CN111854010A - Split type kitchen air conditioning system - Google Patents

Abstract

The invention discloses a split type kitchen air conditioning system which comprises a cold air blower shell, a hot water machine shell and a compressor, wherein an air inlet and an air outlet are formed in the cold air blower shell; the hot water machine shell and the air cooler shell are arranged separately, a water tank and a condensation heat exchanger are arranged in the hot water machine shell, the condensation heat exchanger is arranged on the outer wall of the water tank or in the water tank to exchange heat with the water tank, and the condensation heat exchanger is connected with the evaporator; the compressor is respectively connected with the evaporator and the condensation heat exchanger.

Description

Split type kitchen air conditioning system

Technical Field

The invention relates to the technical field of air conditioners, in particular to an indoor split type air conditioner system suitable for a kitchen.

Background

The kitchen is a place which people often need to enter in daily life, but the kitchen has a plurality of heat sources and high humidity, and the hot temperature in summer makes the hot and humid environment in the kitchen worse, so that the kitchen brings strong discomfort to cookers, and the refrigeration requirement in the kitchen in summer is very large. However, the working environment of the kitchen is very special, the oil smoke in the kitchen is heavy, the temperature is high, and the space is narrow, and the traditional air conditioner installed in the kitchen has the problems that the traditional air conditioner does not have enough space for the pipe running and arrangement of the connecting pipe and the drain pipe, and is not easy to clean.

The existing kitchen air conditioning system is communicated with an air outlet device arranged on a kitchen ground layer, and the air outlet mode of the kitchen air conditioning system is upward blown from the ground so as to improve the user experience. However, the air outlet device needs to be installed on the floor of the kitchen, and not all kitchens are suitable for installing the air outlet device.

Disclosure of Invention

The invention aims to overcome the technical problems of difficult pipe distribution, large occupied air conditioner and difficult cleaning in the prior art in the process of installing the air conditioner in the kitchen, and provides a split type kitchen air conditioning system which is indoor split type, does not need to distribute pipes and install an external unit, has no obstruction to kitchen cleaning, and simultaneously utilizes the heat generated by air conditioner refrigeration to produce hot water to provide daily required hot water for the kitchen.

In order to achieve the purpose, the invention adopts the following technical scheme:

a split galley air conditioning system, comprising:

the air conditioner comprises a cold air fan shell, wherein an air inlet and an air outlet are formed in the cold air fan shell, an air channel communicated with the air inlet and the air outlet is arranged in the cold air fan shell, and a fan and an evaporator are arranged in the air channel;

The hot water shell is separated from the air cooler shell, a water tank and a condensation heat exchanger are arranged in the hot water shell, the condensation heat exchanger is arranged on the outer wall of the water tank or in the water tank so as to enable the condensation heat exchanger to exchange heat with the water tank, and the condensation heat exchanger is connected with the evaporator;

and the compressor is respectively connected with the evaporator and the condensation heat exchanger.

The split kitchen air conditioning system adopts the cold air fan shell and the hot water machine shell which are separately arranged to respectively form the cold air generating device and the hot water preparing device, thereby not only realizing the function of air conditioning refrigeration, but also utilizing the heat generated in the refrigeration process to prepare hot water for users to take. Moreover, the cold air fan shell and the hot water machine shell are arranged separately, and can be placed according to the space position of a kitchen during use, for example, the cold air fan shell can be hung on a wall, and the hot water machine shell is placed under a water tank of the kitchen, so that the kitchen space is saved.

Further, the compressor is disposed inside the hot water housing.

Furthermore, a water collecting tank is arranged at the bottom of the cold air fan shell, a condensation return pipe is further arranged in the cold air fan shell, and the condensation return pipe is used for guiding condensed water generated in the air pipe to the water collecting tank.

Furthermore, the water collecting tank is located below the air outlet, the evaporator is arranged in the air duct in an inclined mode to form a high-level end and a low-level end, the air duct is provided with a backflow port at the low-level end, one end of the condensation backflow pipe is connected with the backflow port, and the other end of the condensation backflow pipe is connected with the water collecting tank.

Further, be equipped with atomizer and atomizing chamber in the water catch bowl, the atomizing chamber is used for with the fog diffusion extremely cold wind casing is outside.

Furthermore, a water level sensor is arranged at the top of the water collecting tank.

Furthermore, the split kitchen air conditioning system also comprises a standby heat exchanger, wherein the standby heat exchanger is fixed on the side wall in the hot water machine shell, and is sequentially connected with the condensing heat exchanger, the standby heat exchanger and the evaporator by adopting a refrigerant connecting pipe.

Furthermore, the spare heat exchanger is a dividing wall type heat exchanger, and at least part of the refrigerant connecting pipe is tightly attached to the surface wall of the dividing wall type heat exchanger.

Or the refrigerant connecting pipe comprises a first refrigerant connecting pipe and a second refrigerant connecting pipe, one end of the first refrigerant connecting pipe is connected with the outlet end of the condensing heat exchanger, and the other end of the first refrigerant connecting pipe is connected with the inlet end of the standby heat exchanger; one end of the second refrigerant connecting pipe is connected with the outlet end of the standby heat exchanger, and the other end of the second refrigerant connecting pipe is connected with the inlet end of the evaporator.

Furthermore, the standby heat exchanger comprises a first standby heat exchanger and a second standby heat exchanger, and the refrigerant connecting pipe is sequentially connected with the condensing heat exchanger, the first standby heat exchanger, the second standby heat exchanger and the evaporator.

Further, the condensing heat exchanger is a tubular heat exchanger, and the tubular heat exchanger is surrounded on the outer wall of the water tank or arranged in the water tank.

Further, the water tank is provided with a water temperature detection device.

Furthermore, an electric heating module is further arranged in the hot water machine shell and used for heating the water outlet of the water tank.

Furthermore, the water heater shell is provided with a tap water inlet and a hot water outlet, the water outlet end of the water tank is connected with the hot water outlet through a water outlet pipe, and the electric heating module is used for heating the water in the water outlet pipe.

Furthermore, the electric heating module further comprises a water outlet temperature sensor, and the water outlet temperature sensor is used for detecting the temperature of water in the water outlet pipe.

Compared with the prior art, the invention has the beneficial effects that:

the split kitchen air conditioner is a split air conditioner in a kitchen, and a cold air generating device and a hot water preparing device are respectively formed by a cold air fan shell and a hot water machine shell which are separately arranged in a system, so that the refrigeration function of the air conditioner is realized, and hot water prepared by heat generated in the refrigeration process can be used for a user to take; moreover, the cold air fan shell and the hot water machine shell are arranged separately, and can be placed according to the space position of a kitchen during use, for example, the cold air fan shell can be hung on a wall, and the hot water machine shell is placed under a water tank of the kitchen, so that the kitchen space is saved.

Drawings

FIG. 1 is a schematic block diagram of one embodiment of a split-type galley air conditioning system of the present invention;

FIG. 2 is a schematic block diagram of another embodiment of the split galley air conditioning system of the present invention;

FIG. 3 is a schematic structural diagram of yet another embodiment of a split-type galley air conditioning system of the present invention;

fig. 4 is a schematic structural view of another embodiment of the split-type galley air conditioning system of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments obtained by a person skilled in the art without making any inventive step are within the scope of the present invention.

Example 1

Referring to fig. 1, fig. 1 is a schematic structural diagram of a split-type kitchen air conditioning system according to an embodiment of the present invention. The split kitchen air conditioning system includes a cold air blower housing 10 and a hot water housing 20 separately provided and a compressor 203. The blower housing 10 has an air inlet 101 formed at the top and an air outlet 102 formed at the side. When in use, the side surface of the air cooler case 10 provided with the air outlet 102 is a front surface facing a user. Optionally, the air inlet 101 and the air outlet 102 are both provided with grilles capable of rotatably adjusting the air inlet and outlet angles. When the system is stopped and not used, the grilles of the air inlet 101 and the air outlet 102 can be kept closed, and dirt such as dust can be prevented from entering the inside of the cold air blower shell 10. In order to prevent oil stains from entering the inside of the cold air blower case 10 and facilitate cleaning for a user, the air inlet 101 and the air outlet 102 are both provided with detachable filter screens.

An air duct 103 is arranged inside the cold air fan shell 10. The air duct 103 communicates the air inlet 101 and the air outlet 102. A fan 104 and an evaporator 105 are also arranged in the air duct 103. The fan 104 introduces hot air in the kitchen into the air duct 103 through the air inlet 101, and forms cold air after condensation and temperature reduction of the evaporator 105 in the air duct 103, and the cold air is blown out from the air outlet 102 to cool the kitchen. The fan 104 may be a cross-flow fan or a centrifugal fan. The evaporator 105 is preferably arranged below the fan 104.

The hot water housing 20 is provided separately from the cold air housing 10. The hot water cabinet 20 is provided with a water tank 201 and a condensing heat exchanger 202. In this embodiment, the condensing heat exchanger 202 is disposed on the outer wall of the water tank 201, and coats the outer wall of the water tank 201, so that the condensing heat exchanger 202 can exchange heat with the water tank 201, and the heat dissipated by the refrigerant in the condensing heat exchanger 202 heats the water tank 201 to prepare hot water for users to use. The condensing heat exchanger 202 is further connected to the evaporator 105 through a refrigerant connecting pipe, and low-temperature and low-pressure refrigerant from the condensing heat exchanger 202 is delivered to the evaporator 105 through the refrigerant connecting pipe to exchange heat with air in the kitchen.

The compressor 203 is connected to the evaporator 105 and the condensing heat exchanger 202, respectively. The high-temperature and high-pressure refrigerant generated by the compressor 203 firstly enters the condensing heat exchanger 202 in the hot water casing 20 for heat dissipation and pressure reduction, and the refrigerant after temperature reduction and pressure reduction exchanges heat with the air in the kitchen through the evaporator 105 in the air cooler casing 10, absorbs heat and is converted into a gas state, so that the indoor temperature is reduced. The gaseous refrigerant is again introduced into the compressor 203 for the next cycle. A throttling device (not shown) is connected in series between the condensing heat exchanger 202 and the evaporator 105 for depressurizing the refrigerant discharged from the condensing heat exchanger 202.

When the cold air fan shell 10 is used, the cold air fan shell can be hung on the wall of a kitchen, and the hot water fan shell 20 is placed under a sink of the kitchen, so that the space can be saved, and the use scene of cold air and hot water can be met. The cold air blower shell 10 is hung on a wall, so that cold air is blown out from the upper part, and can be easily and directly blown to a human body, the temperature is quickly reduced, and the comfort is improved. The hot water machine shell 20 is placed under the sink, so that the water tank 201 in the hot water machine shell 20 is convenient to be connected with a tap water pipe of a kitchen, water can be conveniently fed into the water tank 201, and hot water in the water tank 201 can be conveniently output to a faucet. Optionally, the compressor 203 is disposed inside the hot water cabinet 20. Because the compressor 203 has certain weight, the compressor 203 is arranged in the hot water shell 20 and is arranged on the ground under a kitchen sink in use, better support is obtained, only the fan 104 and the evaporator 105 are arranged in the cold fan shell 10 hung on the wall, the weight is relatively light, and the wall is easier and safer.

Since condensed water is generated during the cooling process, the condensed water generally slides off the evaporator 105, and in order to prevent the condensed water from damaging internal components after sliding off the inside of the air cooler case 10 or directly dropping on a kitchen to pollute the kitchen environment, in a possible embodiment, a water collecting tank 107 and a condensate return pipe 106 may be further provided. The water collection tank 107 is installed at the bottom of the fan housing 10, and the condensate return pipe 106 is used for guiding the condensate water generated in the air duct 103 to the water collection tank 107. In order to better collect the condensed water in the water collecting tank 107, the evaporator 105 is disposed in an inclined manner in the air duct 103 to form a high end and a low end, and the air duct 103 is provided with a return opening 103a at the low end. One end of the return condenser pipe 106 is connected to the return port 103a, and the other end of the return condenser pipe 106 is connected to the water collection tank 107.

Optionally, a water level sensor (not shown) is disposed at the top of the water collection tank 107 for detecting the water level in the water collection tank 107. Along with the continuous progress of refrigeration, the comdenstion water that produces can be more and more, if not in time clear up can make dirty the wet kitchen, and the system can report to the police when the water level sensor retrieves the water level higher, reminds the user to clear up. Moreover, the system can also switch the refrigeration mode to the air supply mode, and no longer refrigerates to produce condensed water. The water collecting tank 107 can be a pull-type water collecting tank structure, a pull ring is arranged on the front face of the outside of the water collecting tank 107, when a user wants to clean the water collecting tank 107, the pull ring is held by a hand to pull the water collecting tank 107 out, so that the water collecting tank 107 is separated from the cold air blower shell 10, then the water in the cold air blower shell is poured out, and the cold air blower shell 10 is inserted.

Optionally, the split-type kitchen air conditioning system of the present invention further includes a backup heat exchanger 204, wherein the backup heat exchanger 204 is fixed on a sidewall inside the hot water housing 20, and the condensing heat exchanger 202, the backup heat exchanger 204 and the evaporator 105 are sequentially connected by using a refrigerant connection pipe 205. The specific connection mode can be as follows: the backup heat exchanger 204 is a dividing wall type heat exchanger, and at least part of the refrigerant connecting pipe 205 is tightly attached to the surface wall of the dividing wall type heat exchanger. It can also be: the refrigerant connection pipe 205 includes a first refrigerant connection pipe (not shown) and a second refrigerant connection pipe (not shown). One end of the first refrigerant connecting pipe is connected with the outlet end of the condensing heat exchanger 202, and the other end of the first refrigerant connecting pipe is connected with the inlet end of the standby heat exchanger 204; one end of the second refrigerant connecting pipe is connected to the outlet end of the backup heat exchanger 204, and the other end of the second refrigerant connecting pipe is connected to the inlet end of the evaporator 105. The backup heat exchanger 204 is fixed to a side wall inside the hot water housing 20 to be able to conveniently and directly exchange heat with air in the kitchen room.

Alternatively, the condensing heat exchanger 202 is preferably a tubular heat exchanger, and may be in close contact with the outer wall of the water tank 201.

If the water in the water tank 201 in the system is used as hot water for a user, the temperature heated by the heat generated in the refrigeration process may not meet the use requirement of the user, or the refrigeration may not be performed, and the water temperature in the water tank 201 is not heated by the heat generated, so that the split kitchen air conditioning system further comprises an electric heating module 206, and the electric heating module 206 can heat the water in the water tank 201 or the water in the outlet water, so that the outlet water temperature meets the use requirement of the user. The method comprises the following steps: the hot water machine shell 20 is provided with a water inlet 20a and a water outlet 20b, the inlet end of the water tank 201 is connected with the water inlet 20a through a water inlet pipe, the outlet end of the water tank 201 is connected with the water outlet 20b through a water outlet pipe 207, and hot water flows out from the water outlet pipe 207 through the water outlet 20b for users to use. The electric heating module 206 may use a heating element or a heating wire to heat the water temperature of the water tank 201, or the water temperature of the water outlet pipe. For example, a heating element may be disposed in the water tank 201, or a heating wire may be wound around the water outlet pipe 207. The electric heating module 206 further comprises a power supply, and the power supply is electrically connected with the heating element or the heating wire to provide a working power supply for the heating element or the heating wire. In order to control the outlet water temperature of the outlet pipe more accurately, the electric heating module 206 further includes an outlet water temperature sensor (not shown), which is fixed on the outlet pipe 207 for detecting the water temperature of the outlet pipe. When the water temperature of the water outlet pipe does not reach the temperature preset by the user, the power supply is started to enable the heating body or the heating wire to work, and the water flowing out of the water tank 201 is heated in the water outlet pipe 207 to the temperature preset by the user and then is supplied to the user.

Optionally, the water tank 201 is provided with a water temperature detection device (not shown). When the water temperature in the water tank 201 is detected to be high and the temperature of the condensing heat exchanger 202 cannot be reduced, the system restarts the standby heat exchanger 204 to work, and the refrigerant flowing out of the condensing heat exchanger 202 dissipates heat in the standby heat exchanger 204 to reduce the temperature.

Optionally, a display screen 10a is provided on a front panel of the fan housing 10. The display screen 10a is preferably a touch display screen. The touch display screen can display the current kitchen temperature and can also display information such as the water temperature in the water tank and the water level of the water collecting tank.

The working process and the principle of the split kitchen air conditioning system of the embodiment are as follows:

after the system is started, the air supply grille of the air outlet 102 is opened, and a user can realize fixed-point air supply by adjusting the angle of the air supply grille. The condensed water generated in the refrigerating process flows into the water collecting sump 107 through the condensate return pipe 106 after slipping from the evaporator 105. When the water level sensor in the partition plate above the water collecting tank 107 detects that the water amount in the water collecting tank 107 is too much, the user can be reminded of timely cleaning through a loudspeaker or an alarm lamp. The condensing heat exchanger 202 exchanges heat with the water tank 201, heat is dissipated by using water in the water tank 201, and meanwhile, the water in the water tank 201 is heated by using heat released by the condensing heat exchanger 202, so that daily hot water in a kitchen is provided. After the water in the water tank 201 is saturated, the hidden backup heat exchanger 204 arranged in the hot air blower shell 20 can exchange heat with indoor air, so that the purpose of heat dissipation is achieved, and normal operation of the air conditioner is guaranteed. If the heat dissipation requirement cannot be met, the system can be switched to an air supply mode to ensure the normal operation of the system. The water tank 201 can be serially connected into a household water pipeline, water in the water tank 201 can be supplemented through the water inlet 20a, and meanwhile water in the water tank 201 can be taken out through the water faucet. The electric heating module 206 is integrated inside the air heater shell 20, and when the water temperature sensor built in the electric heating module 206 detects that the water temperature of the water outlet pipe 207 is too low, the electric heating module 206 is started to heat the outlet water, so as to ensure the use experience of a user.

Example 2

Referring to fig. 2, the present embodiment is further improved on the basis of embodiment 1. The split-type kitchen air conditioning system provided by the embodiment is different from that of the embodiment 1 in that: the backup heat exchanger of the present embodiment includes a first backup heat exchanger 204a and a second backup heat exchanger 204b, and the refrigerant connection pipe 205 connects the condensing heat exchanger 202, the first backup heat exchanger 204a, the second backup heat exchanger 204b, and the evaporator 105 in this order. The connection is the same as that of example 1, which uses only one backup heat exchanger 24, one of which is:

part of pipelines of the refrigerant connecting pipe 205 are tightly attached to the first backup heat exchanger 204a, part of pipelines are tightly attached to the second backup heat exchanger 204b, and the refrigerant in the refrigerant connecting pipe 205 flows through the first backup heat exchanger 204a and the second backup heat exchanger 204 b.

The other connection mode is as follows:

the refrigerant connection pipe 205 includes a first refrigerant connection pipe (not shown), a second refrigerant connection pipe (not shown), and a third refrigerant connection pipe. One end of the first refrigerant connecting pipe is connected with the outlet end of the condensing heat exchanger 202, and the other end of the first refrigerant connecting pipe is connected with the inlet end of the first backup heat exchanger 204; one end of the second refrigerant connecting pipe is connected with the outlet end of the first backup heat exchanger 204, and the other end of the second refrigerant connecting pipe is connected with the inlet end of the second backup heat exchanger 204; one end of the third refrigerant connecting pipe is connected to the inlet end of the second backup heat exchanger 204, and the other end of the third refrigerant connecting pipe is connected to the inlet end of the evaporator 105.

The first backup heat exchanger 204a and the second backup heat exchanger 204b are fixed on the side wall inside the hot water cabinet 20, and can conveniently and directly exchange heat with the air in the kitchen.

Example 3

Referring to fig. 3, the present embodiment further improves the structure of the water collecting tank 107 on the basis of embodiment 1 or embodiment 2. The water collection tank 107 of the present embodiment is different from embodiment 1 or 2 in that: an atomizer 107c and an atomization cavity 107b are arranged in the water collection tank 107, and the atomization cavity 107b is used for diffusing the mist to the outside of the cold air shell 10. The method comprises the following steps: a filter screen 107a is arranged below the water inlet of the water collection tank 107 and is used for filtering impurities of the condensed water entering the water collection tank 107, and the condensed water after being filtered is atomized by an atomizer 107 c. An atomization cavity 107b is arranged on the front surface of the water collecting tank close to the cold air housing 10, and atomized water vapor is diffused to the outside of the cold air housing 10 from the atomization cavity 107 b.

Example 4

Referring to fig. 4, the present embodiment is different from embodiment 1 in that the condensing heat exchanger 202 and the water tank 201 are different in a continuous manner. In the present embodiment, the condensing heat exchanger 202 is placed inside the water tank 201 to be in contact with water inside the water tank 201. The condensing heat exchanger 202 can be a coil heat exchanger.

The above description is only for the preferred embodiment of the present invention, but the present invention should not be limited to the embodiment and the disclosure of the drawings, and therefore, all equivalent or modifications that do not depart from the spirit of the present invention are intended to fall within the scope of the present invention.

Claims (15)

1. A split galley air conditioning system, comprising:

the air conditioner comprises a cold air fan shell, wherein an air inlet and an air outlet are formed in the cold air fan shell, an air channel communicated with the air inlet and the air outlet is arranged in the cold air fan shell, and a fan and an evaporator are arranged in the air channel;

the hot water shell is separated from the air cooler shell, a water tank and a condensation heat exchanger are arranged in the hot water shell, the condensation heat exchanger is arranged on the outer wall of the water tank or in the water tank so as to enable the condensation heat exchanger to exchange heat with the water tank, and the condensation heat exchanger is connected with the evaporator;

and the compressor is respectively connected with the evaporator and the condensation heat exchanger.

2. The split-galley air conditioning system of claim 1, wherein: the compressor is disposed inside the hot water housing.

3. The split-galley air conditioning system of claim 1, wherein: the bottom of the cold air blower shell is provided with a water collecting tank, a condensation backflow pipe is further arranged in the cold air blower shell, and the condensation backflow pipe is used for guiding condensed water generated in the air pipe to the water collecting tank.

4. The split-galley air conditioning system of claim 3, wherein: the water collecting tank is located below the air outlet, the evaporator is arranged in the air duct in an inclined mode to form a high-level end and a low-level end, the air duct is provided with a backflow port at the low-level end, one end of the condensation backflow pipe is connected with the backflow port, and the other end of the condensation backflow pipe is connected with the water collecting tank.

5. The split-galley air conditioning system of claim 3, wherein: be equipped with atomizer and atomizing chamber in the water catch bowl, the atomizing chamber is used for with the fog diffusion extremely the cold wind casing is outside.

6. The split-galley air conditioning system of claim 3, wherein: and a water level sensor is arranged at the top of the water collecting tank.

7. The split-galley air conditioning system of claim 1, wherein: the water heater is characterized by further comprising a standby heat exchanger, wherein the standby heat exchanger is fixed on the side wall inside the hot water machine shell, and the condensing heat exchanger, the standby heat exchanger and the evaporator are sequentially connected through a refrigerant connecting pipe.

8. The split-galley air conditioning system of claim 7, wherein: the spare heat exchanger is a dividing wall type heat exchanger, and at least part of the refrigerant connecting pipe is tightly attached to the surface wall of the dividing wall type heat exchanger.

9. The split-galley air conditioning system of claim 7, wherein: the refrigerant connecting pipe comprises a first refrigerant connecting pipe and a second refrigerant connecting pipe, one end of the first refrigerant connecting pipe is connected with the outlet end of the condensing heat exchanger, and the other end of the first refrigerant connecting pipe is connected with the inlet end of the standby heat exchanger; one end of the second refrigerant connecting pipe is connected with the outlet end of the standby heat exchanger, and the other end of the second refrigerant connecting pipe is connected with the inlet end of the evaporator.

10. The split-galley air conditioning system of claim 7, wherein: the standby heat exchanger comprises a first standby heat exchanger and a second standby heat exchanger, and the refrigerant connecting pipe is sequentially connected with the condensation heat exchanger, the first standby heat exchanger, the second standby heat exchanger and the evaporator.

11. The split-galley air conditioning system of claim 1, wherein: the condensing heat exchanger is a tubular heat exchanger which is surrounded on the outer wall of the water tank or arranged in the water tank.

12. The split-galley air conditioning system of claim 1, wherein: the water tank is provided with a water temperature detection device.

13. The split-galley air conditioning system of claim 1, wherein: an electric heating module is further arranged in the hot water machine shell and used for heating the water outlet of the water tank.

14. The split-galley air conditioning system of claim 13, wherein: the water heater comprises a water tank, an electric heating module and a water outlet pipe, wherein the water tank is provided with a water inlet and a water outlet, the water outlet end of the water tank is connected with the water outlet through the water outlet pipe, and the electric heating module is used for heating water in the water outlet pipe.

15. The split-galley air conditioning system of claim 14, wherein: the electric heating module further comprises a water outlet temperature sensor, and the water outlet temperature sensor is used for detecting the temperature of water in the water outlet pipe.

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