KR102038958B1 - Heating apparatus with humidifier - Google Patents

Abstract

Humidification heater according to the present invention is located in the heating body portion having a discharge port in the upper portion and the heating body portion is located in the humidifying unit for generating fine droplets and the inside of the heating body portion and the droplets generated by the humidifying unit as a discharge port It includes a heater for heating the air flow in the flow passage and guiding the inside of the heating main body and guiding the flow passage and heating the flow passage to heat the droplets, and a control unit for controlling the operation of the humidifier and the heater. Air and fine droplets are characterized in that the discharge through the discharge port,
According to the present invention, by supplying the appropriate temperature and humidity to the user's living space can be quickly increased to the desired temperature over the entire area to be heated, the heating efficiency is increased.

Description

Humidifier Heater {HEATING APPARATUS WITH HUMIDIFIER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heater, and more particularly, to a humidifier heater that performs indoor heating by generating fine droplets and heating and discharging the generated droplets.

In general, a heater is a device that heats itself and raises the ambient temperature.It is divided into oil, gas, and electricity according to the fuel used, and is divided into wall-wall type, stand type, and tower type according to the shape of the device itself. Depending on the water heater, boiler, etc.

Among them, the heater used for indoor heating can be used without regard to any place, such as a general home, office, factory, etc., and a hot air heater or a drying device that generates hot air to perform indoor heating is mainstream.

The above-mentioned warmer or drying apparatus heats the air through a heating means such as a heater to increase the temperature, and then sucks the outside air and discharges it to the outside together with the heated air to generate hot air, thereby raising the room temperature or removing the object. It is drying. However, in the hot air generator that heats the air to generate hot air, the temperature of the hot air discharge portion of the device is very high, but as the hot air is already discharged to the outside, the temperature decreases rapidly and the temperature is reduced. It takes a long time to raise the user's desired temperature up to every corner of the space to increase the disadvantage of low heating efficiency. In addition, since the hot air discharged from the device is not evenly applied to the object, there is a disadvantage in that the heating efficiency of the entire object is lowered due to a local temperature rise, and the generated hot air is discharged to the outside to increase the air temperature. The temperature increases, but as the temperature increases, the environment of the target space is dried, which causes problems such as promoting skin aging or respiratory diseases of the user.

More specifically, the general electric heating heater consumes electric power around 2KW / h. If the indoor space can supply more than 300ml of water per hour, the water droplet generated by the ultrasonic vibrator absorbs the heat energy as it passes through the heat source, and then spreads quickly to the surroundings. It can heat up the space faster. This principle means that as the humidity increases, the particles in the denser and denser spaces are naturally pushed to the lower density, and the water vapor absorbing thermal energy is pushed to the lower side from the higher density, which can greatly enhance the heating effect. .

The present invention is conceived to solve the conventional problems as described above, one object of the present invention is to increase the efficiency of heating by preferentially heating the living space of the user.

In addition, another object of the present invention is to provide a comfortable to the user by providing an appropriate temperature and humidity in the living space.

In addition, another object of the present invention is to prevent the air from drying out due to heating.

Another object of the present invention is to evenly heat the space as a whole.

Humidification heater according to the present invention for achieving the above object is located in the heating body portion having a discharge port in the upper portion and the humidifying portion for generating fine droplets located on one side of the heating body portion and the inside of the heating body portion and the humidification A flow passage portion for guiding the fine droplets generated by the portion to the discharge port, and a heater portion for heating the air passage portion by heating the air inside the heating main body portion and heating the flow passage portion. And a control unit for controlling the operation of the humidifying unit and the heater unit, wherein the heated air and fine droplets are discharged through the discharge port.

Preferably, the flow conduit is detachably mounted to the heating body to be washable. The flow passage may include an outer guide tube positioned near the heater and heated by the heater, and an inner guide tube disposed inside the outer guide tube and guiding the fine droplets. Inside the tube, the droplets flow upward, and the air heated by the heater part flows upward between the outer guide tube and the inner guide tube.

Preferably, the apparatus further includes a discharge cap detachably mounted to the discharge port and configured to mix the heated air with fine droplets and discharge the mixed air in a specific direction. In addition, the discharge cap is rotatably mounted in the vertical or horizontal direction with respect to the discharge port can change the discharge direction of the heated air and fine droplets.

On the other hand, the heater is characterized in that it comprises a plurality of heating elements different in heat generation performance.

Preferably, the controller is characterized in that for driving one by selecting one of the plurality of heating elements or two or more of the heating elements in accordance with the required amount of heat generated.

Preferably, the method further comprises a reflector for directing the infrared rays generated by the heater to the front.

Preferably, further comprising a fan for the heater, the fan for the suction to the outside to direct the discharge port.

Preferably, the humidifying part is characterized in that the detachably mounted to the main body portion to be washable.

On the other hand, characterized in that it further comprises an ultraviolet sterilization unit for preventing the bacteria propagation in the humidifying unit.

Preferably, the control unit senses temperature and humidity, and controls the amount of heat generated in the heater unit and the amount of humidification in the humidifying unit based on a heat index or discomfort index.

Preferably, the apparatus further includes a temperature and humidity sensor unit detachable from the heating body unit, and the controller controls the humidifying unit or the heater unit based on the temperature and humidity detected by the temperature and humidity sensor unit.

Preferably, the control unit is characterized in that it comprises a sleep mode for turning off the fan for the heater, to increase the amount of heat generated by the heater unit at a set wake-up time.

Preferably, the water supply unit further comprises a water supply unit for supplying water, wherein the water supply unit is characterized in that it comprises a plurality of water tanks detachably mounted to the heating body portion.

Preferably, it is characterized in that it further comprises a heat dissipation unit is installed in front of the heating body portion having a mesh structure. In more detail, the heat dissipation part includes a front part located at the front side of the heating main body part, and a reflection part located at the rear side of the front part and reflecting infrared rays generated by the heater part, and the front part is compared with the reflecting part. It is characterized by low heat transfer characteristics. The heat dissipating unit may be mounted to the heating main body to be opened and closed.

According to the present invention, by using the droplets of heat medium, the user can quickly increase the temperature to the desired temperature throughout the space to increase the temperature, the heating efficiency is increased, the temperature is evenly raised in the target space to increase the temperature It will also be possible to prevent the drying of air due to heating.

The effects of the present invention are not limited to those described above, and other effects not mentioned will be clearly recognized by those skilled in the art from the following description.

1 is a diagram illustrating a thermal index.
2 is a diagram showing a correlation between sleep cycles and metabolic rate in humans.
3 is a block diagram of a humidifying heater according to an embodiment of the present invention.
4 is a perspective view of a humidifying heater according to an embodiment of the present invention.
5 is a front internal perspective view of a humidifying heater according to an embodiment of the present invention.
6 is a perspective view inside the rear of the humidifying heater according to an embodiment of the present invention.
7 is a rear perspective view of the humidifying heater according to an embodiment of the present invention.
8 is a top perspective view of a humidifying heater according to an embodiment of the present invention.
9 is a side and an illustration of a humidifying heater according to an embodiment of the present invention.

Hereinafter, with reference to the drawings will be described the present invention in more detail. It should be noted that the same elements in the figures are represented by the same numerals wherever possible. In addition, descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

In addition, various modifications may be made to the embodiments described below. The examples described below are not intended to be limiting of the embodiments, but should be understood to include all modifications, equivalents, and substitutes for them.

This will be described logically according to the drawings.

Figure 4 is a perspective view of the humidifying heater according to an embodiment of the present invention, Figure 5 is a front internal perspective view of the humidifying heater according to an embodiment of the present invention.

4 and 5, the humidifier heater of the present embodiment, the heating body 100, the humidifying unit 110, the flow passage 130, the heater 150, the reflector 160, the controller 170 And a discharge port 190.

The heating main body 100 has a discharge port 190 thereon. In addition, the humidifying unit 110 is located on one side of the heating main body to generate the droplets. At this time, the humidifying unit 110 may be located below the heating body unit 100. The flow passage 130 is located inside the heating body and guides the droplets generated by the humidifying unit to the discharge port. The heater unit 150 heats the air inside the heating main body unit and is positioned close to the flow conduit to heat the droplets by heating the flow conduit. The controller 170 controls the operations of the humidifier and the heater, and the reflector 160 directs the infrared rays generated by the heater to the front.

The heating main body 100 is bent at each corner to form a space for accommodating the components therein for the safety of the user, the lower end of the main body is inclined by an external impact, etc. In order to prevent the phenomenon, a pedestal having an area larger than that of the heating body part 100 may be formed.

The humidifying unit 110 positioned below the heating body part 100 generates fine droplets, and more specifically, generates fine droplets by an ultrasonic vibrator, and details of structural aspects will be described later.

The flow passage 130 is provided inside the heating body part 100 and more specifically, is provided at the upper end of the humidifying part 110 to guide the droplets generated in the humidifying part to the discharge port 190. something to do.

The heater unit 150 heats the air inside the heating body unit 100. In addition, it is located close to the flow passage portion by heating the flow passage portion to heat the droplets guided through the flow passage portion. On the other hand, the heater is a curved shape is provided with a shape surrounding the flow pipe to efficiently heat the flow pipe, the heater is used as the material of the heater to block the light generated when the heater is heated. desirable. Due to the limitation of the heater part, the user does not count light when using the humidifier heater according to the present invention in a home, so that it is easy to use even when sleeping at night and may ease the anxiety about the risk of fire. In addition, the heater unit may include a plurality of heating elements having different heat generating performances to supply necessary heat energy according to the user's control, and select one insulator from the plurality of heating elements or two or more according to the amount of heat generated by the controller 170. The insulators may be selected together to drive through multiple combinations. In addition, the heater unit according to another embodiment of the present invention can control the heating according to the section of the curved shape, the user can control the temperature and save the electrical energy by operating the heater by selecting or combining the appropriate section. For example, when the heater unit is separated into one or more sections to generate heat, the number of cases may be controlled by the user in accordance with the number of cases by combining the separated sections. As described above, the separated section may be made of different insulators to further maximize the heating effect of the combination of the number of cases.

The controller 170 may be displayed on the top of the heating body 100 for the user's convenience, and may be driven in contact with a part of the user's body to prevent a malfunction. In addition, as described above, the controller may control the driving of the heater unit, and the controller may sense an external temperature and humidity and control the heat generation amount of the heater unit and the humidification unit of the humidifier based on a heat index or an unpleasant index. .

More specifically, the heat index is also referred to as haptic temperature and suggests a temperature that can be actually felt by a human by a combination of atmospheric temperature and humidity. Referring to FIG. 1, it can be seen that even at the same temperature, a temperature felt by a person is different according to a difference in humidity. That is, the controller may reduce unnecessary energy loss by controlling the heater unit and the humidifier based on the temperature actually felt by the user determined by the above-described heat index, unpleasant index, and temperature and humidity. In addition, the control unit may include a sleep mode in which the heating amount of the heater is increased at a preset wake up time when the user sets a wake up time in advance.

Referring to FIG. 2 to look at the sleep mode of the controller 170 in detail, a person sleeps about 4 to 5 times in a 90-minute cycle of Non-Rem and Rem sleep. The repetition of the non-remem during sleep is the deepest sleep, and the body temperature is markedly decreased as the metabolism decreases after the sleep. In addition, since the body temperature rises as the metabolism decreased after the elevation is restored during the weather, the present invention may help the user to wake up smoothly by increasing the heat output of the heater unit according to the user's preset wake-up time. In addition, by using the above-described heat index, the control unit may help the user to wake up smoothly by increasing the room temperature by adjusting the heating amount of the heater and the humidification of the humidifying unit.

In addition, the control unit 170 according to another embodiment of the present invention may be capable of separating the sensor unit for sensing the temperature and humidity from the heating body unit 100. In more detail, the control unit 170 is not necessarily provided in the heating main body unit 100, but may be provided in a remote control type that can be wirelessly controlled, and includes a sensor unit that senses temperature and humidity on an object of the remote control type. Sensing the temperature and humidity of the location remotely controlled by the user may provide the most optimal temperature centered on the user.

Reflector 160 includes a variety of forms to direct the infrared rays generated by the heater to the front, and will not necessarily be limited to the curved 'U' shape shown in one embodiment according to the present invention.

Figure 6 is a rear perspective view of the humidifying heater according to an embodiment of the present invention, Figure 7 is a rear perspective view of the humidifying heater according to an embodiment of the present invention, Figure 8 is a humidification according to an embodiment of the present invention Top view of the radiator.

6 to 8, the humidifier heater according to the present embodiment includes a bucket part 120, a heater fan 151, a discharge cap 191, and a heat dissipation part 140.

The bucket part 120 supplies water to the humidifying part 110 and may be provided with at least one. The heater fan 151 is disposed behind the reflecting plate and sucks outside air to face the discharge port. The discharge cap 191 is detachably mounted to the discharge port and mixes the heated air with fine droplets to discharge in a specific direction. The heat dissipation unit 140 is installed in front of the heating body and has a mesh structure.

The humidifying part 110 includes a first water tank having a humidifying main body part and supplied with water by the water tank part 120 provided above the humidifying body part, and connected to the first water tank and a flow path to fine water droplets. And a second tank including an ultrasonic vibrator for converting, wherein the flow pipe part is provided at an upper portion of the second bath so that fine droplets generated in the second bath are provided on the heating body part through the flow pipe part. It may be guided to the outlet. On the other hand, the ultrasonic vibrator provided in the second tank is detachable, so that the user can separate the humidifying unit 110 from the heating body and separate all the ultrasonic vibrators provided in the second tank to expect sterilization effect through complete washing. Could be. In addition, the humidifying unit 110 may further include a sterilizing unit for emitting ultraviolet rays to suppress the growth of bacteria that may occur while storing water, more specifically, the flow path connecting the first tank and the second tank. It may be provided in.

The bucket unit 120 may be provided with at least one, it may be detachably mounted to the heating body. More specifically, the user may open the upper side of the heating body part 100 and pull out the water bottle part in a direction perpendicular to the heating body part, and may supply water to the water bottle part. In addition, the portion fastened to the humidification unit 110 in the bucket portion 120 is made of a material that provides an elastic force such as a spring is stored in the bucket portion when the user wants to separate the bucket portion from the humidification portion to the outside of the body This will prevent any water from leaking out.

Meanwhile, by separating the water bottle from the heating unit, the user may not only separate from the heating unit to supply water to the water bottle, but also separate and wash the water tank for complete washing as in the humidification unit. In general, since the problem of bacterial growth in a standing and humid environment is frequent, the above-mentioned problem may be solved by separating and washing the water tank from the heating unit as described above.

The heater fan 151 is disposed behind the reflecting plate to suck outside air to discharge the air to the upper end of the heating body part 100, and the discharged air may be discharged with directivity to one side by the discharge cap 191. will be.

The discharge cap 191 is located above the discharge port 190 and more specifically serves to discharge the air sucked by the heater fan 151 in a direction as described above. The discharge cap may be detachable so that the user may remove the discharge cap when the user wants to send fine water droplets and hot air in a direction perpendicular to the heating main body, and the discharge cap 191 may be disposed up and down with respect to the discharge port. Alternatively, the left and right directions may be rotatably installed to adjust the discharge direction of the heated air and fine droplets.

With the above-described discharge cap 191, by mixing the fine droplets discharged from the discharge port located in the lower portion of the discharge cap and the hot air and the outside air guided through the discharge cap to discharge into the indoor space and fine droplets in the living space of the user Forming a kind of roof (Roof) mixed with the hot air will have the effect of heating the user's real life space first.

The heat dissipation unit 140 has a mesh structure for effectively transferring heat energy generated by the heater unit and the reflecting plate, and the heat dissipation unit 140 is more specifically located on the front surface of the heating body unit. Located in the rear portion 140a and the front portion and having a reflector 140b for reflecting the infrared rays generated by the heater unit 150, the front portion 140a has a heat transfer characteristic compared to the reflector 140b. It is characterized by low.

On the other hand, the front portion (140a) is one of the components forming the appearance of the heating main body portion is easily accessible to the user because it is reflected to prevent safety accidents that may occur when the heat energy generated in the heater unit is passed as it is The heat transfer characteristics are lower than that of the unit, and thus the heater can be kept at an appropriate temperature while the heater is in operation to prevent safety accidents.

The reflector 140b is one of the components provided in the heating body part, and reflects heat energy or infrared rays generated from the heater part into the heating body part including the heater part again, thereby being located inside the heating body part and being the heater part. By transferring heat to the flow passage to receive heat by the heat will be able to transfer the thermal energy to the droplets passing through the flow passage. By the above-described configuration of the front part and the reflecting part, the user can prevent the heat energy generated by the heater part from being discharged to the outside and consumed. The user can expect the effect of energy efficiency increase or energy saving by reusing the heat energy emitted to the outside. There will be.

9 is a side and an illustration of a humidifying heater according to an embodiment of the present invention.

Referring to FIG. 9, the humidifier heater according to an exemplary embodiment of the present invention is disposed behind the heater unit 150 and the reflecting plate positioned to be close to the flow pipe parts 131 and 133 and the flow pipe part, and draw the air. Air generated by the air guide member 152 and the air guide member to change the flow path of the air to guide the flow of air sucked by the fan 151 and the heater fan to the upper discharge port of the heating body portion It may include an air guide tube 153 for guiding the rising air of the upper portion of the heating body portion and a discharge cap 191 for guiding the air moved to the upper portion of the heating body portion by the air guide tube to the side. Meanwhile, the flow passage part 131 and 133 are located in close proximity to the heater part in more detail and are disposed inside the outer guide pipe 133 and the outer guide pipe which are heated by the heater part, and guide the droplets. The inside of the inner guide tube is provided with a tube 131, the fine droplets flow upwards, and the air heated by the heater portion flows upward between the outer guide tube and the inner guide tube.

By the configuration of the humidifier heater according to the present invention described above three kinds of fluid flow is made in the heating body portion 100. Specifically, the first guides the droplets generated by the humidifying unit 110 toward the discharge port 190, there is a flow of fluid by the inner guide tube 131,

In addition, the air heated by the heater unit 150 rises due to convection through an interspace formed by the inner guide tube and the outer guide tube 133 formed surrounding the inner guide tube 131. There is a flow,

In addition, the air sucked through the heater fan 151 is raised by changing the flow path of the air from the horizontal direction to the vertical direction with respect to the heating body portion 100 by the air guide member 152 and the rising There is a flow of fluid by the air guide pipe 153 to guide the flow of air to the upper portion of the heating body.

Meanwhile, the fine droplets and the hot air discharged by moving the fine droplets and the hot air are separated and moved by the flow passages 131 and 133 to form a kind of loop from the outside to preferentially heat the user's real living space. Could be.

More specifically, the droplets discharged from the center are relatively heavy, so as to rise and fall above a certain height, thereby forming a flow that is formed between the inner guide tube 131 and the outer guide tube 133 through which the droplets are discharged. The hot air discharged from the space forms a flow that rises due to convection, and the discharged fine droplets and the hot air can be heated around the user's real life space by spreading the fine droplets onto the hot air.

By the above-described configuration, the droplets containing the heat will be kept in the real life space of the person will enable efficient heating. More specifically, when the space to be heated is divided into a lower floor and a lower floor, the space in which a person lives is divided into a middle floor and a lower floor, and the warm air mixed with the droplets is the middle floor of the space by its weight. Staying in the lower and lower floors may have the effect of heating the middle and lower floors preferentially.

In addition, when hot air is generated and discharged or heated by reflected heat, the space located near the hot air or reflected heat generated and discharged is heated to a high temperature, but the heat energy diffuses the outside air as a medium away from the device. A sudden drop in temperature occurs. Therefore, in this case, when the user wants to feel warm, the heater should be placed close to the user, but in the case of the humidifying heater according to the present invention, the droplets are used as a medium for diffusing thermal energy as described in the above-described configuration and embodiment. As a result, the droplets diffuse into the living space with thermal energy, and thus the rate of decrease in temperature is less than that in the case where the air is used as a medium, so that the temperature can be increased more efficiently throughout the space.

On the other hand, the present invention is not limited to the embodiments of the present invention and the accompanying drawings in the above description, it is apparent to those skilled in the art that various substitutions, modifications and changes are possible without departing from the technical spirit of the present invention. something to do.

100: humidifier heater
110: humidifier
120: bucket
130: flow pipe
131: inner guide tube
133: outer guide tube
140: heat dissipation unit
140a: front part
140b: reflector
150: heater unit
151: heater fan
152: air guide member
153: air guide tube
160: reflector
170: control unit
190: discharge port
191: discharge cap

Claims (18)

A heating main body having a discharge port at an upper portion thereof, a heat dissipating portion formed at a front surface thereof, and sucking external air from a rear surface or a side surface thereof;
A flow passage part positioned below the discharge port and positioned toward the front surface of the heating body;
The flow passage portion,
An inner guide tube forming a flow path such that fine droplets are guided to the discharge hole; And
And an outer guide tube provided in a shape that surrounds the inner guide tube and is spaced a predetermined distance from an outer surface of the inner guide tube.
It is provided in close proximity to the outer surface of the outer guide tube, the outer guide tube is heated to form an upward flow of air in the space between the space between the inner guide tube and the outer guide tube, the inner guide tube flow pipe Heater unit for transmitting heat energy by the tropical flow to the unit;
A humidification unit positioned below the flow conduit to generate the droplets;
A bucket part positioned toward the rear surface of the heating body part and positioned above the humidifying part to supply water to the humidifying part; And
It includes a control unit for controlling the operation of the humidifying unit and the heater unit,
The fine droplets are discharged from the inner guide tube, and is diffused to the outside of the heating body portion by the rising flow of the fluid formed in the space between the inner guide tube and the outer guide tube of air by the heater unit. Humidifier radiator.
The method of claim 1,
Humidity heater, characterized in that the flow pipe portion is detachably mounted to the heating body portion to be washable.
The method of claim 1,
The heater unit,
Heating the outer guide tube to form an upward flow of air in a space between the inner guide tube and the outer guide tube;
A humidifier heater, characterized in that the diffusion to the outside of the heating body portion by the rising flow of air formed in the space between the inner guide tube and the outer guide tube.
The method of claim 1,
And a discharge cap detachably provided at an upper portion of the discharge port and configured to mix the heated air and fine droplets and discharge the mixed air in a specific direction.
The method of claim 4, wherein
And the discharge cap is rotatably mounted in the vertical direction or the horizontal direction with respect to the discharge port so as to change the discharge direction of the heated air and fine droplets.
The method of claim 1,
The heater unit comprises a plurality of heating elements different in heat generation performance.
The method of claim 6,
The control unit is a humidifying heater, characterized in that for driving one by selecting one of the plurality of heating elements or two or more heating elements in accordance with the required amount of heat generated.
The method of claim 1,
The heating unit further includes a reflecting plate which is spaced apart from the heater unit by a predetermined interval to surround the heater unit, wherein the heater unit is open to the front surface of the heating body unit.
The reflector is,
And a heater provided between the inner surface of the heating main body and the heater to direct infrared rays generated from the heater to the heat dissipating unit.
The method of claim 1,
The water tank unit is provided with a plurality of spaced apart a predetermined interval inside the heating body,
The humidifier heater,
An air guide tube provided at a predetermined interval between the water tank portions to form a flow path such that the air sucked from the outside is guided to an upper portion of the heating main body portion; And
And a heater fan provided in communication with the air guide tube to suck the air from the outside.
The method of claim 1,
The humidifying unit, characterized in that the humidifying unit is detachably mounted to the heating body portion to be washable.
The method of claim 1,
A humidifier heater, characterized in that it further comprises an ultraviolet sterilization unit for preventing the growth of bacteria in the humidifying unit.
The method of claim 1,
The control unit senses temperature and humidity, and based on a heat index or an unpleasant index humidifying heater, characterized in that for controlling the heating value of the heater and the humidification of the humidifying unit.
The method of claim 1,
Further comprising a temperature and humidity sensor unit detachable from the heating body portion,
The control unit is a humidifier, characterized in that for controlling the humidifier or the heater based on the temperature and humidity detected by the temperature and humidity sensor.
The method of claim 9,
The control unit comprises a sleep mode for stopping the driving of the fan for the heater, the sleep mode to increase the heat output of the heater unit at a predetermined time.
delete delete delete The method of claim 1,
The heat dissipation unit is a humidifying heater, characterized in that provided in the heating body to be opened and closed.

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