KR20190002284U - Electric saving range - Google Patents

Abstract

The present invention relates to an electric stove using waste heat from an air conditioner to provide a stove that can be used with a small amount of electricity, and more particularly, to provide an energy-saving stove using waste heat generated when using an air conditioner. The condenser built in the air conditioner outdoor unit is installed inside the condenser stove to heat the heating plate with the waste heat generated when the air conditioner is operating.It is used as a stove.It does not require the gas used in the existing gas stove, and it is driven by electricity, but like an induction stove. It does not convert directly into thermal energy by using the resistance of electricity, but converts into thermal energy by using heat generated in the liquefaction process of the refrigerant of the air conditioner, and thus has an effect of saving energy. Specifically, a compressor for converting the low temperature low pressure gas refrigerant operated by the operation of the control box into a high temperature high pressure gas, a primary capacitor supplied with the high temperature high pressure gas through the outlet of the compressor and the primary condenser inlet, and the primary capacitor A secondary condenser connected to the condenser stove frame and the heat dissipation pipe outlet of the condenser stove frame as a secondary condenser inlet, having a heating plate on the upper side, and equipped with a blower on one side thereof to allow external air to flow therein; ; Connect a secondary condenser outlet to a dehumidifier and an expansion valve to the dehumidifier; Connect the expansion valve to the evaporator through an evaporator inlet; In forming the refrigerant cycle of the air conditioner connecting the low pressure gas outlet of the evaporator and the intake port of the compressor, the secondary condenser is further configured to be further cooled by the cold wind of the blower 1 and the evaporator, and the condenser stove frame is formed on the upper heating plate. It is composed of heat insulating material and sealed in all parts except air and blower 2 so that the external air introduced through the blower is discharged to the outside only through the heat conduction plate with high thermal conductivity and the heat outlet inside the heat generating plate. An electric stove using waste heat from an air conditioner characterized in that the condenser stove is installed in one air conditioner. Generally, a commercial gas stove requires fuel such as a gas, and a stove using electricity converts electrical energy directly into thermal energy through a resistance, and thus requires a lot of electrical energy. Designed in an air-conditioning system, it is possible to use a stove with less electrical energy required to drive two compressors and a blower output from a small car's capacitor.

Description

Electric saving range {Electric saving range}

The present invention relates to a stove in which a condenser using an air-conditioner waste heat is used for the use of an electric-saving stove, and more particularly, to realize an electric-saving stove that requires no fuel such as gas in a kitchen by using waste heat generated when using an air conditioner. will be.

In general, the air conditioner repeats by the refrigerant circuit through the compression stroke, the condensation stroke, and the expansion stroke, while taking the heat from the air during the evaporation of the refrigerant in the room to supply cool air, and the condenser of the outdoor unit dissipates heat during the liquefaction of the refrigerant. The gas stove is repeatedly supplied with gas as fuel to drive the stove, and the induction stove uses electricity as a raw material to supply thermal energy.

The present invention relates to a stove with a built-in condenser using the air conditioning waste heat in order to provide a stove without supplying fuel such as gas with a small amount of electricity, more specifically, using the waste heat generated from the condenser when using the air conditioner It is to provide.

The present invention focuses on the air conditioner of a small passenger car, recovers the waste heat generated from the condenser when the air conditioner is operating, and incorporates a primary condenser inside the condenser stove frame, mounts a heating plate on the upper part, and installs a blower on the side to introduce external air. The hot air is discharged through the heating holes, and the secondary condenser is configured to be adjacent to the direction in which the air is discharged from the air to drive the stove through the secondary cooling.

According to the present invention, a condenser built in an air conditioner outdoor unit is installed inside a condenser stove to heat the heating plate with waste heat generated when the air conditioner is operated, and discharge the hot air through the heating holes to use it as a stove. It is not necessary, and it is driven by electricity, but instead of converting directly into thermal energy by using electric resistance like induction stove, it is converted into thermal energy by using heat of liquefaction process of refrigerant of air conditioner. Has

1 is a three-dimensional decomposition configuration of the electric stove according to the present invention
2 is a block diagram of the subject innovation

The present invention provides a compressor 20 for changing a low temperature low pressure gas refrigerant operated by an operation of the control box 10 into a high temperature high pressure gas, and an outlet 22 and a primary condenser inlet 31 of the compressor 20. Built-in primary condenser 30 receives the high-temperature high-pressure gas, and the primary condenser 30, the heating plate 81 is provided on the upper side and the blower 90 is mounted on one side thereof to introduce external air A secondary condenser 40 connected to the condenser stove frame 80 and the heat dissipation pipe outlet 32 of the condenser stove frame 80 as a secondary condenser inlet port 41; A secondary condenser outlet 42 and a dehumidifier 50 are connected and an expansion valve 60 is connected to the dehumidifier 50; Connect the expansion valve (60) with an evaporator (70) through an evaporator inlet (71); In forming the refrigerant cycle of the air conditioner A connecting the low pressure gas outlet 72 of the evaporator 70 and the intake port 21 of the compressor 20, the blower 1 (A-1) and the evaporator 70 The secondary condenser 40 is configured to be additionally cooled by a cold wind of the condenser, and the condenser stove frame 80 is composed of a heat insulating material and sealed at all portions except the heating plates 81 and the blowers 2 (90). External air introduced through the blower 2 (90) is discharged from the heat dissipation pipe 33 of the primary condenser 30 only through the heating plate 81 having a high thermal conductivity and the heating holes 82 inside the heating plate 81. In addition, the control box 10 has a condenser stove (B) installed in the air conditioner (A) electrically connected to the compressor 20, the blower 1 (A-1) and the blower 2 (90). Electric stove using waste heat from the air conditioner characterized in that the configuration.

The control box 10 is provided with a power switch 11, a power automatic switch 12, a blower wind control switch 13, a temperature display unit 14, A-1 displayed on the air conditioner (A) is a blower, A-2 is the wind outlet. The control box 10 is electrically connected to the compressor 20, the blower 1 (A-1) and the blower 2 (90), and is also electrically connected to the temperature measuring device 34 installed inside the condenser stove 80. It is connected.

 When the power switch 11 of the control box 10 is turned on, the compressor 20, the blowers 1 (A-1) and the blowers 2 (90) operate to operate the primary condenser at the high pressure gas outlet 22 of the compressor 20. When the high pressure gas of high temperature is sent through the high pressure gas inlet 31 of 30, the high heat contained in the refrigerant gas is discharged into the inside of the condenser stove 80 through the heat dissipation pipe 33 and liquefied to discharge the heat dissipation pipe ( 32) and the secondary condenser inlet 41 further cools the secondary condenser 40 by the cold wind of the evaporator 70 and passes through the secondary condenser outlet 42 to dehumidify by the dehumidifier 50 and expand the expansion valve. It is sent to (60), the expansion of the refrigerant rapidly expands in the low temperature low-pressure liquid in the expansion valve 60 and sent to the evaporator inlet 71 of the evaporator 70 to convert the liquid liquid to the gas to take the heat in the air Supply the cold wind and cool the cold air to cool the secondary condenser It will be discharged to the discharge port (A-2), thereby repeating the cycle of the process is sent to the low-pressure refrigerant gas from the evaporator outlet 72. In the process, a suction port 21 of compressor 20.

The high heat emitted from the heat dissipation pipe 33 in the primary condenser 30 in the condenser range 80 in the cycle process increases the temperature in the condenser range 80 and causes the blower 2 to 90. The outside air introduced by the heat is hot, the hot air is discharged to the heating plate 81 and the heating port 82 is high thermal conductivity is utilized as a stove. Attach the temperature measuring device 34 to the inside of the condenser range 80, and connect the power switch 12 inside the control box 10 through the temperature measuring connector 84 to automatically supply power when the temperature is above a predetermined temperature. If it is less than that, it is configured to be connected again to maintain safety.

In general, a commercial gas stove requires fuel such as gas, and a stove using electricity converts electrical energy directly into thermal energy through a resistance, and thus requires a lot of electrical energy, but the electric stove according to the present invention is a small compressor ( 20) and the use of the stove is possible with a small amount of electrical energy required to drive the blower 1 (A-1) and the blower 2 (90).

10: control box 20: compressor
30: primary capacitor 40: secondary capacitor
50: dehumidifier 60: expansion valve
70: evaporator 80: condenser stove frame
90 blower 2

Claims (3)

 The high temperature and high pressure through the compressor 20 which changes the low temperature low pressure gas refrigerant operated by the operation of the control box 10 into the high temperature high pressure gas, and the outlet 22 and the primary condenser inlet 31 of the compressor 20. The primary condenser 30 receives the gas, the primary condenser 30 is built-in, and the heating plate 81 is provided on the upper portion thereof, and the blower 90 is mounted on one side thereof so that external air can be introduced therein. A secondary condenser 40 connected to one condenser stove frame 80 and a heat dissipation pipe outlet 32 of the condenser stove frame 80 as a secondary condenser inlet port 41; A secondary condenser outlet 42 and a dehumidifier 50 are connected and an expansion valve 60 is connected to the dehumidifier 50; Connect the expansion valve (60) with an evaporator (70) through an evaporator inlet (71); In forming the refrigerant cycle of the air conditioner A connecting the low pressure gas outlet 72 of the evaporator 70 and the intake port 21 of the compressor 20, the blower 1 (A-1) and the evaporator 70 The secondary condenser 40 is configured to be additionally cooled by a cold wind of the condenser, and the condenser stove frame 80 is composed of a heat insulating material and sealed at all portions except the heating plates 81 and the blowers 2 (90). External air introduced through the blower 2 (90) is discharged from the heat dissipation pipe 33 of the primary condenser 30 only through the heating plate 81 having a high thermal conductivity and the heating holes 82 inside the heating plate 81. In addition, the control box 10 has a condenser stove (B) installed in the air conditioner (A) electrically connected to the compressor 20, the blower 1 (A-1) and the blower 2 (90). Electric stove using waste heat from the air conditioner characterized by In forming the refrigerant cycle of the air conditioner A connecting the intake port 21 of the compressor 20, the secondary condenser 40 is further cooled by the cold wind of the blower 1 (A-1) and the evaporator 70. Refrigerant cycle of the air conditioner characterized in that adjacent configuration All parts other than the heating plates 81 and the blower 2 (90) are composed of a heat insulator 83 and sealed, so that the outside air introduced through the blower 90 has a high thermal conductivity inside the heating plate 81 and the heating plate. (81) the frame, characterized in that configured to be discharged to the outside only through the heat outlets (82) inside

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