explaining the technical concept of the energy-saving piping system according to an embodiment of the present invention, Figure 5 is a piping diagram showing an energy-saving piping system according to an embodiment of the present invention.

4 and 5, the energy-saving piping system according to an embodiment of the present invention is an energy-saving piping technology that can be applied without limitation, such as single-family homes, farm houses, apartments, office buildings, etc. As a cooling water using the raw water having a temperature lower than the atmospheric temperature, such as water or ground water supplied from the water supply, and configured to generate and utilize hot water in the cooling process, boiler (1), cold water line ( 2), a hot water line 3, a heating line 4 and a water control unit 5 are provided.

Boiler (1) is a device for generating and supplying hot water by heating the raw water, a heating device (not shown) for heating the raw water, raw water inlet through which the raw water is introduced, hot water outlet through which the heated hot water is discharged, the heated heating water discharged Heating water outlet, and a heating water recovery hole for recovering heating water. In this case, the boiler 1 may be selected and applied to various types of boilers such as electric boilers, gas boilers, oil boilers, etc. according to the type of building, energy supply conditions, hot water capacity or heating capacity.

The cold water line (2) is a line where raw water flowing from the outside flows and is supplied to a use place, and is branched from the main cold water line (21) and the main cold water line (21) which are arranged in the building to supply and flow raw water. A plurality of branch cold water lines 22 connected to the phosphorus boiler 1, the bath 71, the sink 72, the sink 73, the toilet bowl 74 and the like are provided.

The hot water line 3 is a line connected to the boiler 1 to supply hot water to a place of use, and is branched from the main hot water line 31 and the main hot water line 31 connected to the boiler 1. A plurality of branch hot water lines 32 connected to the in-bath 71, the sink 72, the sink 73 and the like are provided.

 The heating line 4 is connected to the boiler 1 and circulates the heating water to the use place, and is connected to the plurality of heating water circulation lines 41 and the boiler 1 arranged in the bedroom, living room, etc. And a heating water supply line 42 for supplying hot water to the heating water circulation line 41, and a heating water recovery line 43 installed to recover the heating water of the heating water circulation line 41 to the boiler.

The heating water circulation line 41 has an inlet side connected to the heating water supply line 42 to receive the heating water, and performs a heating operation through heat exchange, and discharges the cooling water cooled through the heat exchange process. The heating water recovery line 43 is connected.

And the heating water circulation line 41 is usually installed on the floor of the building to perform heating, the piping system according to the present invention generates hot water using the heat of the building while performing the cooling action in the summer using raw water. Because of the structure, the heating water circulation line 41 may be piped to various positions of the building heated by atmospheric temperature or solar heat, such as walls or ceilings of the building, so that cooling and hot water generating effects can be more effectively achieved.

On the other hand, the supply side hot water distributor 45 is connected to the end of the heating water supply line 42 so that the inflow side of the plurality of heating water circulation lines 41 is connected, and the plurality of heating water recovery lines 43 are connected to the end of the heating water supply line 43. The discharge side hot water distributor 46 is connected so that the discharge side of the heating water circulation line 41 is connected.

In addition, the supply-side hot water distributor 45 and the discharge-side hot water distributor 46 may apply a common hot water dispenser applied in ondol heating, and the supply-side hot water distributor 45 is connected to the heating water supply line 42. The plurality of branch pipes 452 integrally protrude at regular intervals to the hot water supply pipe 451 in which a moving path for the flow of fluid is formed so as to distribute and supply hot water supplied to the heating water circulation line 41. , Is formed.

The discharge-side hot water distributor 46 is formed in a structure similar to the above-described supply-side hot water distributor, and the plurality of branch pipes 462 are integrally connected to the hot water return pipe 461 connected to the heating water recovery line 43 at regular intervals. Protruding, formed.

In addition, the hot water inlet side of the hot water supply pipe 451, the hot water discharge side of the hot water return pipe 461, and each branch pipe (452, 462) may be provided with a shutoff valve (47,453,463) for opening and closing the flow of the heating water.

Water control unit 5 is a part for controlling the flow of raw water is connected between the cold water line (2), hot water line (3) and the heating line (4), the incoming raw water through the heating line (4) building After the heat and heat exchange of the cold water line 2 is introduced to be supplied to the use place.

Figure 6 is a view showing the main part of the energy-saving piping system according to an embodiment of the present invention.

Referring to Figure 6, the water control unit 5 is limited by using a valve and piping if the incoming raw water is heat-exchanged with the heat of the building via the heating line (4) and then flow back into the cold water line (2) Although various configurations can be made without the present embodiment, in the present embodiment, the raw water inflow pipe 51, the raw water discharge pipe 52, the first raw water control valve 53, the second raw water control valve 54, and the third raw water control The valve 55, the 4th raw water control valve 56, and the 5th raw water control valve 57 are comprised.

Raw water inflow pipe 51 is a pipe connected to the heating water supply line 42 so that the incoming raw water flows into the heating water circulation line 41, the inflow of the position ahead of the supply point of the raw water flowing into the boiler (1) It is branched from the side main cold water line 21 and connected to the heating water supply line 42.

The raw water discharge pipe part 52 is a pipe for supplying the raw water via the heating water circulation line 41 to the main cold water line 21 again, and the second raw water control valve to be described later and the discharge end of the heating water circulation line 41. (54) It is connected and installed between the main cold water line 21 of a back point.

The first raw water control valve 53 is a valve installed in the raw water inlet pipe 51 so that the flow direction of the raw water flowing through the heating water circulation line 41 is performed (hereinafter, energy saving). Is open when the mode is performed, and is operated to be closed when the flow direction of the raw water is directly supplied to the use place without passing through the heating water circulation line 41 (hereinafter referred to as the normal mode).

The second raw water control valve 54 is a valve that is connected to and installed in the main cold water line 21 in contact with the raw water inlet pipe 51, and is closed in an energy saving mode in which raw water flows into the raw water inlet pipe 51. Operate open in normal mode.

The third raw water control valve 55 is a valve connected to the heating water supply line 42 disposed between the boiler 1 and the supply-side hot water distributor 45, and when the raw water flows into the heating water circulation line 41 ( Energy saving mode) It is closed so as not to flow back to the boiler 1 side and is operated to open in the normal mode.

The fourth raw water control valve 56 is a valve installed in the raw water discharge pipe 52 and is operated to be opened in the energy saving mode and closed in the normal mode.

The fifth raw water control valve 57 is a valve connected to the heating water recovery line 43 so that raw water discharged through the discharge end of the heating water circulation line 41 does not flow back to the boiler 1. It is closed at and operated to open in normal mode.

The first raw water control valve 53, the second raw water control valve 54, the third raw water control valve 55, the fourth raw water control valve 56, and the fifth raw water control valve 57 are described. It consists of manual operation valves such as ball valves, gate valves, butterfly valves and globe valves that open and close when the user applies the operating force in the forward and reverse directions.

On the other hand, Figure 5 is not shown the general piping, fittings, valves, etc. that are applied in the building piping system, reference numeral 23 is a main valve installed on the inflow side of the raw water.

Hereinafter will be described the operation of the energy-saving piping system according to an embodiment of the present invention.

7a and 7b are views for explaining the operation of the energy-saving piping system according to an embodiment of the present invention, Figure 7a shows a state in the energy saving mode, Figure 7b shows a state in the normal mode It is shown.

When the energy-saving piping system as described above is installed in a single house or a multi-unit house, and the user wants to implement the energy saving mode in a season where high temperature heating or rapid heating is not required or when cooling is required, And each valve is operated such that the fourth raw water control valves 53 and 56 are opened and the second, third and fifth raw water control valves 54, 55 and 57 are closed.

In this way, the raw water introduced as shown in FIG. 7A is introduced into the heating water circulation line 41 through the raw water inlet pipe 51 and the heating water supply line 42. At this time, since the heating water circulation line 41 is in a state of being heated by atmospheric temperature or solar heat, when the raw water flows in, heat exchange is performed, the temperature of the raw water is increased, and the floor, wall, etc., on which the heating water circulation line 41 is installed. Is cooled by the cold air of raw water. Thus, the heating water circulation line 41 performs the function of generating hot water during heat exchange, so that it can generate necessary hot water without operating a boiler that consumes fossil energy, and does not operate a cooling device such as an air conditioner. At the same time, energy can be saved.

The raw water passing through the heating water circulation line 41 passes through the fourth raw water control valve 56 and then flows out to the main cooling line 21 and is connected to the branch cooling line 22. 72) and raw water warmed to some extent by a faucet such as the sink 73 may be used to replace hot water.

On the contrary, when high temperature heating or rapid heating is required, such as winter, the user can simply operate the valve to perform the normal mode. More specifically with reference to FIG. 7B, the user closes the first and fourth raw water control valves 53 and 56 and opens the second, third and fifth raw water control valves 54, 55 and 57. In this case, the incoming raw water is supplied to the main cooling line 21 via the second raw water control valve 54, so that the boiler 1, the bath 71, the sink 72, and the same as in the conventional piping system. Raw water is supplied to the sink 73, the toilet bowl 74, and the like. The hot water heated in the boiler 1 is supplied to the tub 71, the sink 72, through the main hot water line 31 and the branch hot water line 32. And the heating water (hot water) supplied to the sink 73 and the like, the heating water supplied to the heating water supply line 42 circulates the heating water circulation line 41 and then repeats the cycle of being recovered to the heating water recovery line 43. Perform heating while performing.

8 is a view illustrating a modification of the energy-saving piping system according to an embodiment of the present invention.

Referring to FIG. 8, the energy saving pipe system according to the modification has the same piping structure as that shown in FIGS. 4 and 6, but includes first to fifth raw water control valves 53 ′, 54 ′, 55 ′, 56 'and 57' are constituted by automatic valves, and a control unit 58 for driving the automatic valves is provided.

The first to fifth raw water control valves 53 ', 54', 55 ', 56', and 57 'include a valve body (not shown) with a valve body (not shown) for opening and closing a flow path, and the valve body. An actuator (not shown) which drives the valve body installed in the is provided.

In addition, the energy-saving piping system according to the modified example is provided with an input unit 59 including a button for inputting the energy saving mode and the normal mode in the control unit 58.

The control unit 58 is applied to the actuators of the valves when an input signal for performing the energy saving mode in which the incoming raw water is circulated and heat-exchanged through the heating water circulation line 41 and then discharged to the main cold water line 21 is applied. Is configured to perform a control operation by applying a drive signal to open the first and fourth raw water control valves 53 and 56 and to close the second, third and fifth raw water control valves 54, 55 and 57. have. On the contrary, when an input signal for performing the normal mode without the raw water passing through the heating water circulation line 41 is applied, the first and fourth raw water control valves 53 and 56 are closed and the second, third, and fifth It is configured to perform a control operation of opening the raw water control valves 54, 55, 57.

On the other hand, the energy-saving piping system according to the above-described modification is different only in that the first to fifth raw water control valves 53 ', 54', 55 ', 56' and 57 'are automatically opened and closed. Since similar to the system shown in the detailed description of the operation is omitted.

What has been described above is just one embodiment for implementing the energy-saving piping system according to the present invention, the present invention is not limited to the above embodiment, as claimed in the following claims of the present invention Those skilled in the art to which the present invention pertains without departing from the spirit of the present invention will have the technical idea of the present invention to the extent that various changes can be made.

1: boiler 2: cold water line
21: Main cold water line 22: Branch cold water line
3: hot water line 31: main hot water line
32: branch hot water line 4: heating line
41: heating water circulation line 42: heating water supply line
43: heating water recovery line 45: hot water distributor on the supply side
46: discharged hot water distributor 5: water control unit
51: raw water inlet pipe 52: raw water discharge pipe
53: first raw water control valve 54: second raw water control valve
55: third raw water control valve 56: fourth raw water control valve
57: fifth raw water control valve 58: control unit
59: input unit 71: bathtub
72: sink 73: sink
74: toilet

Claims (5)

In energy saving piping system,
Boilers for producing and supplying hot water; Cold water line is supplied to the raw water flows into the use; A hot water line connected to the boiler and supplying hot water to a use place; And a heating line connected to the boiler to circulate the heating water to a use place, and connected between the cold water line, the hot water line, and the heating line, and the incoming raw water is heat-exchanged with the heat of the building via the heating line. Further comprising a water control unit for controlling the flow of water to be supplied back to the cold water line is supplied to the use place,
The cold water line has a main cold water line for supplying and flowing raw water and a branch cold water line branched from the main cold water line and connected to the use place,
The hot water line is provided with a main hot water line connected to the boiler, a branch hot water line branched from the main hot water line connected to the use place,
The heating line is a heating water circulation line disposed in the building, a heating water supply line connected to the boiler to supply hot water to the heating water circulation line, and heating water installed to recover the heating water of the heating water circulation line to the boiler. With a recovery line,
The water control unit is connected to the raw water inlet pipe portion connected to the heating water supply line so that the raw water flows into the heating water circulation line, a first raw water control valve installed on the raw water inlet pipe portion, the main hot water line is connected to the A second raw water control valve closed when the raw water flows into the heating water circulation line, and a third raw water control valve connected to the heating water supply line and closed so as not to flow back to the boiler when raw water is introduced into the heating water circulation line, A raw water discharge pipe part connected between the discharge end of the heating water circulation line and the main cold water line behind the second raw water control valve, a fourth raw water control valve installed in the raw water discharge pipe part, and the heating water circulation line And a fifth raw water control valve connected to the heating water recovery line so that raw water discharged through the discharge end is not flowed back to the boiler. Energy-saving piping system, characterized in that.
delete The method of claim 1,
The first to fifth raw water control valve is composed of a valve body with a valve body for opening and closing the flow path, an automatic valve having an actuator for driving the valve body installed in the valve body,
An input unit for inputting an input signal for operating the actuator; And
Energy-saving piping system further comprises a control unit for applying a drive signal to the actuator in accordance with the input signal applied from the input unit.
The method of claim 3,
The control unit opens the first and fourth raw water control valves and performs the second and second raw water control valves during the energy saving mode in which the incoming raw water is circulated through the heating water circulation line to be heat-exchanged and then discharged to the main cold water line. Applying a drive signal for closing the third and fifth raw water control valves,
To apply a drive signal for closing the first and fourth raw water control valves and opening the second, third and fifth raw water control valves when the raw water is in the normal mode without passing through the heating water circulation line. Energy-saving piping system, characterized in that configured.
The method according to any one of claims 1, 3, and 4,
Supply side hot water distributor installed in the heating water supply line so that the inlet side of the heating water circulation line is connected, and discharge side hot water installed in the heating water recovery line so that the discharge side of the plurality of heating water circulation line is connected. With a distributor,
The heating water circulation line is energy-saving piping system, characterized in that disposed on at least one of the floor, wall, ceiling of the building.

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