KR20240002254A - Apparatus of Artificial Fog and Temperature Control System using the same - Google Patents

Abstract

The present invention is a greenhouse. This is about a fog machine that can control temperature and humidity by spraying mist inside a structure such as a breeding farm, and a temperature control system using it. Specifically, it is supported on the structure and connected to a spray unit that sprays water. It is connected to a pressure regulator that regulates the pressure of the water, is formed in a supply part that supplies water to the spray unit, and has a temperature control part that controls the temperature of the water.

Description

Fog machine and temperature control system using the same {Apparatus of Artificial Fog and Temperature Control System using the same}

The present invention is a greenhouse. This is about a fog machine that can control temperature and humidity by spraying mist inside a structure such as a breeding farm, and a temperature control system using the same.

Patent document 001 refers to a storage tank for storing water; A mist spray device coupled to a ground facility, receives water from the storage tank, and sprays the water as mist through a spray nozzle; and a supply line and a mist sprayer disposed between the storage tank and the mist sprayer to supply water from the storage tank to the mist sprayer, and a water treatment tank through which rainwater flows in and treats the rainwater. In addition, the water treatment tank is connected to the storage tank, supplies treated rainwater to the storage tank, and presents a technology including a water supply unit connected to the storage tank to supply clean water.

Patent Document 002 discloses that a fog spraying device using centrifugal force includes a housing with an open top having projections for discharging fog formed at regular intervals along the inside of the edge, a base panel dividing the inside of the housing into a lower layer and an upper layer, and an upper layer of the housing. a liquid supply unit that supplies liquid to the housing, a drive motor installed in the lower layer of the housing and having a rotating shaft vertically penetrating the base panel, and a drive motor installed in the upper layer of the housing so as to be close to the fog discharge protrusion of the housing. A centrifuge plate that rotates around a rotation axis, a nozzle that sprays the liquid contained in the upper layer of the housing to the center of the bottom of the rotating centrifuge plate and induces the generation of fog in the state of ultrafine particles through collision with the centrifuge plate, and the centrifuge plate It rotates around the rotation axis of the drive motor in a state close to the bottom and collides with the liquid supplied from the nozzle before the centrifugal plate, pulverizing it into fine particles, thereby triggering the generation of fog in the centrifuge plate and moving to the edge of the centrifugal plate. The lower fan performs blowing, and while rotating around the rotation axis of the drive motor at the top of the centrifugal plate, the fog that exits the fog discharge protrusion formed on the housing is blown to the edge of the centrifugal plate so that the fog spreads to the outside of the housing. A technology including an upper fan that performs is presented.

Patent Document 003 includes a guide portion installed along the inside of a house, each end of which is fixed to a support frame or support frame installed within the house; A supply pipe installed below the guide part along the longitudinal direction of the house and through which the medicine is supplied, and a spray nozzle installed at a distance along the longitudinal direction of the supply pipe to spray the medicine supplied through the supply pipe to the outside. A pharmaceutical supply department including; a plurality of hangers, one end of which is fastened to the guide part and the other end of which is fastened to the supply pipe or the spray nozzle so as to suspend and support the supply pipe with respect to the guide part; A moving part installed on the other side of the supply pipe to reciprocate the supply pipe along the longitudinal direction of the guide part so as to vary the injection area of the medicine sprayed from the injection nozzle along the longitudinal direction of the guide part; , a technology is proposed in which the guide part and the supply pipe are installed parallel to each other and inclined to the ground so that the supply pipe can move back and forth smoothly by the moving part.

Patent invention 004 is a greenhouse equipped with a heating and cooling circuit, which includes a plurality of vertical support bars erected from the ground constituting the frame, a horizontal support bar connecting the vertical support bars horizontally, and a vinyl film covering the outside of the vertical support bars and the horizontal support bars. In the greenhouse consisting of, the inside of the ceiling vinyl film covering the outside of the greenhouse is hollow on the inside, and both ends are welded to the inner surface of the vinyl film by high-frequency welding, and includes a cooling and heating circulation path communicating in a zigzag shape. is presenting.

KR 10-2022-0038886 A (March 29, 2022) KR 10-2343480 B1 (December 22, 2021) KR 10-1951750 B1 (February 19, 2019) KR 10-2008-0039360 A (May 7, 2008)

The present invention is a greenhouse. This is about a fog machine that can control temperature and humidity by spraying mist inside a structure such as a breeding farm, and a temperature control system using the same.

It is intended to solve the problems of prior inventions, and the present invention relates to a fog machine, which includes a spray unit 100 that is supported on a structure 10 and sprays water; A pressure control unit 200 connected to the spray unit 100 and controlling the pressure of the water supply; A supply unit 300 connected to the pressure control unit 200 and supplying constant water to the spray unit 100; It is formed in the supply unit 300 and consists of a configuration including a temperature control unit 400 that controls the temperature of the water.

The present invention relates to a fog machine, and includes the spray unit 100 presented above; Pressure control unit (200); Supply department (300); The invention consists of a temperature control unit 400; a frame 110 formed on the spray unit 100 and on the ceiling of the structure 10; A supply pipe 120 fastened to the frame 110 and supplied with constant water; A discharge device 130 is formed at the end of the supply pipe 120 and discharges water.

The present invention relates to a fog machine, and includes the spray unit 100 presented above; Pressure control unit (200); Supply department (300); The invention consists of a temperature control unit 400; spray nozzles 131 formed on the discharge device 130 and formed on both sides of the supply pipe 120; An on-off valve 132 is formed on the spray nozzle 131 and opens and closes the water supply.

The present invention relates to a fog machine, and includes the spray unit 100 presented above; Pressure control unit (200); Supply department (300); The invention consists of a temperature control unit 400; a connection pipe 210 formed in the pressure control unit 200 and connected to the spray unit 100; A pressure pump 220 is coupled to the connection pipe 210 and adjusts the pressure.

The present invention relates to a fog machine, and includes the spray unit 100 presented above; Pressure control unit (200); Supply department (300); The invention consists of a temperature control unit (400); a water pipe (310) formed in the supply unit (300) and supplying water; A storage tank 320, which is formed to be spaced apart from the water pipe 310 and stores water, is added.

The present invention relates to a fog machine, and includes the spray unit 100 presented above; Pressure control unit (200); Supply department (300); The invention consists of a temperature control unit 400; a geothermal device 410 formed in the temperature control unit 400 and controlling the temperature by circulating water into the ground; A temperature control device 420 that is connected to the geothermal device 410 and cools the water is added.

The present invention relates to a temperature control system utilizing a fogger, and includes the spray unit 100 presented above; Pressure control unit (200); Supply department (300); The invention consists of a temperature control unit (400); a fog machine (20) according to any one of claims 1 to 6 installed on the structure (10); A measurement sensor 500 formed on the structure 10 and measuring internal temperature and humidity; A control server 600 connected to the fogger 20 and the measurement sensor 500 and controlling the spray amount and temperature; It is formed in the control server 600 and consists of a communication device 700 that communicates with the manager's terminal.

The present invention relates to a temperature control system using a fog machine, and includes the fog machine (20) presented above; Measurement sensor (500); Control server (600); To the invention consisting of the communication device 700, a thermal break block 800 is added, which is formed on the fog machine 20 and is installed on the inner or outer wall of the structure 10 to spray water.

The present invention relates to a temperature control system using a fog machine, and includes the fog machine (20) presented above; Measurement sensor (500); Control server (600); The invention consists of a communication device (700); a temperature measurement sensor (510) formed on the measurement sensor (500) and measuring the temperature and humidity inside the structure (10); An imaging device 520 is installed on the structure 10 and photographs the interior.

The present invention relates to a temperature control system using a fog machine, and includes the fog machine (20) presented above; Measurement sensor (500); Control server (600); The invention consists of a communication device 700; a spray control server 610 formed in the control server 600 and controlling a plurality of the spray units 100; A pressure control server 620 connected to the pressure control unit 200 and controlling the spray amount; A temperature control server 630 is connected to the temperature control unit 400 and controls the temperature of the water supply.

The present invention can control temperature and humidity by spraying mist into the interior of the structure.

The present invention can control the temperature inside the structure by controlling the temperature of the mist. The present invention enables effective mist spraying by simultaneously using a water tank storing tap water and a water pipe.

The present invention can spray mist throughout the structure as the spray unit moves in the frame.

The present invention can more effectively control the temperature and humidity inside a structure by measuring the temperature inside the structure and spraying mist.

1 is a conceptual diagram of a fog machine installed in the structure of the present invention.
Figure 2 is a conceptual diagram of the fog machine of the present invention.
Figure 3 is a cross-sectional view of the frame on which the fogger of the present invention is installed.
Figure 4 is a perspective view showing a discharge device installed on the frame of the present invention.
Figure 5 is a conceptual diagram showing a discharge device in which the fastening member of the present invention is formed.
Figure 6 is a conceptual diagram of a temperature control system using the fogger of the present invention.
Figure 7 is a conceptual diagram showing a structure in which a thermal bridge blocking unit of the present invention is installed.

Hereinafter, the most preferred embodiments of the present invention will be described in detail in order to enable those skilled in the art to easily practice the present invention.

Numbers cited in the examples below are not limited to the objects of citation and can be applied to all examples. An object that has the same purpose and effect as the configuration presented in the examples is an equivalent replacement object. The high-level concept presented in the examples includes low-level concept objects that are not described.

(Example 1-1) The present invention provides a fog machine, which includes a spray unit 100 that is supported on a structure 10 and sprays water; A pressure control unit 200 connected to the spray unit 100 and controlling the pressure of the water supply; A supply unit 300 connected to the pressure control unit 200 and supplying constant water to the spray unit 100; It is formed in the supply unit 300 and includes a temperature control unit 400 that controls the temperature of the water.

(Example 1-2) In Example 1-1, the fog machine of the present invention includes that the structure 10 is formed of one selected from agricultural buildings, greenhouses, kennels, performance halls, and public buildings.

(Example 1-3) In Example 1-2, the fog machine of the present invention is formed in the spray unit 100 and sprays mist with controlled temperature and humidity.

(Example 1-4) In Example 1-3, the fog machine of the present invention includes the supply unit 300 supplying one selected from tap water and groundwater.

(Example 1-5) In Example 1-4, the fog machine of the present invention is formed in the supply unit 300 and includes a water pipe 310 for supplying water.

(Example 1-6) In Example 1-1, the fog machine of the present invention includes a storage tank 320 that is formed to be spaced apart from the water pipe 310 and stores water; It is formed in the storage tank 320 and includes a filtration filter that filters water.

The present invention relates to a fog machine, and specifically, the fog machine 20 sprays constant water as a mist to control the temperature and humidity inside the structure 10. Referring to FIGS. 1 and 2, this fog machine 20 sprays fog-shaped mist to control the temperature and humidity inside the structure 10 and sprays constant water that is harmless to the human body. At this time, the fog machine 20 sprays constant water as a mist into the interior of various structures 10 such as agricultural buildings, greenhouses, kennels, and public buildings to control temperature and humidity, and creates a fog effect in structures 10 such as performance halls. To generate the constant water is sprayed as a mist.

Such a fogger is formed with a spray unit 100 that sprays water and a pressure control unit 200 that is connected to the spray unit 100 and controls the spray amount by controlling the pressure of the water. At this time, the spray unit 100 may be formed on the ceiling of the structure 10 to spray mist on plants, animals, and people, or may be formed on the stage of a performance hall to generate a fog effect. And a supply unit 300 is connected to the pressure control unit 200 to supply constant water to the spray unit 100. The supply unit 300 supplies water, groundwater, etc. that are harmless to the human body. The supply unit 300 is formed by a storage tank 320 that stores rainwater, tap water, etc., and a water pipe 310 through which the water supply is directly connected. The storage tank 320 is formed with a filtration filter so that the stored water or rainwater is filtered and supplied to the spray unit 100 in a state harmless to the human body, and the water pipe 310 sprays water using water of a certain temperature as water. The goal is to make it happen.

Therefore, the fogger 20 of the present invention has the characteristic of controlling the temperature and humidity inside the structure 10 by spraying mist on various structures 10.

(Example 1-7) In Example 1-1, the fog machine of the present invention is formed in the supply unit 300 and includes a chemical supply tank 330 that supplies one chemical selected from pesticides and nutrients. .

(Example 1-8) In Example 1-7, the fog machine of the present invention is formed in the chemical supply tank 330 and includes a supply pump for supplying the chemical.

(Example 1-9) In Example 1-8, the fog machine of the present invention includes that the chemical supply tank 330 is connected to the front of the pressure regulator 200.

The present invention relates to the supply unit 300, and specifically, the supply unit 300 is formed with a chemical supply tank 330 through which chemicals such as pesticides and nutrients are supplied along with water. Referring to FIG. 1, this chemical supply tank 330 stores pesticides, nutrients, etc. when growing plants and allows the chemicals to be sprayed through the spray unit 100. A supply pump is formed in the chemical supply tank 330, and the chemical stored inside the chemical supply tank 330 is sprayed to the spray unit 100 at a controlled pressure.

(Example 2-1) The present invention relates to a fog machine, and in Example 1-1, a frame 110 formed in the spray unit 100 and formed on the ceiling of the structure 10; A supply pipe 120 fastened to the frame 110 and supplied with constant water; It is formed at the end of the supply pipe 120 and includes a discharge device 130 that discharges water.

(Example 2-2) In Example 2-1, the fog machine of the present invention includes that the frame 110 is formed by being coupled to the structure of the structure 10.

(Example 2-3) In Example 2-2, the fog machine of the present invention includes a coupling plate 111 where the frame 110 is coupled to the structure 10; It extends from both sides of the coupling plate 111 and includes a seating plate 112 on which the discharge device 130 is seated.

(Example 2-4) In the fog machine of the present invention in Example 2-1, the seating plate 112 has a separation prevention protrusion 113 that protrudes inward to prevent the discharge device 130 from being separated. Includes.

(Example 2-5) In Example 2-5, the fog machine of the present invention includes the supply pipe 120 extending from the discharge device 130 to the frame 110.

The present invention relates to the spray unit 100, and specifically, the spray unit 100 is formed inside the structure 10 to spray constant water as a mist. Referring to FIG. 3, this spray unit 100 is formed inside a structure 10 formed of a structure formed of pillars and beams and a wall, and is formed by being coupled to the structure. At this time, the spray unit 100 is formed with a frame 110 that is coupled to the structure, and the frame 110 is formed in various shapes depending on the shape of the structure or is spaced apart from the structure and is formed in various shapes on the ceiling of the structure 10. . Specifically, when the frame 110 is formed in various ways, such as a curved surface or a triangle, such as a greenhouse, the frame 110 is formed in a curved surface, a triangle, etc., and is formed horizontally on the ceiling.

And the frame 110 is formed with a coupling plate 111 coupled to the structure 10 and a seating plate 112 extending from the coupling plate 111 to both sides. The coupling plate 111 is fixed to the structure of the structure 10 by various fixing hardware, and the seating plate 112 extends from both sides of the coupling plate 111 to couple the discharge device 130. A separation prevention protrusion 113 is formed on the inside of the seating plate 112 to prevent the discharge device 130 installed on the seating plate 112 from being separated. In this way, the discharge device 130 formed on the seating plate 112 is connected to the discharge device 130 and the frame 110 through the supply pipe 120, and the length of the supply pipe 120 is adjusted.

(Example 2-6) In the fog machine of the present invention in Example 2-4, the discharge device 130 is seated on the seating plate 112 and has a seating member 133 through which the supply pipe 120 penetrates. Includes ;

(Example 2-7) In Example 2-6, the fog machine of the present invention is formed on the seating member 133, and includes a moving member 134 that moves the seating member 133 on the seating plate 112. ); includes.

(Example 2-8) In Example 2-7, the fogger of the present invention is formed at the end of the moving member 134 and is formed on the wall of the structure 10 to determine the position of the discharge device 130. Includes an adjusting member 135 that adjusts.

The present invention relates to a discharge device 130, and specifically, the discharge device 130 is fixed to the frame 110 or configured to move. Referring to FIG. 4, this discharge device 130 is formed with a seating member 133 that is seated on the seating plate 112 of the frame 110, and the seating member 133 is a discharge device through which the supply pipe 120 penetrates. The position of (130) is adjusted. The seating member 133 has separation prevention grooves formed on both sides so that the separation prevention protrusions 113 are coupled together, and a moving body with wheels is formed at the bottom of the seating member 133. At this time, the moving body is guided to move when a load is applied by a separate elastic member. In addition, a moving member 134 such as a wire is formed on the seating member 133 to move the seating member 133 seated on the seating plate 112, and the position of the moving member 134 is variously changed by rollers. . And the end of the moving member 134 is wound by the adjusting member 135 formed on the wall of the structure 10 to move the seating member 133. The control member 135 is formed with a handle and can change the position of the discharge device 130 by manually winding the moving member 134 or automatically change the position of the discharge device 130 by a motor.

(Example 3-1) The present invention relates to a fog machine, and in Example 2-1, a spray nozzle 131 is formed on the discharge device 130 and is formed on one or both sides of the supply pipe 120. ); It is formed on the spray nozzle 131 and includes an opening/closing valve 132 that opens and closes the water supply.

(Example 3-2) In Example 3-1, the fog machine of the present invention is formed on the discharge device 130 and includes a fastening member 140 to which a plurality of spray nozzles 131 are fastened.

(Example 3-3) In Example 3-1, the fogger of the present invention includes the fastening member 140 being formed in a cross-sectional shape selected from circle, square, and triangle.

(Example 3-4) In Example 3-3, the fog machine of the present invention includes that the opening and closing valve 132 is automatically opened and closed by a motor.

The present invention relates to a discharge device 130, and specifically, the discharge device 130 is formed on both sides of the supply pipe 120 to discharge constant water. Referring to FIG. 5, this discharge device 130 is formed at the end of the supply pipe 120, and constant water is sprayed as mist by pressure. At this time, the supply pipe 120 is formed in a bellows type or the position of the spray nozzle 131 is adjusted as the length is adjusted by an adjustment motor formed on the seating member 133. Spray nozzles 131 are formed on one or both sides of the supply pipe 120 to spray mist widely into the structure 10. At this time, a plurality of spray nozzles 131 are fastened to the fastening members 140 formed in various cross-sectional shapes such as circular, square, and triangular, so that mist is sprayed in all directions.

In addition, an opening/closing valve 132 is formed in the supply pipe 120 to supply and block the water supplied to the spray nozzle 131, and the open/closing valve 132 is automatically opened and closed by a motor, so that the water is sprayed as mist.

(Example 4-1) The present invention relates to a fogger, and in Example 3-1, a connection pipe 210 formed in the pressure control unit 200 and connected to the spray unit 100; It is coupled to the connection pipe 210 and includes a pressure pump 220 that regulates pressure.

(Example 4-2) In Example 4-1, the fog machine of the present invention includes the connection pipe 210 being formed by connecting the supply pipe 120 and the supply unit 300.

The present invention relates to the pressure regulator 200, and specifically, the pressure regulator 200 controls the pressure of constant water supplied through the connection pipe 210. Referring to FIGS. 1 and 2, the pressure control unit 200 is formed with a connection pipe 210 that connects the spray unit 100 and the pressure pump 220, and the connection pipe 210 is connected to the spray unit 100. ) is connected to the water supply unit 300 to supply constant water to the spray unit 100. A pressure pump 220 is formed in the connection pipe 210 to deliver constant water to the spray unit 100 by pressure. At this time, the spray amount is adjusted according to the pressure of the pressure pump 220.

(Example 5-1) The present invention relates to a fog machine, and in Example 4-1, a geothermal device 410 is formed in the temperature control unit 400 and regulates the temperature by circulating water into the ground; It is connected to the geothermal device 410 and includes a temperature control device 420 that cools the water.

(Example 5-2) In Example 5-1, the fog machine of the present invention is formed in the geothermal device 410 and includes a circulation pipe 411 buried in the ground through which constant water is circulated.

(Example 5-3) In Example 5-2, the fog machine of the present invention is formed in the temperature control device 420 and includes a water tank in which constant water is stored; It is formed in the water tank and includes a control panel that controls the temperature of the water.

(Example 5-4) In Example 5-3, the fog machine of the present invention includes a control tube formed in the control panel and controlling the antifreeze inside; It includes a control chamber formed in the control pipe and cooling or heating the antifreeze.

The present invention relates to the temperature control unit 400, and specifically, the temperature control unit 400 controls the temperature of water. Referring to FIGS. 1 and 2, the temperature control unit 400 forms a geothermal device 410 that regulates the temperature by circulating water into the ground, and the geothermal device 410 is supplied through the water supply unit 300. The temperature is controlled by circulating the constant water inside the circulation pipe 411 buried in the ground. And the constant water circulated in the geothermal device 410 is directly delivered to the spray unit 100 through the pressure pump 220. In addition, the temperature control device 420 is formed with a water tank in which constant water is stored, and the constant water tank is formed with a control panel that controls the temperature of the constant water. The temperature of the water supply is controlled by a control tube surrounding the outside of the control panel. At this time, the control panel controls the temperature inside the water tank by forming a zigzag control tube, and the control tube circulates antifreeze whose temperature is adjusted in the control chamber.

And the temperature control device 420 is formed with a temperature sensor to measure the temperature of the water flowing into the water tank, adjusts the water to the set temperature, and sprays it. At this time, a temperature sensor is installed in each connection pipe 210 connecting the injection unit and the pressure control unit 200, the temperature control unit 400, and the water supply unit 300, and each temperature sensor measures the temperature simultaneously or separately. By measuring the temperature, the temperature of the sprayed water can be adjusted.

(Example 6-1) The present invention relates to a temperature control system utilizing a fogger, and in Example 5-1, any one of Examples 1-1 to 5-1 installed in the structure 10 Foggy (20); A measurement sensor 500 formed on the structure 10 and measuring internal temperature and humidity; A control server 600 connected to the fogger 20 and the measurement sensor 500 and controlling the spray amount and temperature; It includes a communication device 700 that is formed in the control server 600 and communicates with the manager's terminal.

(Example 6-2) In Example 6-1, the temperature control system using the fogger of the present invention is formed in the measurement sensor 500, and measures the temperature and humidity inside the structure 10. Includes a measurement sensor 510.

(Example 6-3) In Example 6-2, the temperature control system utilizing the fogger of the present invention includes the measurement sensor 500 installed in the structure 10, and a photographing device 520 for photographing the interior. ); includes.

(Example 6-4) In Example 6-1, the temperature control system utilizing the fog machine of the present invention is formed in the control server 600 and includes a spray control server that controls the plurality of spray units 100. (610); A pressure control server 620 connected to the pressure control unit 200 and controlling the spray amount; It includes a temperature control server 630 that is connected to the temperature control unit 400 and controls the temperature of the water supply.

(Example 6-5) In Example 6-1, the temperature control system using the fogger of the present invention is where the control server 600 includes the temperature control device 420, the geothermal device 410, and the water supply. It includes supplying constant water to at least one of the pipes 310.

The present invention relates to a temperature control system using a fogger. Specifically, the temperature control system using a fogger has a fogger 20 installed inside the structure 10 to control the temperature and humidity inside the structure 10. It is done. Referring to FIG. 6, the temperature control system utilizing such a fogger consists of a fogger 20 installed on the ceiling of the structure 10, and the fogger 20 moves inside the structure 10 and releases water and chemicals. Spray with mist. And the structure 10 is formed with a measurement sensor 500 that measures the internal temperature and humidity of the structure 10, and the measurement sensor 500 is formed with a temperature measurement sensor 510 and a humidity measurement sensor 500. (10) The water temperature and spray amount can be selected depending on the internal temperature and humidity. In addition, the measurement sensor 500 is formed with a photographing device 520 that photographs the interior, and the photographing device 520 can measure the amount of spray inside or check the spray unit 100 in which a malfunction has occurred.

The fogger 20 and the measurement sensor 500 are controlled by the control server 600, and the spray control server 610 formed in the control server 600 is a plurality of spray units installed in the structure 10. (100) is controlled respectively. And the spray control server 610 can control the position of the discharge device 130 to spray water and chemicals at the exact location.

And the pressure control server 620 formed in the control server 600 is capable of controlling the spray amount of water by controlling the pressure pump 220. The pressure control server 620 is formed in each of the plurality of spray units 100. By controlling each of the opening and closing valves 132, the spray amount of water sprayed through the spray nozzle can be controlled. In addition, the temperature control server 630 formed in the control server 600 controls the temperature control unit 400 to adjust and supply the temperature of the constant water according to the temperature inside the structure 10. In this way, the control server 600 can use the temperature control device 420 and the geothermal device 410 separately or simultaneously in the temperature control server 630.

And the control server 600 is formed with a communication device 700, and the communication device 700 communicates with terminals such as the manager's PC, tablet, and smartphone so that the manager can check the temperature and humidity inside the structure 10 from the outside. can be controlled and the medicine supplied.

(Example 7-1) The present invention relates to a temperature control system utilizing a fog machine. In Example 6-1, it is formed on the fog machine 20 and installed on the inner or outer wall of the structure 10. It includes a thermal break block 800 that sprays water.

(Example 7-2) In Example 7-1, the temperature control system utilizing the fogger of the present invention is formed in the thermal break portion 800 and includes an internal spray portion installed on the inner wall of the structure 10. (810); It includes an external spray unit 820 installed on the outer wall of the structure 10.

(Example 7-3) In Example 7-1, the temperature control system using the fogger of the present invention includes the thermal break unit 800 spraying mist from the top to the bottom.

The present invention relates to a thermal break portion 800, and specifically, the thermal break break portion 800 is formed on the upper part of the ceiling of the inner wall or outer wall of the structure 10 and sprays mist to prevent heat from outside the structure 10 from entering the structure. This prevents internal heat from being released. Referring to FIG. 7, this thermal bridge blocking unit 800 is formed with an internal spray unit 810 installed on the inner wall of the structure 10 and an external spray unit 820 installed on the outer wall of the structure 10. The internal spray unit 810 is formed diagonally on the internal ceiling of the structure 10, and a nozzle is formed to spray constant water as a mist downward toward the wall. And the external spray unit 820 sprays mist from the external ceiling of the structure 10 downward to block heat flowing into the interior from being directly transferred.

10: Structure 20: Fog
100: Spray unit 110: Frame
111: Coupling plate 112: Seating plate
113: escape prevention protrusion 120: supply pipe
130: Discharge device 131: Spray nozzle
132: Open/close valve 133: Seating member
134: moving member 135: adjusting member
140: Fastening member 200: Pressure control unit
210: Connector 220: Pressure pump
300: supply unit 310: water pipe
320: storage tank 330: chemical supply tank
400: temperature control unit 410: geothermal device
411: Circulation piping 420: Temperature control device
500: measurement sensor 510: temperature measurement sensor
520: Photographing device 600: Control server
610: Injection control server 620: Pressure control server
630: Temperature control server 700: Communication device
800: thermal block 810: internal injection unit
820: External injection unit

Claims (10)

A spray unit 100 that is supported on the structure 10 and sprays water;
A pressure control unit 200 connected to the spray unit 100 and controlling the pressure of the water supply;
A supply unit 300 connected to the pressure control unit 200 and supplying constant water to the spray unit 100;
A fog machine including a temperature control unit 400 formed in the supply unit 300 and controlling the temperature of the water.
In claim 1,
A frame 110 formed on the spray unit 100 and on the ceiling of the structure 10;
A supply pipe 120 fastened to the frame 110 and supplied with constant water;
A fog machine comprising a; a discharge device 130 formed at the end of the supply pipe 120 and discharging clean water.
In claim 1,
Spray nozzles 131 formed on the discharge device 130 and on both sides of the supply pipe 120;
A fog machine including an opening/closing valve (132) formed on the spray nozzle (131) and opening and closing the water supply.
In claim 1,
A connection pipe 210 formed in the pressure control unit 200 and connected to the spray unit 100;
A fog machine including a pressure pump 220 that is coupled to the connection pipe 210 and controls pressure.
In claim 4,
A water pipe 310 formed in the supply unit 300 and supplying water;
A fog machine comprising a storage tank 320 that is formed to be spaced apart from the water pipe 310 and stores water.
In claim 1,
A geothermal device 410 formed in the temperature control unit 400 and controlling the temperature by circulating water into the ground;
A fog machine including a temperature control device (420) connected to the geothermal device (410) and cooling the water.
In the temperature control system of the structure 10,
The fog machine (20) of any one of claims 1 to 6 installed on the structure (10);
A measurement sensor 500 formed on the structure 10 and measuring internal temperature and humidity;
A control server 600 connected to the fogger 20 and the measurement sensor 500 and controlling the spray amount and temperature;
A temperature control system using a fogger including a communication device (700) formed on the control server (600) and communicating with the manager's terminal.
In claim 7,
A temperature control system using a fog machine, including a thermal break block 800 formed on the fog machine 20 and installed on the inner or outer wall of the structure 10 to spray water.
In claim 7,
A temperature measurement sensor 510 formed on the measurement sensor 500 and measuring the temperature and humidity inside the structure 10;
A temperature control system using a fog machine including a photographing device 520 installed on the structure 10 and photographing the interior.
In claim 7,
A spray control server 610 formed on the control server 600 and controlling a plurality of the spray units 100;
A pressure control server 620 connected to the pressure control unit 200 and controlling the spray amount;
A temperature control system using a fogger, including a temperature control server 630 that is connected to the temperature control unit 400 and controls the temperature of the water supply.