KR102310890B1 - Temperature control type modular home and temperature control method - Google Patents

Abstract

The present invention relates to a temperature-controlled modular house and a temperature control method of the temperature-controlled modular house, wherein a space is formed inside an inner and outer structural material, and the temperature of the space is controlled to maintain a comfortable and appropriate indoor temperature, but primarily By controlling the temperature through dry control and sequentially controlling the temperature through secondary wet control, the efficiency of temperature control can be increased, and water discharged from the discharge pipe can be selectively recovered into the cold water underground storage tank and utilized. If there is insufficient cold water in the cold water underground storage tank due to drought, etc., the discharged water can be recycled without throwing it away.

Description

Temperature control type modular house and temperature control method of the temperature control type modular house {TEMPERATURE CONTROL TYPE MODULAR HOME AND TEMPERATURE CONTROL METHOD}

The present invention is a modular house that can be installed and used simply and quickly in a disaster area or construction site required for a simple house, and more specifically, by forming a space in the internal and external structural materials, and controlling the temperature of the space Thus, to maintain the indoor temperature comfortably and appropriately, the temperature control type modular house and its temperature control type that can increase the temperature control efficiency by first controlling the temperature through dry control and secondly controlling the temperature through wet control It relates to a temperature control method of a modular house.

In general, as the technology related to building technology and building materials develops, various functions and various types of buildings are being constructed, and these structures are usually made by stacking bricks, building a frame and laying bricks between the frames, or It is customary to form a wall, but as various types of building materials with excellent waterproof and soundproofing effects have been developed recently, many prefabricated buildings are being built that are easy to construct and have a short construction period.

These prefabricated buildings have been mainly used as simple buildings such as warehouses or workshops, but as the quality of prefabricated building materials has improved in recent years, prefabricated modular houses built for residential use have been widely used.

However, the conventional modular house has a problem in that a separate heating and cooling system must be provided to maintain the indoor temperature at an appropriate temperature in summer and winter, so there is a problem in that the manufacturing cost is greatly increased, and the heating and cooling cost is significantly increased due to poor insulation efficiency. .

Domestic Registered Patent No. 10-1471039

In order to solve the above problems, the present invention forms a space inside an internal and external structural material, and controls the temperature of the space to maintain a comfortable and appropriate indoor temperature, but primarily controls the temperature through dry control, and secondary An object of the present invention is to provide a temperature control type modular house that can increase the temperature control efficiency by sequentially controlling the temperature through wet control, and a temperature control method of the temperature control type modular house.

In addition, the present invention is a technology that can selectively recover and utilize water discharged from a discharge pipe (discharge pipe) into a cold water underground storage tank. An object of the present invention is to provide a recyclable temperature control type modular home and a temperature control method for the temperature control type modular home.

In order to achieve the above object, the temperature-controlled modular house of the present invention is a housing in which a space is formed between the internal structural member and the external structural member; a dry temperature control unit for controlling the temperature of the space by supplying or discharging air into the space in order to block the external temperature of the housing from being transmitted to the interior of the modular house; a cold water underground storage tank installed underground to collect rainwater (rainwater) dripping into the housing and store it as cold water; a wet temperature control unit controlling the temperature of the space by supplying the cold water stored in the cold water underground storage tank into the space in order to block the external temperature of the housing from being transmitted to the room; a first temperature sensor for sensing the temperature of the room; a second temperature sensor for sensing the space and outdoor temperature; and a control unit configured to control the dry temperature control unit and the wet temperature control unit according to the detection of the first and second temperature sensors. The wet temperature control unit includes: a cold water circulation pipe installed in the space to circulate the cold water in the cold water underground storage tank, and having a cold water spray nozzle for spraying the cold water into the space; a cold water circulation pump for pumping cold water to circulate the cold water circulation pipe; a discharge pipe for discharging the water sprayed through the cold water jet nozzle to the outside; a bypass pipe branched from the discharge pipe and connected to the cold water underground storage tank; and a selection valve installed between the discharge pipe and the bypass pipe to selectively transfer water to the discharge pipe or the bypass pipe. includes

In addition, the dry temperature control unit may include a heater and a blowing fan.

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In addition, a rainwater collecting groove may be formed on the upper surface of the roof of the housing, and a rainwater supply pipe connected to the cold water underground storage tank may be installed in a lower portion of the rainwater collecting groove.

In addition, a membrane panel may be installed in the space.

On the other hand, in the temperature control method of the temperature control type modular house of the present invention, the first temperature sensor detects the indoor temperature of the modular house, and the second temperature sensor detects the temperature inside and outside the space of the housing formed between the internal structural material and the external structural member detecting; determining whether the temperature of the space is within a preset temperature range; As a result of the determination, when the temperature of the space is out of a preset temperature range, controlling the temperature of the space by primarily driving a dry temperature control unit to supply or discharge air into the space; determining in real time whether the temperature of the space is within a preset temperature range; and controlling the temperature of the space by supplying cold water into the space by secondly driving a wet temperature control unit when the temperature of the space is out of a preset temperature range as a result of the determination.

As described above, the present invention is a modular house that can be easily and quickly installed and used in disaster areas or construction sites that require a simple house because the overall configuration is very simple. By controlling the temperature of the space to maintain a comfortable and appropriate indoor temperature, the temperature control efficiency can be increased by firstly controlling the temperature through dry control and secondarily controlling the temperature through wet control. have.

In addition, the present invention is a technology that can selectively recover the water discharged from the discharge pipe into the cold water underground storage tank and utilize it. There are advantages.

1 is a perspective view showing a temperature-controlled modular house of the present invention;
2 is a cross-sectional view showing a temperature-controlled modular house of the present invention;
3 is a block diagram illustrating the control of the temperature-controlled modular house of the present invention;
4 is a block diagram showing a dry temperature control unit of the present invention;
FIG. 5 is a longitudinal cross-sectional view taken along line AA of FIG. 2, illustrating dry temperature control; FIG.
FIG. 6 is a longitudinal sectional view taken along line AA of FIG. 2, showing wet temperature control; FIG.
7 is a longitudinal cross-sectional view taken along line AA of FIG. 2, showing the water discharge and bypass.
8 is a longitudinal cross-sectional view taken along line BB of FIG.
9 is a flowchart illustrating a temperature control method of a temperature-controlled modular house of the present invention;

Hereinafter, with reference to the accompanying drawings, a temperature control method of the temperature control type modular home and the temperature control type modular home of the present invention will be described.

Figure 1 is a perspective view showing a temperature-controlled modular house of the present invention, Figure 2 is a cross-sectional view showing a temperature-controlled modular house of the present invention, Figure 3 is a block diagram explaining the control of the temperature-controlled modular house of the present invention, Figure 4 is a configuration diagram showing the dry temperature control unit of the present invention, FIG. 5 is a longitudinal sectional view taken along line AA of FIG. 2, showing the dry temperature control, and FIG. 6 is a longitudinal sectional view taken along line AA of FIG. 7 is a longitudinal sectional view taken along line AA of FIG. 2 , a view showing drainage and detour, and FIG. 8 is a longitudinal sectional view taken along line BB of FIG. 2 .

Referring to the above drawing, the temperature control type modular house of the present invention has a housing 10, a dry temperature control unit 100, a cold water underground storage tank 20, a wet temperature control unit 200, and a first temperature sensor 30. , a space 11 , a second temperature sensor 40 , and a control unit 300 .

Specifically, the housing 10 forms a space 11 between the internal structural member 10a and the external structural member 10b.

The dry temperature control unit 100 controls the temperature of the space 11 by supplying or discharging air into the space 11 in order to block the external temperature of the housing 10 from being transmitted to the interior of the modular house. .

The dry temperature control unit 100 may include a heater 110 and a blowing fan 120, but is not limited thereto, and the configuration of the dry temperature control unit 100 may be variously changed.

In the operation of the dry temperature control unit 100, in the summer season, the blowing fan 120 is driven to discharge the hot air in the space 11, and in the winter season, the heater 110 is operated and the blowing fan 120 is operated. It is driven to supply heated air into the space 11 .

The modular house of this embodiment is configured to increase cooling efficiency without a separate cooling system by utilizing rainwater discharged (discharged) during rain. It is installed underground to collect rainwater that falls and store it as cold water. By installing the cold water underground storage tank 20 underground, the cold water is always stored in the cold water underground storage tank 20 .

A rainwater collecting groove 13 is formed on the upper surface of the roof of the housing 10 , and a rainwater supply pipe 21 connected to the cold water underground storage tank 20 may be installed in the lower portion of the rainwater collecting groove 13 .

In addition, the wet temperature control unit 200 supplies the cold water stored in the cold water underground storage tank 20 into the space 11 in order to block the external temperature of the housing 10 from being transmitted to the room. ) to control the temperature.

The configuration of the wet temperature control unit 200 is as follows.

That is, the wet temperature control unit 200 includes a cold water circulation pump 220 for pumping cold water, a discharge pipe 230 for discharging the sprayed water to the outside, a bypass pipe 240 , and a selection valve 250 . do.

The cold water circulation pipe 210 is installed in the space 11 to circulate the cold water of the cold water underground storage tank 20, and a cold water injection nozzle 111 for spraying the cold water into the space 11. be prepared The cold water may be sprayed into the space 11 through the cold water injection nozzle 111 to lower the temperature in the space 11 .

An on/off valve V is installed in the cold water circulation pipe 210, and the flow of cold water may be controlled by adjusting the on/off valve V.

The cold water circulation pump 220 is a submersible pump, and serves to pump cold water to circulate the cold water circulation pipe 210 .

The discharge pipe 230 is a drain pipe, and is for discharging the water sprayed through the cold water jet nozzle 111 to the outside.

Looking at the temperature control of the wet temperature control unit 200 , the cold water circulation pump 220 is driven to forcibly circulate the cold water in the cold water underground storage tank 20 through the cold water circulation pipe 210 .

At this time, the cold water is injected through the cold water injection nozzle 111 to absorb surrounding heat to lower the temperature of the space 11 . The water used for the temperature drop is discharged (removed) to the outside through the discharge pipe 230 .

This embodiment employs a technology that can selectively recover the water discharged from the discharge pipe 230 into the cold water underground storage tank 20 and recycle it.

That is, when cold water is insufficient in the cold water underground storage tank 20 due to drought, etc., the discharged water can be recycled without discarding it. To this end, the bypass pipe 240 is branched from the discharge pipe 230 to be connected to the cold water underground storage tank 20, and is installed between the discharge pipe 230 and the bypass pipe 240 to selectively discharge water. Alternatively, a selection valve 250 for transferring to the bypass pipe 240 is installed.

The draining water may be discharged by adjusting the selection valve 250 , or may be recovered into the cold water underground storage tank 20 by inducing it to the bypass pipe 240 .

Furthermore, a membrane panel 260 may be installed in the space 11 . The membrane panel 260 sucks the cold water sprayed from the cold water spray nozzle 111 , and the cold water quickly enters the space 11 . It serves to rapidly drop the temperature of the space 11 by allowing it to spread and continuously maintain the cooling effect.

In this embodiment, temperature sensors for sensing the indoor temperature, the space temperature, and the outdoor temperature are provided.

That is, the first temperature sensor 30 may detect an indoor temperature, and the second temperature sensor 40 may detect the space 11 and the outdoor temperature.

The control unit 300 controls the dry temperature control unit 100 and the wet temperature control unit 200 according to the detection of the first and second temperature sensors 30 and 40 .

On the other hand, Figure 9 is a flowchart showing a temperature control method of the temperature control type modular house of the present invention.

Referring to the above drawing, in the temperature control method of the temperature control type modular house of the present invention, the first temperature sensor 30 detects the indoor temperature of the modular house, and the second temperature sensor 40 uses the internal structural material 10a and the outside Sensing the temperature inside and outside the space 11 of the housing (10) formed between the structural materials (10b) (S10); determining whether the temperature of the space 11 is in a preset temperature range (S20); As a result of the determination, when the temperature of the space 11 is out of the preset temperature range, the dry temperature control unit 100 is first driven to supply or discharge air into the space 11 to controlling the temperature (S30); Determining in real time whether the temperature of the space 11 is in a preset temperature range (S40); And as a result of the determination, when the temperature of the space 11 is out of the preset temperature range, the wet temperature control unit 200 is secondarily driven to supply cold water into the space 11 to provide the temperature of the space 11 . and controlling ( S50 ).

To elaborate, in the step (S10), the first temperature sensor 30 detects the indoor temperature of the modular house, and the second temperature sensor 40 is formed between the internal structural member 10a and the external structural member 10b. The temperature inside and outside the space (11) of the housing (10) is sensed in real time. The data values sensed by the first temperature sensor 30 and the second temperature sensor 40 are transmitted to the controller 300 .

In the step (S20), on the basis of the data values sensed by the first temperature sensor 30 and the second temperature sensor 40, the control unit 300 controls the temperature of the space unit 11 in a preset temperature range. determine whether The preset temperature range may be set to room temperature, for example, 23 to 25°C.

In the step S30, if, as a result of the determination, the temperature of the space 11 does not deviate from the preset temperature range, the process proceeds to the step S10.

On the other hand, when the temperature of the space 11 is out of the preset temperature range, the dry temperature control unit 100 is driven first to supply or discharge air into the space 11 to reduce the temperature of the space 11 . Control the temperature. In summer, the hot air in the space 11 is discharged by driving the blowing fan 120, and in the winter, the heater 110 is operated and the blowing fan 120 is driven to supply heated air into the space 11. do.

In the step S40, it is determined again in real time whether the temperature of the space 11 is within a preset temperature range.

As a result of the determination, if the temperature of the space 11 does not deviate from the preset temperature range, the process proceeds to step S10.

In the step (S50), as a result of the determination, when the temperature of the space part 11 is out of the preset temperature range, the wet temperature control unit 200 is secondarily driven to supply cold water into the space part 11 to Control the temperature of the section (11).

Looking at the temperature control of the wet temperature control unit 200 , the cold water circulation pump 220 is driven to forcibly circulate the cold water in the cold water underground storage tank 20 through the cold water circulation pipe 210 . At this time, the cold water is injected through the cold water injection nozzle 111 to absorb heat to lower the temperature of the space 11 . The water used for the temperature drop is discharged to the outside through the discharge pipe 230 .

As described above, the present invention is a modular house that can be easily and quickly installed and used in disaster areas or construction sites that require a simple house because the overall configuration is very simple. By controlling the temperature of the space to maintain a comfortable and appropriate indoor temperature, the temperature control efficiency can be increased by firstly controlling the temperature through dry control and secondarily controlling the temperature through wet control. have.

In addition, the present invention is a technology that can selectively recover the water discharged from the discharge pipe into the cold water underground storage tank and utilize it. There is this.

The terms or words used in the present specification and claims described above should not be construed as being limited to conventional or dictionary meanings, and the inventor should appropriately use the concept of terms to describe his invention in the best way. Based on the principle that it can be defined, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are only the most preferred embodiment of the present invention, and do not represent all the technical ideas of the present invention, so at the time of the present application, various It should be understood that there may be equivalents and variations.

10: housing
10a: internal structural material
10b: external structural material
11: Space Department
13: Stormwater collection home
20: cold water underground storage tank
21: storm water pipe
30: first temperature sensor
40: second temperature sensor
100: dry temperature control unit
110: heater
120: blow fan
200: wet temperature control unit
210: cold water circulation pipe
220: cold water circulation pump
211: cold water spray nozzle
230: discharge pipe
240: bypass pipe
250: selection valve
260: membrane panel
300: control unit
V: on/off valve

Claims (6)

a housing 10 in which a space 11 is formed between the internal structural member 10a and the external structural member 10b;
a dry temperature control unit 100 for controlling the temperature of the space 11 by supplying or discharging air into the space 11 in order to block the external temperature of the housing 10 from being transmitted to the interior of the modular house;
a cold water underground storage tank 20 installed underground so as to collect rainwater (rainwater) falling into the housing 10 and store it as cold water;
To control the temperature of the space 11 by supplying the cold water stored in the cold water underground storage tank 20 into the space 11 in order to block the external temperature of the housing 10 from being transmitted to the room Wet temperature control unit 200;
a first temperature sensor 30 for sensing the temperature of the room;
a second temperature sensor 40 for sensing the space 11 and the outdoor temperature; and
a control unit 300 for controlling the dry temperature control unit 100 and the wet temperature control unit 200 according to the detection of the first and second temperature sensors 30 and 40; includes,
The wet temperature control unit 200 is
A cold water circulation pipe ( 210);
a cold water circulation pump 220 for pumping cold water to circulate the cold water circulation pipe 210;
a discharge pipe 230 for discharging the water sprayed through the cold water injection nozzle 111 to the outside;
a bypass pipe 240 branched from the discharge pipe 230 and connected to the cold water underground storage tank 20; and
a selection valve 250 installed between the discharge pipe 230 and the bypass pipe 240 to selectively transfer water to the discharge pipe 230 or the bypass pipe 240; A temperature-controlled modular home comprising a. The method according to claim 1,
The dry temperature control unit (100) is a temperature control type modular house, characterized in that provided with a heater (110) and a blowing fan (120). delete The method according to claim 1,
A rainwater collecting groove 13 is formed on the upper surface of the roof of the housing 10, and a rainwater supply pipe 21 connected to the cold water underground storage tank 20 is installed under the rainwater collecting groove 13. Temperature controlled modular home. The method according to claim 1,
A temperature-controlled modular house, characterized in that a membrane panel (260) is installed in the space (11). The first temperature sensor 30 detects the indoor temperature of the modular house, and the second temperature sensor 40 is formed between the internal structural member 10a and the external structural member 10b. Sensing the outdoor temperature (S10);
determining whether the temperature of the space 11 is in a preset temperature range (S20);
As a result of the determination, when the temperature of the space part 11 is out of the preset temperature range, the dry temperature control unit 100 is driven to supply or discharge air into the space part 11 first, so that the space part ( 11) controlling the temperature (S30);
determining in real time whether the temperature of the space 11 is in a preset temperature range (S40); and
As a result of the determination, when the temperature of the space part 11 is out of the preset temperature range, the wet temperature control unit 200 is secondarily driven to supply cold water into the space part 11 to provide the space part 11 . controlling the temperature of (S50); Temperature control method of a temperature-controlled modular house comprising a.

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