KR20000034222A - Cooling/heating air conditioner - Google Patents

Abstract

PURPOSE: A cooling/heating air conditioner is provided to smoothly discharge heat generated in the heating device out of the main body while heating a room efficiently by incorporating a heating device in the air conditioner. CONSTITUTION: A cooling/heating air conditioner includes a main body, an upper panel coupled on an upper part of the main body and formed with a suction hole and a discharge hole, a lower panel(14) coupled at a lower part of the main body and able to be opened and closed, wherein the lower panel is formed with a heating hole(14a), a heating device at a rear part of the heating hole, and a heat discharging element for cooling the heating device and discharging the heat out of the main body by circulating the heat backward, and the heating device includes a plurality of heaters, a reflection plate(101) coupled with the heating hole for radiating the heat emitted from the respective heaters, and a diffusion plate(106) mounted at a front surface of the reflection plate for diffusing the radiated heat forward.

Description

Air Conditioning for Air Conditioning

The present invention relates to a combined air-conditioning and air conditioner, and more particularly, to a combined air-conditioning and air conditioner for heating the room sufficiently and discharging high heat to the outside.

In general, a combined air-conditioning and air conditioner sucks hot air from a room while cooling, exchanges the sucked hot air into cold air, and then discharges the cold air back into the room to cool the room to an appropriate temperature. In the heating, the cold air is sucked in the room, the cold air is exchanged into the hot air by heat exchange, and then the hot air is discharged back into the room to heat the room to an appropriate temperature.

Here, the air-conditioning cycle of the air-conditioning combined air conditioner, when the air conditioner during the cooling, the high-temperature, high-pressure gaseous refrigerant compressed by the compressor installed in the outdoor unit of the air conditioner passes through the four-way valve, the outdoor heat exchanger (condenser) of the outdoor unit Is exchanged with the external air passing through the outdoor heat exchanger while flowing in the outdoor heat exchanger, that is, the heat of the refrigerant is radiated to the outside air so that the refrigerant condenses to a liquid state of medium temperature (45 ° C.) and high pressure. The temperature of the air is raised.

The medium temperature high pressure liquid refrigerant passes through a capillary tube, and at the same time the pressure and the temperature are simultaneously dropped, the liquid refrigerant is partially gasified to be decompressed to a low temperature low pressure state, and the reduced pressure low temperature low pressure refrigerant is a heat exchanger of an indoor unit And heat exchange with the indoor air while flowing in the heat exchanger, that is, the refrigerant absorbs heat from the indoor air, evaporates to a low-temperature, low-pressure gas state, and flows back into the compressor of the outdoor unit, and the indoor air is cooled down. It is discharged to the room in a state that the room is cooled to an appropriate temperature.

In the heating, the refrigerant, which is a gaseous state of high temperature and high pressure, compressed by the compressor of the outdoor unit is sent to the heat exchanger (condenser) of the indoor unit while passing through the four-way valve to exchange heat with the indoor air passing through the heat exchanger while flowing in the heat exchanger. That is, the refrigerant radiates heat to the indoor air to condense to a liquid state of medium temperature (45 ° C.) and high pressure, and the indoor air receives a heat of the refrigerant to increase the temperature, and the indoor air having the elevated temperature is indoors. The room is heated to an appropriate temperature because it is discharged.

The liquid refrigerant of the medium temperature and high pressure passes through a capillary tube, and at the same time, the liquid refrigerant is partially gasified to decompress the liquid refrigerant into a low temperature low pressure state, and the reduced temperature low temperature low pressure refrigerant is an outdoor heat exchanger of an outdoor unit. Is exchanged with the external air while being flowed through the outdoor heat exchanger, that is, the refrigerant absorbs heat from the external air, evaporates to a low-temperature, low-pressure gas state, and flows back into the compressor of the outdoor unit. The temperature is lowered.

As shown in Figure 1 to 2b, the structure of the air-conditioning combined air conditioner is the main body 1 is divided into upper and lower, and the upper panel 2 is coupled to the upper front of the main body 1, The lower panel 14 is detachably coupled to the lower part of the front surface of the main body 1, and a control box 15 for generating a control signal to control the operation of the air conditioner is coupled to the lower side of the main body 1. It is.

The upper panel 2 is formed with an inlet opening 4 through which air in the room is sucked, and an inlet opening and closing member rotated by the driving force of the inlet opening / closing motor 6 to open and close the inlet opening 4 on the inlet opening 4 side. (5) is provided, and an air filter (7) is provided in the inlet opening / closing member (5) for filtering dust or foreign matter contained in the hot air of the room sucked into the main body (1).

The inlet opening / closing member 5 is formed in a triangular prism shape which is triangular in plan view, and one side of the inlet opening / closing member 5 is sucked into the body 1 through the inlet 4 through the inlet 4. The grill part 10 is formed, and the other side of the inlet opening and closing member 5 is formed with an open opening 11, and the other side of the inlet opening and closing member 5 is closed. It is formed of (12).

The main body 1 is provided with a cross flow fan 3 which is rotated by the driving force of the fan motor 13 so as to suck the air in the room into the main body 1 and discharge the sucked air into the room during heating and cooling. In the main body 1, a heat exchanger 8 through which a refrigerant flows is installed to heat exchange the air sucked through the suction port 4 by the rotational force of the cross flow fan 3, and the upper panel ( 2) is provided with a discharge port (9) for discharging the air flowing by the rotational force of the cross-flow fan 3 into the room, the discharge port (9) is adjusted to the left and right in the discharge direction of the discharged air The discharge grill 16 for guiding the air flowing along the rear guide 17 to the discharge port 9 is coupled.

When using a combined air-conditioning and air conditioner for cooling, when the user selects the cooling operation mode after supplying power to the air conditioner, the intake port blocking the intake port 4 formed in the upper panel 2 in the state where the air conditioner is stopped. The opening / closing member 5 is rotated by the inlet opening / closing motor 6 which generates a driving force in response to a control signal generated from the control box 15.

That is, the inlet 4 is blocked by the sealing part 12 of the inlet opening / closing member 5, and the grill portion 10 of the inlet opening / closing member 5 rotated by the driving force of the inlet opening / closing motor 6. When the suction port 4 is located, the rotation of the suction opening / closing member 5 is stopped and the suction opening 4 is opened.

As described above, when the inlet 4 is opened, the cross flow fan 3 installed in the main body 1 is rotated by the driving force of the fan motor 13, and is rotated by the rotational force of the rotated cross flow fan 3. The hot air of the room is sucked through the suction port 4, and the hot air of the room sucked through the suction port 4 passes through the grill part 10 and the opening part 11 of the inlet opening / closing member 5 and the main body. (1) is sucked into.

At this time, the dust and foreign substances contained in the hot air of the room sucked into the main body 1 by the air filter 7 installed behind the grill portion 10 of the inlet opening and closing member 5 is caught in the clean state Only air is sucked into the body 1.

On the other hand, the hot air of the room sucked into the main body 1 through the suction port 4 is combined with the main body 1, the heat exchange is made in the process of passing through the heat exchanger (8) where the cool refrigerant flows, the cold The cool air flows in the main body 1 by the rotational force of the cross flow fan 3 which is continuously rotated, that is, the air flowing along the rear guide 17 is discharged while passing through the discharge grill 16. Direction is adjusted and guided to the discharge port (9) is discharged into the room through the discharge port (9), the room is cooled to an appropriate temperature.

In this case, when the operation of the air conditioner is stopped, the inlet opening / closing motor 6 generates a driving force in a direction opposite to that of the cooling operation, and the inlet opening / closing member 5 is rotated along the inlet opening / closing motor 6 to intake ( 3) Since the sealing part 13 of the inlet opening and closing member 5 is located, the inlet 4 is blocked.

Next, when the air conditioner for heating and cooling is used as heating, the power supply is supplied to the air conditioner, and when the user selects the heating operation mode, the inlet opening and closing which closes the inlet 4 formed in the upper panel 2 while the air conditioner is stopped. As the member 5 is rotated by the inlet opening / closing motor 6 generating a driving force, the grille of the inlet opening / closing member 5 is connected to the inlet opening 4 blocked by the sealing part 12 of the inlet opening / closing member 5. Since the part 10 is located, the suction port 4 is opened.

As described above, when the inlet 4 is opened, the cold air in the room is installed in the main body 1 by the rotational force of the cross flow fan 3 which is rotated by receiving the driving force of the fan motor 13. The cold air is sucked into the main body 1 through the grill part 10 and the opening part 11 of the inlet opening / closing member 5.

The cold air of the room sucked into the main body 1 is combined with the main body 1 and heat exchange is performed in the course of passing through the heat exchanger 8 through which the hot refrigerant flows. The discharge direction is adjusted while passing along the discharge grill 16 while flowing along the rear guide 17 in the main body 1 by the rotating force of the cross flow fan 3 which is continuously rotated. As the air is heated to the discharge port 9, the air whose temperature is increased through the discharge port 9 is discharged to the room, and the room is heated to an appropriate temperature.

However, in such a conventional air-conditioning combined air conditioner, the refrigerant flowing in the heat exchanger 8 and the indoor air passing through the heat exchanger 8 are not sufficiently heat-exchanged when heating, and thus the room cannot be sufficiently heated. Consumer confidence in the product is lowered.

In addition, since the cooling and heating efficiency of the air conditioner is reduced by alternately cooling and heating the air conditioner by changing the flow path of the refrigerant in one system, there is also a problem in that the performance of the air conditioner is deteriorated.

The present invention has been made in order to solve the above problems, and provided with a separate heating device in the lower portion of the main body to sufficiently heat the room by the heating device, the high heat generated by the heating device to the outside of the main body The purpose is to improve the heating efficiency of the air conditioner because it discharges smoothly.

In order to achieve the above object, the present invention combines the upper panel with the inlet and the discharge port formed in the upper front of the main body, the lower panel in the front lower portion of the main body to open and close the air sucked into the main body In the air-conditioning combined air conditioner for heating and cooling the room by heat exchange, the lower panel is provided with a heating port, the rear heating port of the lower panel is provided with a heating device for heating the room, cool the heating device And it is provided with a combined air-conditioning and air conditioner characterized in that the heat discharge means for discharging the heat transmitted to the rear of the heating device to discharge to the outside of the main body.

1 is a perspective view showing a conventional air-conditioning combined air conditioner.

2a and 2b is an operating state diagram showing a state in which the air-conditioning combined air conditioner is operated in a plane.

Figure 3 is an exploded perspective view showing a heating apparatus of the present invention of a combined air-conditioning and air conditioner.

Figure 4 is a cross-sectional view showing a state cross-sectional view of the heating device of the present invention.

Figure 5 is an air flow diagram showing an air flow state in the body by the heat dissipation means of the present invention.

Explanation of symbols for main parts of the drawings

101: reflector 102: halogen heater

103: reinforcing member 104: fan motor

105: blower fan 106: dispersion plate

107: heating grill 108: door

109: heatsink

Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS. 3 to 5 as follows.

Since the air conditioner for both air conditioning and heating has been mentioned in the conventional configuration, overlapping parts are omitted, and only the same structure is given the same reference numeral as in the prior art.

Figure 3 is an exploded perspective view showing a heating apparatus of the present invention of a combined air-conditioning and air conditioner, Figure 4 is a cross-sectional view showing a cross-sectional view of the heating device of the present invention, Figure 5 is the air in the body by the heat dissipating means of the present invention Airflow diagram showing flow conditions.

According to the present invention, the upper panel 2 having the suction port 3 and the discharge port 9 is coupled to the upper part of the front part of the main body 1, and the lower panel 14 is openable to the lower part of the front part of the main body 1. It is coupled, the control box 15 for generating a control signal for controlling the operation of the air conditioner is coupled to the lower side in the main body (1).

The lower panel 14 is provided with a heating opening 14a of a predetermined size, the rear heating opening 14 of the lower panel 14 is provided with a heating device for heating the room, the heating device It is provided with a heat discharging means for cooling the condensed with the heat transferred into the rear body (1) of the heating device to discharge to the outside of the body (1).

The heating apparatus is provided with a plurality of halogen heaters 102 arranged at regular intervals in the heating port 14a to generate heat and light, respectively, and the rear surface of the rear lower panel 14 of the heating port 14a. Each halogen heater 102 is installed and a reflecting plate 101 for radiating heat and light emitted from each halogen heater 102 into a room through a heating port 14a is coupled, and the reflecting plate ( The front surface of the 101 is provided with a honeycomb-shaped dispersion plate 106 for dissipating heat radiated from each halogen heater 102 and radiated by the reflector plate 101 to the front of the main body 1.

The heat discharging means is provided with a fan motor 104 for generating a driving force at a lower predetermined position in the main body 1, that is, the rear side of the reflector plate 101, and the fan motor 104 has a fan motor 104. Blowing fan 105 for generating a blowing force while receiving the driving force is rotated is axially coupled.

The upper portion of the reflector plate 101 is formed with a plurality of heat dissipation ports 109 for dissipating heat convection in accordance with the blowing force of the blowing fan 105 to the front of the main body 1, the lower rear of the main body 1 A plurality of blowing holes 1a are formed in the rear side of the main body 1 to dissipate convection heat in accordance with the blowing force of the blowing fan 105.

The lower part of the main body 1 is provided with a reinforcing member 103 to reinforce the lower side strength of the main body 1 and to which the fan motor 104 is coupled, and the reinforcing member 103 is provided with a blowing fan 105. A plurality of blowing holes 103a for discharging the heat that is convective to the outside of the main body 1 in accordance with the blowing force of (

In front of the reflector plate 101 is provided with a heating grill 107 for easily dissipating heat radiated from the halogen heater 102 to the outside and protecting the user from the high temperature halogen heater 102. The door 108 which opens and closes the heating port 14a is provided in the front surface of the heating port 14a.

Since the halogen heater 102 is filled with halogen in a long rod-shaped glass sphere, when the power is applied, the halogen heater 102 emits high heat while generating heat and light, and the reflecting plate 101 radiates heat emitted from the halogen heater 102. It has a semi-cylindrical shape so that it can be radiated forward.

The operation of the present invention configured as described above is as follows.

Next, in order to heat the room, operate the heating system provided in the upper part of the main body 1 of the combined air-conditioning and air conditioner, or operate the heating device provided in the lower part of the main body 1 or the heating system and the heating device. Operate simultaneously.

Here, a state in which only the heating device provided in the lower part of the main body 1 is operated to heat the room will be described below. The heating / removing hole 14a formed on the lower panel 14 coupled to the lower front surface of the main body 1 will be attached and detached. The door 108 possibly installed couples the door 108 to the heating port 14a when the heating device is not in use, and removes the door 108 from the heating port 14a when the heating device is used.

Therefore, when the heating device is operated while the door 108 is removed from the heating port 14a of the lower panel 14, the reflector plate coupled to the rear surface of the heating port 14a of the lower panel 14 is operated. In the plurality of halogen heaters 102 arranged at regular intervals in the 101, heat and light are generated and emitted, and high heat is emitted, and the emitted heat and light are radiated toward the front of the main body 1 by the reflector 101 as much as possible. do.

The heat radiated to the front of the main body 1 is evenly distributed while passing through the honeycomb-shaped distribution plate 106 installed in the front of the reflector plate 101, the dispersed heat passes through the heating grill 107 Since the air temperature of the room is increased by the heat transferred to the room through the room 14a, the air whose temperature is increased is raised upward by natural convection, and thus the room is heated to an appropriate temperature. As ultraviolet rays are emitted from the halogen heater 102, a therapeutic effect may also be expected.

Here, most of the heat dissipated from each halogen heater 102 is radiated to the front of the main body 1 by the reflector plate 101, and a part of the heat dissipated from each halogen heater 102 is In other words, it is transmitted into the rear main body 1 of the reflecting plate 101.

In this way, the heat transferred into the main body 1 is transferred to the control box 15 and the other components installed on the lower side in the main body 1 while rising upward in the main body 1. 15) and other components are damaged or malfunction of the control box 15 occurs.

Therefore, since the heat dissipation means for discharging the heat transferred into the rear main body 1 of the reflecting plate 101 to the outside of the main body 1 is provided in the lower part of the main body 1, the reflecting plates in the respective halogen heaters 102 are provided. The heat transferred into the rear main body 1 of the 101 is prevented from being forced upward in the main body 1 by forced convection in the main body 1 by the heat discharging means, and the main body 1 Is discharged to the outside.

In more detail, the fan motor 104 which is installed at the lower part in the main body 1 to reinforce the lower side strength of the main body 1 to generate a driving force is coupled to the lower motor of the main body 1, and the fan motor Blowing fan 105 for generating the blowing force is rotated by receiving the driving force of the fan motor 104 is axially coupled to the 104 is the heating device is operated at the same time from the control box 15 to the fan motor 104 Since the fan motor 104 is transmitted by sending a control signal, the blowing fan 105 that receives the driving force of the fan motor 104 is rotated, and the air is reflected by the blowing force of the rotating blowing fan 105. Cooling of the reflector plate 101, which is heated by the heat emitted from the halogen heater 102 to the rear of the heater 101, cools the heat transmitted from the halogen heater 102 into the rear body 1 of the reflector plate 101. It is convection.

As described above, the heat that is forced to convex in the main body 1 by the blowing force of the blowing fan 105 is discharged to the front of the main body 1 through the plurality of heat dissipation ports 109 formed on the reflector 101. It is discharged to the rear of the main body 1 through the plurality of blowing holes 103a formed in the reinforcing member 103 and the plurality of blowing holes 1a formed on the lower rear surface of the main body 1.

That is, the heat transferred from the halogen heater 102 into the rear main body 1 of the reflecting plate 101 is forced to convection by the blowing force of the blower fan 105 before being raised upward of the main body 1, so that the main body Since heat is discharged to the outside of (1), the heat is discharged to the outside of the main body 1 and heat radiated forward by the halogen heater 102 while preventing damage to the control box 15 and the other components. The room is heated to an appropriate temperature.

As described above, the present invention is provided with a separate heating device in the lower part of the main body, by providing a heat discharging means for forcibly convection the heat transferred to the rear of the heating apparatus to the outside of the main body, thereby Even if the room is not sufficiently heated by the heating and cooling system installed in the heating apparatus, the room can be sufficiently heated by operating the heating device, thereby improving the heating efficiency of the air conditioner and being transferred from the heating device to the main body. As the high heat is forced to convection by the heat discharging means and discharged to the outside of the main body, it is possible to prevent malfunction of the air conditioner and damage to the upper parts of the air conditioner due to high heat, thereby improving consumer reliability of the product. It works.

Claims (6)

The upper panel of the main body is coupled to the upper panel formed with the inlet and the discharge port, the lower panel of the front of the main body is coupled to the opening and closing to heat the air in the room sucked into the main body to heat and cool the combined air conditioning system In the phase, The lower panel is provided with a heating port, and the rear heating port of the lower panel is provided with a heating device for heating the room, and cools the heating device and convects the heat transferred to the rear of the heating device. Combined air conditioning and heating, characterized in that the heat discharge means for discharging to the outside of the. The method of claim 1, The heating device includes a plurality of heaters installed in the heating port to generate heat, A reflection plate coupled to the heating holes at the rear of the lower panel and radiating heat and light emitted from each heater to the front with each heater installed; It is installed on the front of the reflector plate, the air conditioner for both air conditioning and heating, characterized in that consisting of a dispersion plate for dispersing the heat radiated from each heater forward. The method according to claim 1 or 2, The heat discharging means is installed at a lower predetermined position in the main body to generate a driving force; A blowing fan axially coupled to the fan motor to generate a blowing force while being rotated by receiving the driving force of the fan motor, A plurality of heat dissipation holes formed at an upper portion of the reflecting plate and dissipating heat convexed in accordance with the blowing force of the blowing fan to the front of the main body; It is formed on the lower rear of the main body is a combined air-conditioning and air conditioning, characterized in that composed of a plurality of blowing holes to discharge the convection heat in accordance with the blowing force of the blowing fan to the rear of the main body. The method of claim 3, wherein Fan motor is a combined air-conditioning and air conditioner, characterized in that installed to be located behind the reflector. The method of claim 3, wherein A reinforcing member is installed in the lower part of the main body to reinforce the lower side strength of the main body, and the reinforcing member is formed with a plurality of blowing holes for dissipating convection heat to the outside of the main body according to the blowing force of the blowing fan. Combined air-conditioning and air conditioning. The method according to claim 4 or 5, Combined cooling and air conditioner, characterized in that the fan motor is coupled to the reinforcing member.