KR20170009306A - Cold-hot-air and humidification device and its control method - Google Patents

Abstract

The present invention relates to a cold/hot air humidifier using electricity, and provides a cold/hot air humidifier capable of achieving high energy efficiency by adopting a heating method using an electromagnetic induction coil, and a control method controlling an operation thereof through a terminal. According to the present invention, the present invention comprises: a chamber; a supply unit; an ultrasonic vibration generator; a high frequency induction heater; a high frequency oscillator; a circulation piping; a circulation pump; a radiator; a fan; an ultrasonic vibrator; a spray tube; a spray nozzle; a transmitting unit; a receiving unit; and a control unit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a humidification device,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cold air humidification apparatus and a method for controlling the same, and more particularly to a cold air humidification apparatus using a heating system using an electromagnetic induction coil and a method of controlling the same using a terminal .

In general, a hot air fan increases the temperature of the air by artificially so that the room temperature is maintained in the winter season. The principle is that the heat of the high temperature is conducted to the ambient air by various kinds of heat sources, So that the heating can be performed by diffusing into the room.

The heat source of such a hot air fan can be divided into oil, gas, harmonics, electric heater and the like. However, it is disadvantageous that it is very troublesome to purchase oil because the oil is hot and the economical burden is high, and the oil purchase place is limited to the gas station or the like.

However, in the case of a hot air fan using a gas cylinder, it is troublesome to replace the gas cylinder when the gas is consumed, and when the city gas is used, the city gas is not supplied There is a disadvantage that it can not be used in places.

The hot air fan using the harmonics is disadvantageous in that it is troublesome and difficult to handle such as the continuous supply of the heat source and the processing of the ash after the combustion, and also causes the air pollution due to the smoke generated in the combustion.

Electric hot-air fans have the advantage that the price of heat source is lower than that of other heat sources and can be easily supplied from everywhere, so that it is economically easy to handle and easy to handle, and air pollution is relatively small. However, The heat generating part applies electricity to a coiled heat wire to generate heat by electrical resistance. Such a heat generating part has a problem of excessive power consumption because heat efficiency is not good.

Patent Document 1 is directed to blowing heat generated by using electrical resistance of a heat generating portion through a fan, and has a low thermal efficiency. Accordingly, the present invention proposes an apparatus and a control method capable of warm air with high efficiency using electromagnetic induction.

Korean Registered Patent No. 1439490 (published on September 12, 2014)

In order to solve the above-described problems, the present invention provides a cold / warm air humidifying device that uses electricity, introduces a heating method using an electromagnetic induction coil to provide a cold / humidifying device capable of achieving high energy efficiency, And to provide a control method for controlling the operation of the apparatus.

According to an aspect of the present invention, there is provided a cold / hot water storage device comprising: a chamber for containing water and a water level maintained constant; a water supply port connected to the water supply port of the chamber, A heater for supplying water; an ultrasonic vibration generator installed so as to be submerged in water in the chamber, for removing bubbles generated in the chamber; and an induction coil formed by winding wires on a circular tube, A high frequency oscillator for passing a current through the electric wire forming the induction coil to transmit electric power to the high frequency induction heater; a circulation loop for connecting an inlet through which water enters into the chamber and an outlet through which water escapes into the chamber; A circulation pump connected to the circulation pipe for increasing water pressure of water flowing through the circulation pipe, And a fan positioned in front of the radiator, wherein the radiator radiates heat of water flowing through the circulation pipe, and a fan for blowing the heat radiated from the radiator to the outside using the wake of the fan, At least one indentation formed toward the inside of the chamber is provided on one side of the chamber, the high frequency induction heater is respectively charged into the indentation, the indentation is heated through the high frequency heater, and the heated indentation And the temperature of the water inside the chamber is increased through the heat exchanger.

According to an embodiment of the present invention, the supply unit is a water tank, and water is supplied to the chamber through a water cistern, and the water level of the chamber is kept constant.

According to an embodiment of the present invention, the supply unit is a water pipe, and water is supplied to the chamber through a water pipe, and the water level of the chamber is kept constant.

The cold air conditioner according to an embodiment of the present invention may further include a transmitter for transmitting operation information of the cold / hot air device, a receiver for receiving information for controlling the cold / hot air device, and a controller for executing a control signal received from the receiver And a cold / hot air device.

A method for controlling a cold / hot air device including a transmitter, a receiver, and a controller according to an embodiment of the present invention, the method comprising: a transmitter transmitting operation information of the cold / hot air device to the terminal; A control step of controlling the operation of the cold / hot air device in accordance with the information received from the receiver by the receiving section, the information being received from the terminal for controlling the cold / Lt; / RTI >

The transmitting unit transmits the power operation information of the cold / hot air device, and the receiver receives the power control information of the cold / hot air device from the terminal. According to the control information, And controlling the power of the air conditioner to be turned on or off.

When the set temperature is input to the terminal according to an embodiment of the present invention, the receiver receives the set temperature information, and the controller compares the set temperature with the current temperature. If the current temperature is lower than the set temperature A cold / hot air device control method for increasing the hot air output of the cold / hot air device.

When the set temperature is input to the terminal according to an embodiment of the present invention, the receiver receives the set temperature information, and the controller compares the set temperature with the current temperature. If the current temperature is higher than the set temperature A cold / hot air device control method for increasing the cold air output of the cold / hot air device.

When the set temperature is input to the terminal according to an embodiment of the present invention, the receiver receives the set temperature information, and the controller compares the set temperature with the current temperature. If the current temperature is equal to the set temperature And controlling the cold / hot air device to turn off the cold / hot air device.

When the preset temperature, the set humidity, or the power operation information for a specific time is reserved and input to the terminal according to an embodiment of the present invention, the receiver receives the reserved information, and the controller, And controlling the hot / cold air humidifying device in accordance with the reserved information.

According to an aspect of the present invention, there is provided a cold and humid air humidification apparatus including: a chamber for containing water, a water level of which is kept constant, a chamber connected to the chamber, An ultrasonic vibration generator installed in the chamber so as to be submerged in water to remove bubbles generated inside the chamber, and an induction coil formed by winding a wire on a circular tube, wherein the heater has at least one A high frequency oscillator in which a high frequency induction heating furnace, a current flowing in the electric wire forming the induction coil to transmit electric power to the high frequency induction heating furnace, an inlet port for water into the chamber and an outlet port for discharging water into the chamber A circulation pump connected to the circulation pipe for increasing the water pressure of the water flowing through the circulation pipe, A radiator connected to the pipe and, the radiating heat water flowing through the circulation pipe and a fan positioned in front of the radiator,

An ultrasonic vibrator provided inside the chamber for generating water by vibrating the water molecules in the chamber by ultrasonic waves, a tube through which the spray generated from the ultrasonic vibrator moves, an atomizing tube for connecting the inside and the outside of the chamber, A spray nozzle connected to one end of the spray pipe and sprayed to the outside through the spray pipe, a transmitter for transmitting operation information of the hot and cold air humidifier, a controller for receiving information for controlling the hot air humidifier, And a controller for executing a control signal received from the receiving unit, wherein the radiating fan radiates heat from the radiator using a wake of the fan, , And the high-frequency induction heater is respectively charged into the indentation portion Wherein the indenting portion is heated through the high frequency heater and the temperature of the water inside the chamber is increased through the heated indentation portion.

In the cold / hot air conditioner according to an embodiment of the present invention, the supply unit is a water tank, and water is supplied to the chamber through a water can, and the water level of the chamber is kept constant.

In the cold / hot air conditioner according to an embodiment of the present invention, the supply unit is a water pipe, water is supplied to the chamber through a water pipe, and the water level of the chamber is kept constant.

A method for controlling a cold / hot air humidifier including a transmitter, a receiver, and a controller using a terminal, the method comprising: a transmitting step of transmitting operation information of the hot / A control step of controlling the operation of the cold / hot air humidifier according to the information received from the receiver by the control unit, Air humidifying device control method.

The transmitting unit transmits the power operation information of the cold / hot air device, and the receiver receives the power control information of the cold / hot air device from the terminal. According to the control information, And controlling the power of the air conditioner to be turned on or off.

When the set temperature is input to the terminal according to an embodiment of the present invention, the receiver receives the set temperature information, and the controller compares the set temperature with the current temperature. If the current temperature is lower than the set temperature And a method for controlling the hot and cold air humidifying device to increase the hot air output of the hot / cold air humidifying device.

When the set temperature is input to the terminal according to an embodiment of the present invention, the receiver receives the set temperature information, and the controller compares the set temperature with the current temperature. If the current temperature is higher than the set temperature A control method of the cold / hot air humidifying device for increasing the cold air output of the hot / cold air humidifying device.

When the set temperature is input to the terminal according to an embodiment of the present invention, the receiver receives the set temperature information, and the controller compares the set temperature with the current temperature. If the current temperature is equal to the set temperature And controlling the hot air humidification device to turn off the power of the hot air humidification device.

When the set humidity is input to the terminal according to an embodiment of the present invention, the receiver receives the set humidity information, and the controller compares the set humidity with the current humidity. If the current humidity is lower than the set humidity And controlling the hot air humidification device to increase the spray output of the hot air humidifier.

When the preset temperature or power operation information for a specific time is reserved and input to the terminal according to an embodiment of the present invention, the receiver receives the reserved information, and when the predetermined time comes, And controlling the cold / hot air device according to the control signal.

There is provided a method for controlling an indoor space including a server using at least one terminal including at least one cold air humidifier and at least one sensing unit according to an embodiment of the present invention, Wherein the temperature and humidity of the indoor space are measured, and the hot / cold air humidifying device includes a transmitter, a receiver, and a controller, and transmits temperature and humidity information of the indoor space from the detector to the server, A receiving step of receiving the temperature and humidity information from the terminal and receiving operation information of the hot / cold air humidification device from the transmitter through the terminal; and a control step of receiving information for controlling the hot / The operation of the cold / warm air humidifying device is controlled in accordance with the information received by the receiving unit Interior space control method for a control step that can be.

The sensing unit according to an embodiment of the present invention is arranged in a plane with respect to the height of the indoor space, receives temperature and humidity information measured from the sensing unit through the server, And the temperature and humidity information according to the position of the indoor space are three-dimensionally displayed.

The two or more cold-air humidifying devices according to one embodiment of the present invention are installed close to the ground of the indoor space and are installed high on the ground of the indoor space,

And controlling the temperature and the humidity to be different according to the height of the indoor space through the terminal based on the information displayed in a stereoscopic manner.

The two or more cold air humidifying devices according to an embodiment of the present invention may be installed close to the ground surface of the indoor space and at a height from the ground surface of the indoor space. When the set temperature is inputted through the terminal, The hot / cold air humidifying device installed close to the hot and humidifying device outputs hot air at a temperature higher than the set temperature. The hot / cold air humidifier installed at the ground level outputs hot air at a temperature lower than the set temperature, And controlling the temperature of the indoor space to the set temperature by convection.

The originating step according to an embodiment of the present invention is characterized in that, when specific crop information is input to the terminal, preset temperature and set humidity information for the crop are transmitted to the receiver .

The indoor space control unit may further include a group designation step of grouping the hot and cold air humidification apparatuses and the sensing units according to an embodiment of the present invention, Lt; / RTI >

When the set temperature of the indoor space is inputted through the terminal according to the embodiment of the present invention, the current temperature measured by the sensing unit is received through the server, and the sensing unit having a large difference between the current temperature and the set temperature, It is possible to increase the output of the hot air or cold air of the hot / cold air humidifying device and to reduce the temperature of the hot air or the cold air of the group of the hot /

When the set humidity of the indoor space is inputted through the terminal according to the embodiment of the present invention, the current humidity measured by the sensing unit is received through the server, and the sensing unit of the portion having a large difference between the current humidity and the set humidity, It can be an indoor space control method of raising the spray output of the cold / hot air humidifying device and lowering the spray output of the sensing portion and the grouped cold / hot air humidifying device in which the difference between the current humidity and the set humidity is small.

The indoor space may be divided into two or more virtual zones through the terminal according to an embodiment of the present invention and an indoor space for adjusting the temperature and humidity differently by zones using the grouped hot / Control method.

The two or more cold air humidifying units may be installed close to the ground surface of the indoor space and may be installed at a height higher than the ground surface of the indoor space However,

The hot and cold air humidification device installed close to the ground outputs hot air at a temperature higher than the set temperature and the hot air humidification device installed at a height higher than the set temperature, Lt; / RTI >

It may be an indoor space control method of controlling the temperature of the indoor space to the set temperature by convecting the indoor air due to the temperature difference of the warm air.

According to the present invention, since the apparatus of the present invention uses a method of heating water using an electromagnetic induction method, energy consumption can be reduced and high efficiency can be achieved. This has the economic effect of directly reducing power charges.

The apparatus according to the present invention does not require a separate boiler room and can be easily installed if only electrical wiring is provided. Further, the apparatus according to the present invention is advantageous in terms of space usage because of its small size, and is simple in structure and convenient in maintenance.

In addition, the apparatus according to the present invention can also use a cooling and humidifying function as needed, so that the temperature and humidity of the indoor space can be controlled by a single device. When the apparatus and the terminal according to the present invention are used in combination, temperature and humidity of the indoor space can be adjusted remotely or wirelessly using the terminal, which is advantageous in preventing condensation.

FIG. 1 shows a cold / warm air device according to an embodiment of the present invention.
2 is a schematic view illustrating a hot air humidifier according to an embodiment of the present invention.
FIG. 3 illustrates an indoor space according to an embodiment of the present invention.
4 illustrates an example of an indoor space control according to an embodiment of the present invention.
5 is an interior space according to an embodiment of the present invention, which is a greenhouse.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference numerals whenever possible, even if they are shown in different drawings. In the following description of the embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the difference that the embodiments of the present invention are not conclusive.

In describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected or connected to the other component, Quot; may be "connected," "coupled," or "connected. &Quot;

FIG. 1 shows a cold air apparatus 100 according to an embodiment of the present invention. Referring to the drawings, the present invention is a device for using electricity as an energy source, and is a cold / warm air device 100 capable of performing a cold air function and a warm air function. The hot air function and the cold air function according to the present invention will be sequentially described.

Water is contained in the chamber 110, and water serves as a heat medium to transfer heat. The high-frequency induction heater 180 warms the water in the chamber 110 and circulates along the circulation pipe 130. A depression 114 is formed in the chamber 110. The indent 114 is a space for inserting the high frequency induction heater 180 and is formed at one side of the chamber 110 and recessed into the chamber 110. The number of the indentation portions 114 may be formed as necessary, and the number is not limited.

The high frequency induction heater 180 is inserted or inserted into the indent 114 of the chamber 110 by winding the induction coil 181 in a spiral shape on a cylindrical shape. When power is transmitted from the high frequency oscillator 190 to the induction coil 181 and current flows through the induction coil 181, the indent 114 surrounding the high frequency induction heater 180 is heated. The high-frequency oscillator 190 serves as a power source for transmitting electric power to the induction coil 181. The high-frequency oscillator 190 may include a transformer as needed to raise the voltage as needed. Accordingly, the indentation 114 surrounding the high frequency induction heater 180 should be made of a material that can be heated by electromagnetic radiation. When the indent 114 surrounding the high frequency induction heater 180 is heated, heat is transferred to the water inside the chamber 110 which contacts the indentation 114, and the water is heated to generate hot water. The induction coil 181 may be covered with a heat insulating material to protect the induction coil of the high frequency induction heater 180 or the induction coil 181 may be covered with the heat insulating material to protect the induction coil of the high frequency induction heater 180, The high frequency induction heater 180 can be finished with an insulating material. The number of the high frequency induction heater 180 may be formed as necessary, and the number of the high frequency induction heater 180 is not limited. However, since the high frequency induction heater 180 is inserted into the indent 114 of the chamber 110, it is preferably the same as the number of the indentations 114.

When the indentation 114 is heated through the high frequency induction heater 180 and water in the chamber 110 is sequentially heated, bubbles are generated in the chamber 110. The generated bubbles adhere to the surface of the indent 114 inside the chamber 110. The bubbles adhere to the surface of the indentation 114 and interfere with the heat conduction from the indentation 114 to the water, so that the bubbles must be properly removed to maintain the thermal efficiency. Therefore, the ultrasonic vibration generator 120 should be provided inside the chamber 110 to shake the water by vibrating the water. The ultrasonic vibration generator 120 may be attached at any position as long as it is immersed in the water in the chamber 110.

The water in the chamber 110 flows out of the chamber 110 along the outlet port 112 and circulates through the circulation pump 140 and the radiator 150 and returns to the chamber 110 along the inlet 111 . The circulation pump 140 serves to increase the pressure of the water discharged from the chamber 110 back to the chamber 110. The water flowing out of the chamber 110 passes through the radiator 150, releases heat, and returns to the chamber 110 in a state where the temperature is lowered.

The radiator 150 may be made of a material having high thermal conductivity to maximize heat dissipation of water, and may further include a radiating fin. Further, the cold / warm air apparatus 100 according to the present invention may include a fan 160 to blow air toward the radiator 150. The flow of air blown from the fan 160 passes through the radiator 150 and the temperature rises to the outside.

According to the above-described warm air function, the water in the chamber 110 circulates inside the closed system of the cold / warm air device 100, and does not leak or leak out. However, since a certain amount of trace can be reduced, it is necessary to supply water. A supply port 113 is provided on one side of the chamber 110 so that water can be supplied from the outside to the inside of the chamber 110. A supply port 170 is connected to the supply port 113. The supply port 170 may be connected to the water port 171 and the water pipe 172. [ The water tub 171 must be manually filled with water, and the water pipe 172 may be connected to a hose to be automatically supplied as needed. The supply part 170 connected to the supply port 113 supplies water so that the water level inside the chamber 110 is kept constant.

The following describes the cold air function. The cold air function is not a special energy source but is a function of supplying groundwater to the chamber 110 through the radiator 150 and sending the groundwater through the fan 160 when the groundwater temperature is lower than the external temperature. This can be useful in summer when temperatures are high. In the case of using the cold air function, it is preferable to supply water to the supply unit 170 using the water pipe 172 rather than the water pipe 171.

FIG. 2 shows a cold air humidifier 200 according to an embodiment of the present invention. Referring to the drawings, the present invention is a device for using electricity as an energy source, which is a cold / humidifying device 200 capable of performing a cold air function, a hot air function, and a humidifying function. The hot air function, the cold air function and the humidification function according to the present invention will be described in order. Humidity refers to absolute humidity and relative humidity, but unless otherwise specified herein, refers to relative humidity and relative humidity is referred to as humidity for convenience.

The hot air function and the cold air function according to the present invention are not different from those of the cold / warm air apparatus 100 described in FIG. It is necessary to further provide a humidifying function while maintaining the configuration and function of the cold / warm air apparatus 100 shown in FIG. Therefore, the humidifying function of the cold / warm air humidifying device 200 according to an embodiment of the present invention will be described.

An ultrasonic vibrator is provided inside the chamber 110. The ultrasonic vibrator uses ultrasonic waves to vibrate water molecules to generate a spray. In order to generate the spray by the ultrasonic vibration, the ultrasonic vibrator should not be immersed in the water. Since the water level in the chamber 110 is maintained constant through the supply unit 170, the position of the ultrasonic vibrator can be set accordingly.

The spray generated from the ultrasonic vibrator is used along the spray pipe, and is sprayed out through the spray nozzle. The atomizing tube is formed inside the chamber 110, one end opening toward the outside of the chamber 110, and the other end opening toward the ultrasonic vibrator. The spray pipe connects the inside and the outside of the chamber 110 and is a path through which the spray moves. The spray produced near the surface of the water rises along the spray tube and exits through the spray nozzle.

The cold / warm air apparatus 100 according to an embodiment of the present invention shown in FIG. 1 may further include a transmitter, a receiver, and a controller. The transmitting unit can transmit the operating state of the cold / warm air device 100 to the outside, and the receiving unit can receive the information from the outside. The control unit receives information from the receiving unit and can control the output and operation of the cold / warm air device 100. Thus, the cold / hot air device 100 can be controlled remotely or wirelessly via an external device. The external device may be a wired controller, a wireless controller, a terminal, or the like. In particular, when the external device is a portable terminal, it can be interlocked with the cold / warm air device 100 through an application for controlling the cold / hot air device 100.

When the controller of the cold / warm air apparatus 100 is a terminal, the operation information of the cold / hot air apparatus 100 can be transmitted to the terminal through the transmitter of the cold / The received information basically indicates whether the cold / hot air device 100 is turned on or off. In this case, the cold / hot air device 100 can be turned on or off via the terminal. Further, time information may be input to the terminal, and the power of the cold / hot air device 100 may be reserved and turned on or off. Also, the output of the cold / warm air device 100 can be reserved and assigned to the terminal.

The operation of the cold / hot air device 100 can be controlled by inputting the set temperature through the terminal. When the information about the set temperature is received through the receiver of the cold / warm air apparatus 100, the controller of the cold / hot air apparatus 100 compares the current temperature with the set temperature to control the operation.

When the set temperature is higher than the current temperature, the hot water temperature of the cold / warm air apparatus 100 is controlled to be increased or the wind speed of the fan 160 is increased. Thus, the output of the hot air blown from the cold / warm air device 100 can be increased.

When the set temperature is lower than the current temperature, the wind speed of the fan 160 is increased to increase the cool air of the cold / warm air apparatus 100. Or the operation of the cold / hot air device 100 may be stopped. When the set temperature and the present temperature are the same, it is possible to control the hot air device, the cold air device, or the power source to be turned off according to the setting of the cold air device 100 in advance.

In addition, the sensing unit 300 is disposed in a planar manner with respect to the height of the indoor space, receives the measured temperature information from the sensing unit 300 through the server, So that the temperature information can be displayed in three dimensions.

Also, if a plurality of cold / warm air devices 100 are disposed in the indoor space with different heights, the temperature can be adjusted differently according to the height of the indoor space through the terminal using the stereoscopic information received by the terminal.

The cold / humidifying device 200 according to an embodiment of the present invention shown in FIG. 2 may further include a transmitter, a receiver, and a controller. The transmitting unit can transmit the operating state of the hot / cold air humidifying apparatus 200 to the outside, and the receiving unit can receive information from the outside. The controller receives the information from the receiver and can control the output and operation of the cold / warm air humidifier 200. Thus, the cold / warm air humidifying device 200 can be controlled remotely or wirelessly through an external device. The external device may be a wired controller, a wireless controller, a terminal, or the like. In particular, when the external device is a portable terminal, it can be interlocked with the cold / hot air humidifying device 200 through an application for controlling the cold / hot air humidifier 200.

When the control device of the hot / cold air humidifier 200 is a terminal, the operation information of the hot / humidifier 200 can be transmitted to the terminal through the transmitter of the hot / The transmitted information basically indicates whether the cold / hot air humidifying device 200 is turned on or off. In this case, the cold / hot air humidifying device 200 can be turned on or off via the terminal. Further, the time information may be input to the terminal, and the power of the hot / cold air humidifier 200 may be reserved and turned on or off. Also, the output of the cold / warm air device 100 can be reserved and assigned to the terminal.

The operation of the cold / warm air humidifying device 200 can be controlled by inputting the set temperature through the terminal. When the information about the set temperature is received through the receiver of the cold / warm air humidifier 200, the controller of the cold / humidifier 200 compares the current temperature with the set temperature to control the operation.

When the set temperature is higher than the current temperature, the hot water temperature of the hot / cold air humidifier 200 is controlled to be increased or the fan speed of the fan 160 is increased. Thus, the output of the hot air blown from the cold / warm air humidifier 200 can be increased.

When the set temperature is lower than the current temperature, the wind speed of the fan 160 is increased to increase the cold wind of the cold / warm air humidifier 200. Or the operation of the cold / hot air humidifying device 200 may be stopped. When the set temperature and the present temperature are the same, it is possible to control the hot air device, the cold air device, or the power source to be turned off by setting the hot / humidifier 200 in advance.

When the information about the set humidity is received through the receiver of the hot / cold air humidifier 200, the controller of the hot / humidifier 200 compares the current humidity and the set humidity to control the operation.

When the set humidity is higher than the current humidity, the output of the ultrasonic vibrator of the cold / warm air humidifying device 200 is controlled to be increased so that more spray can be generated. When the set humidity is lower than the current humidity, by setting the hot / cold air humidifier 200 in advance, the hot air fan can be operated to lower the humidity or turn off the power. When the set humidity and the current humidity are the same, the hot air device is operated, the cold air device is operated, the ultrasonic vibrator is operated, or the power is turned off according to the setting of the hot / .

The temperature and humidity of the indoor space can be controlled by using the cold / warm air humidifying device 200 according to an embodiment of the present invention shown in FIG. In the present specification, the term " indoor space " is used to refer to spaces requiring cooling, heating, and humidification. Examples of indoor space include: 1) agricultural facilities capable of cultivating facility houses, gardening, flowers, mushrooms, and special crops; 2) indoor gymnasiums equipped with sports facilities; and 3) schools, churches, training centers, , Education facilities such as kindergarten, religious facilities, and 4) indoor space where bean sprouts, host herbs, and sprouts can be grown. However, the indoor spaces enumerated above are exemplarily listed, and utilization of the cold / hot air humidification device 200 according to the present invention should be considered applicable to all the spaces requiring cooling, heating, and humidification.

In order to control the temperature and humidity of the specific indoor space, at least one hot air humidifier 200 may be disposed in the indoor space. The number of the cold / warm air humidifying devices 200 installed in consideration of the size of the space and the positional condition may be adjusted, and the number of the devices is not limited. The sensing unit 300 may be disposed in the indoor space for more efficient and accurate temperature and humidity control. The sensing unit 300 is configured to measure temperature and humidity and transmit measured information, and is disposed in various places of the indoor space to obtain temperature and humidity information of the indoor space. The number of the sensing units 300 installed in consideration of the size of the space and the positional condition may be adjusted and the number is not limited.

The cold / warm air humidification device 200 of the present invention used for indoor space control includes a transmitter, a receiver, and a controller. The transmitting unit can transmit the operating state of the hot / cold air humidifying apparatus 200 to the outside, and the receiving unit can receive information from the outside. The controller receives the information from the receiver and can control the output and operation of the cold / warm air humidifier 200. Thus, the cold / warm air humidifying device 200 can be controlled remotely or wirelessly through an external device. The external device may be a wired controller, a wireless controller, a terminal, or the like. In particular, when the external device is a terminal, it can be interlocked with the cold / hot air humidifier 200 through an application for controlling the cold / hot air humidifier 200. Also, information on the temperature and humidity of the indoor space can be received from the sensing unit 300 described above.

When the control device of the hot / cold air humidifier 200 is a terminal, the operation information of the hot / humidifier 200 can be transmitted to the terminal through the transmitter of the hot / The received information basically indicates whether the cold / hot air humidifying device 200 is turned on or off. In this case, all the cold / hot air humidifier 200 installed in the indoor space can be turned on or off via the terminal . Furthermore, the time information may be inputted to the terminal so that the power of all the cold / hot air humidifier 200 installed in the indoor space can be reserved and turned on or off.

The operation of all the hot / cold air humidifier 200 installed in the indoor space can be controlled by inputting the set temperature through the terminal. When the information about the set temperature is received through the receiver of the cold / warm air humidifier 200, the controller of the cold / humidifier 200 compares the current temperature with the set temperature to control the operation.

When the set temperature is higher than the current temperature, the hot water temperature of the hot / cold air humidifier 200 is controlled to be increased or the fan speed of the fan 160 is increased. Thus, the output of the hot air blown from the cold / warm air humidifier 200 can be increased.

When the set temperature is lower than the current temperature, the wind speed of the fan 160 is increased to increase the cold wind of the cold / warm air humidifier 200. Or the operation of the cold / hot air humidifying device 200 may be stopped. When the set temperature and the present temperature are the same, it is possible to control the hot air device, the cold air device, or the power source to be turned off by setting the hot / humidifier 200 in advance.

When the information about the set humidity is received through the receiver of the hot / cold air humidifier 200, the controller of all the hot / humidifier 200 installed in the indoor space compares the current humidity and the set humidity to control the operation.

When the set humidity is higher than the current humidity, the output of the ultrasonic vibrator of the cold / warm air humidifying device 200 is controlled to be increased so that more spray can be generated. When the set humidity is lower than the current humidity, by setting the hot / cold air humidifier 200 in advance, the hot air fan can be operated to lower the humidity or turn off the power. When the set humidity and the current humidity are the same, the hot air device is operated, the cold air device is operated, the ultrasonic vibrator is operated, or the power is turned off according to the setting of the hot / .

Furthermore, when a plurality of cold / hot air humidifying devices 200 and a plurality of sensing devices 300 are disposed in the indoor space, the specific cold / hot air humidifying device 200 and the sensing / (300) are grouped into one group, and one cold / hot air humidifying device (200) and at least one or more sensing units (300) are grouped into one group. The output control of all the hot / cold air humidifier 200 is not controlled collectively through the designated group, but only the necessary group can be specified and control can be performed for each group. The control of the temperature and the humidity of the local portion of the indoor space is efficient in terms of energy as compared with the case where the outputs are controlled at the same time in all the hot and cold air humidifying apparatuses 200 in the indoor space.

In order to realize this, the terminal can display not only the temperature and the humidity of the entire indoor space but also the stereoscopic or planar images of the indoor space on the screen and receive the temperature and humidity information for each specific region of the space and display it . The user can separately designate and control only the specific hot / cold air humidification device 200 requiring output control through the terminal.

Further, when the set temperature and the set humidity of the indoor space are inputted through the terminal, the outputs can be adjusted differently for the cold / warm air humidifying device 200 and the sensing unit 300 corresponding to each local portion of the indoor space. Thus, the output can be efficiently distributed, and the indoor space can be controlled in an energy-efficient manner.

In the case where the indoor space is an agricultural facility or a cultivation facility, if the user selects and inputs the crop information previously stored in the terminal, the user can maintain proper temperature and humidity for growing the crop Can be controlled automatically. Alternatively, the weather information may be input to the terminal, and temperature information and humidity information according to the weather may be reflected in real time to control the output of the cold / warm air humidifier 200. By utilizing an application in a terminal, various functions can be utilized in conjunction with the cold / warm air humidifier 200.

In addition, a plurality of cold / hot air humidifying devices 200 are installed in the indoor space, and the temperature of the hot / humid air humidifier 200 is adjusted by using the air humidifying device 200 close to the ground surface of the indoor space, . When the set temperature is input through the terminal, the hot / cold air humidifier 200 installed close to the ground outputs hot air at a temperature lower than the set temperature, and the hot / The indoor air can be convected owing to the temperature difference of the warm air, and the temperature of the indoor space can be adjusted to the set temperature.

When the set temperature of the indoor space is inputted through the terminal, the current temperature measured by the sensing unit 300 is received through the server, and the detected temperature of the sensing unit 300 and the grouped cold temperature The output of the warm air or cold air of the air humidifier 200 is increased and the indoor space of the sensing unit 300 where the difference between the current temperature and the set temperature is small is lowered Can be controlled.

When the set humidity of the indoor space is inputted through the terminal, the current humidity measured by the sensing unit 300 is received through the server, and the sensing unit 300 having a large difference between the current humidity and the set humidity, The indoor space can be controlled so as to raise the spray output of the apparatus 200 and lower the spray output of the cold / humidifier 200, which is grouped with the sensing unit 300 where the difference between the current humidity and the set humidity is small.

In addition, the sensing unit 300 is disposed in a planar manner with respect to the height of the indoor space, receives the measured temperature and humidity information from the sensing unit 300 through the server, The temperature and humidity information according to the position of the indoor space can be displayed in three dimensions.

Also, if a plurality of cold / hot air humidifying devices 200 are arranged at different heights in the indoor space, the temperature and humidity can be adjusted differently according to the height of the indoor space through the terminal using the stereoscopic information received by the terminal.

FIG. 4 shows that the virtual space is divided in the indoor space to control temperature and humidity, respectively. Referring to the drawings, the indoor space shown in the drawing is divided into a virtual space in which a triangle is drawn and a virtual space in which a circle is drawn. For convenience, the sensing unit 300 installed in the indoor space is omitted.

The indoor space can be divided into two or more virtual zones through the terminal and the temperature and humidity can be adjusted differently for each zone by using the grouped cold and warm air humidifier 200 belonging to each zone.

Further, there are two or more cold-air humidifying devices 200 in each of the zones, and two or more hot-air humidifying devices 200 are installed close to the ground of the indoor space and are installed high on the ground of the indoor space. When the set temperature is inputted, the hot / cold air humidifier 200 installed close to the ground outputs warm air to a temperature higher than the set temperature, and the hot air humidifier 200 installed at a height above the ground warms the hot air So that the indoor air can be convected due to the temperature difference of the warm air, and the temperature of the indoor space can be adjusted to the set temperature.

FIG. 5 shows a case where an apparatus or a control method according to the present invention is applied to a vinyl house agricultural facility. By using the control method mentioned above in Fig. 4, it is possible to divide a virtual zone in one greenhouse and control temperature and humidity differently, thereby cultivating different kinds of crops or grains at the same time. Also, the height of the hot / cold air humidifier 200 may be different for each zone, and the temperature can be efficiently controlled by convection.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. That is, within the scope of the present invention, all of the components may be selectively coupled to one or more of them. Furthermore, the terms "comprises", "comprising", or "having" described above mean that a component can be implanted unless otherwise specifically stated, But should be construed as including other elements. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, unless otherwise defined. Commonly used terms, such as predefined terms, should be interpreted to be consistent with the contextual meanings of the related art, and are not to be construed as ideal or overly formal, unless expressly defined to the contrary.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

100: Cold and hot air device
110: chamber
111: inlet
112: Outlet
113: Supply port
114:
120: Ultrasonic vibration generator
130: Circulation piping
140: circulation pump
150: Radiator
160: Fan
170:
171: Canteens
172: Water pipe
180: High frequency induction heating
181: induction coil
190: a high frequency oscillator
200: Humidifier with cold and hot air
300:

Claims (10)

A chamber in which water is contained and water level is kept constant;
A supply part connected to a supply port of the chamber and supplying water into the chamber through the supply port;
An ultrasonic vibration generator installed in the chamber so as to be submerged in water and removing bubbles generated in the chamber;
1. A heater comprising an induction coil formed by winding a wire on a circular tube, the heater comprising: at least one high frequency induction heater;
A high frequency oscillator for passing electric current to the electric wire forming the induction coil to transmit electric power to the high frequency induction heater;
A circulation pipe connecting an inlet through which water enters into the chamber and an outlet through which the water escapes into the chamber;
A circulation pump connected to the circulation pipe for increasing a water pressure of water flowing through the circulation pipe;
A radiator connected to the circulation pipe and radiating heat of water flowing through the circulation pipe; And
A fan positioned in front of the radiator;
An ultrasonic vibrator provided in the chamber and generating a spray by vibrating water molecules in the chamber with ultrasonic waves;
A tube through which the spray generated from the ultrasonic vibrator moves, the tube connecting the inside and the outside of the chamber;
A spray nozzle connected to one end of the spray tube and sprayed to the outside through the spray tube;
A transmitting unit for transmitting operation information of the hot / cold air humidifier;
A receiving unit for receiving information for controlling the hot / cold air humidifier; And
A control unit for executing a control signal received from the receiving unit;
And a radiator for radiating the heat radiated from the radiator to the outside using a wake of the fan,
Wherein at least one indentation formed toward the inside of the chamber is provided on one side of the chamber, the high frequency induction heater is respectively charged into the indentation, the indentation is heated through the high frequency heater, Wherein the temperature of the water in the chamber is increased through the portion. The method according to claim 1,
Wherein the supply unit is a water cistern, water is supplied to the chamber through a water cistern, and the water level of the chamber is kept constant. The method according to claim 1,
Wherein the supply portion is a water pipe, water is supplied to the chamber through a water pipe, and the water level of the chamber is kept constant. A method for controlling a cold / warm air humidifier including a transmitter, a receiver, and a controller using a terminal,
A transmitting step in which the transmitting unit transmits operation information of the hot / cold air humidifier to the terminal;
A receiving step of the receiving unit receiving information for controlling the hot / cold air humidifier from the terminal; And
Controlling the operation of the cold / warm air humidifier according to the information received from the receiver;
And controlling the temperature of the humidifier. 5. The method of claim 4,
The transmission unit transmits power operation information of the cold / hot air device, and the receiver receives power control information of the cold / hot air device from the terminal, and the control unit turns on / off the cold / A control method of the cold / hot air humidification device. 5. The method of claim 4,
The control unit compares the set temperature with the current temperature, and if the current temperature is lower than the set temperature, the controller receives the set temperature information, And controlling the temperature of the humidifier. 5. The method of claim 4,
The control unit compares the set temperature with the current temperature, and when the current temperature is higher than the set temperature, the controller receives the set temperature and the cool air output And controlling the temperature of the humidifier. 5. The method of claim 4,
When the set temperature is input to the terminal, the receiver receives the set temperature information, and the controller compares the set temperature with the current temperature. If the current temperature is equal to the set temperature, the power source of the hot / Controlling method of controlling the hot and cold air humidifier. 5. The method of claim 4,
When the set humidity is input to the terminal, the receiver receives the set humidity information, and the controller compares the set humidity with the current humidity. If the current humidity is lower than the set humidity, And controlling the temperature of the humidifier. 6. The method of claim 5,
When the preset temperature or the power operation information for a specific time is reserved and input to the terminal, the receiver receives the reserved information, and the control unit controls the cold / hot air device according to the reserved information A method of controlling a hot air device.

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