CN212431129U

CN212431129U - Multifunctional integrated air conditioner

Info

Publication number: CN212431129U
Application number: CN202021269063.4U
Authority: CN
Inventors: 王子捷
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-02
Filing date: 2020-07-02
Publication date: 2021-01-29
Anticipated expiration: 2030-07-02
Also published as: WO2022002207A1

Abstract

The utility model discloses a multifunctional integrated air conditioner, which comprises an air conditioner all-in-one machine, an air conditioner radiator, an input airflow guide pipe, a warm air output pipe and a cold air output pipe which are arranged indoors; an air conditioner condensing chamber, an air conditioner evaporating chamber, an air conditioner compressor and a central control system are arranged in a shell of the air conditioner all-in-one machine; the air conditioner radiator is used for cooling the radiating airflow of the air conditioner condenser; the inlet end of the input airflow guide pipe is sequentially connected with the reduced-opening aspirator and the outdoor air input port, the outdoor air input port is arranged outdoors, the inlet end of the reduced-opening aspirator is provided with an outdoor air input guide pump, and the outlet end of the input airflow guide pipe is connected with the inlet ends of an air conditioner condensation chamber and an air conditioner evaporation chamber. The utility model introduces part of the air-conditioning working airflow formed by the outside air carrying part of the indoor air, and improves the indoor air condition; in addition, the heat dissipation air flow and the cold air generated by the evaporator and the condenser during the working of the air conditioner are reasonably collected and reused, and the air conditioner is green and environment-friendly.

Description

Multifunctional integrated air conditioner

Technical Field

The utility model relates to an air conditioning technology field, concretely relates to multi-functional integral type air conditioner.

Background

In the world, due to the increasing of the global population, some old living modes and demands of people, the unregulated and rotten mining of the earth organism and the random abandonment and emission of domestic waste and waste gas of people and the like, the serious damage to the earth environment where people live is caused, such as the greenhouse phenomenon, the ozone cavity, the bipolar ice melting and the like, which threaten the normal survival of human beings.

Some refrigeration devices such as air conditioners and refrigerators used in life of people still stay in some original application modes. In theory, during the refrigeration operation of air conditioners, refrigerators and other equipment, once the refrigerating space is lowered once, the equipment releases corresponding heat energy to the atmospheric space, wherein the heat energy is generated when the equipment lowers once to the refrigerating space. Therefore, refrigeration equipment such as air conditioners and refrigerators, and conventional refrigerants such as freon used for them are important factors causing "greenhouse phenomenon", "ozone hole", and the like.

When the existing split-type air conditioner works in cooling or heating, a large amount of heat energy or cold air generated by a condenser or an evaporator of the air conditioner can be released into the atmosphere at will. Due to the consideration of energy conservation and heat preservation, when the air conditioner is used for cooling or heating indoor air, doors and windows can be closed as much as possible, and the phenomenon of air turbidity, oxygen deficiency and the like can be generated in a closed room, so that certain influence can be caused on physical and psychological health of people.

In addition, the condenser of the traditional refrigerator is generally exposed on the back of the refrigerator, and people can directly feel the heat energy released by the condenser of the refrigerator when the refrigerator works in a refrigerating mode. The condenser of modern refrigerators is buried in the outer case of the refrigerator, but they have a common disadvantage in that heat energy generated during the refrigerating operation of the refrigerator is randomly released into the indoor air, and particularly in hot summer, the domestic environment of people is seriously affected.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art not enough, provide a multi-functional integral type air conditioner.

The technical purpose of the utility model is realized through the following technical scheme.

A multifunctional integrated air conditioner comprises an air conditioner all-in-one machine, an air conditioner radiator, an input airflow guide pipe, a warm air output pipe and a cold air output pipe;

the air-conditioning integrated machine is placed indoors and comprises a shell, and an air-conditioning condensation chamber, an air-conditioning evaporation chamber and an air-conditioning compressor which are sequentially arranged in the shell from top to bottom, wherein an air-conditioning condenser is arranged in the air-conditioning condensation chamber, an air-conditioning evaporator is arranged in the air-conditioning evaporation chamber, one ends of the air-conditioning condenser and the air-conditioning evaporator are respectively connected with the air-conditioning compressor, and the other ends of the air-conditioning condenser and the air-conditioning evaporator are mutually connected; the air-conditioning all-in-one machine also comprises a central control system for controlling the working state of each part;

one end of the air conditioner radiator is communicated with the outlet end of the air conditioner condensation chamber through a condenser heat dissipation airflow guide pipe, a condenser heat dissipation airflow guide pump is arranged in the condenser heat dissipation airflow guide pipe, the other end of the air conditioner radiator is communicated with the inlet end of the air conditioner condensation chamber through a condenser heat dissipation airflow return pipe, and the air conditioner radiator is used for cooling heat dissipation airflow of the air conditioner condenser;

the inlet end of the input airflow guide pipe is sequentially connected with the necking aspirator and an outdoor air input port, the outdoor air input port is arranged outdoors, and an outdoor air input filter screen is arranged at the inlet end of the outdoor air input port; the inlet end of the reduced aspirator is provided with an outdoor air input guide pump, and the reduced aspirator is used for sucking indoor air into the input airflow guide pipe and mixing the indoor air with the outdoor air; the outlet end of the input airflow guide pipe is respectively connected with the inlet ends of an air-conditioning condensation chamber and an air-conditioning evaporation chamber of an indoor air-conditioning all-in-one machine, a condenser heating airflow input stop valve is arranged at the joint of the outlet end of the input airflow guide pipe and the inlet end of the air-conditioning condensation chamber, and an evaporator cooling airflow input stop valve is arranged at the joint of the outlet end of the input airflow guide pipe and the inlet end of the air-conditioning evaporation chamber;

the inlet end of the warm air output pipe is connected with the outlet end of the air-conditioning condensation chamber, a warm air output stop valve is arranged at the connection position, and the outlet end of the warm air output pipe is positioned at the lower part of the indoor space and used for outputting warm air in the warm air output pipe to the indoor space from the lower part of the indoor space;

the inlet end of the cold air output pipe is connected with the outlet end of the air-conditioning evaporation chamber, a steam-water separator and a cold air output stop valve are sequentially arranged at the joint of the inlet end of the cold air output pipe and the outlet end of the air-conditioning evaporation chamber, the steam-water separator is arranged on one side close to the outlet end of the air-conditioning evaporation chamber, and the outlet end of the cold air output pipe is positioned on the upper portion of the indoor space and used for outputting cold air in the cold air output pipe to.

In the multifunctional integrated air conditioner, the air conditioner radiator is an air conditioner radiating water tank internally provided with an air conditioner radiating flow guide pipe in a penetrating manner, the inlet end and the outlet end of the air conditioner radiating flow guide pipe are respectively arranged on the tank wall of the air conditioner radiating water tank, the inlet end of the air conditioner radiating flow guide pipe is communicated with the outlet end of a condenser radiating air flow guide pipe, and the outlet end of the air conditioner radiating flow guide pipe is communicated with the inlet end of a condenser radiating air flow return pipe; the wall of the air-conditioning radiating water tank is also provided with an air-conditioning radiating water tank water inlet connected with a tap water pipe and used for supplying tap water with lower temperature into the air-conditioning radiating water tank through the tap water pipe; and the wall of the air-conditioning heat dissipation water tank is also provided with an air-conditioning heat dissipation water tank water outlet communicated with an indoor hot water facility through a connecting pipe, and the air-conditioning heat dissipation water tank water outlet is provided with an air-conditioning heat dissipation water tank hot water output stop valve.

In the multifunctional integrated air conditioner, at the joint of the reduced-opening aspirator and the outdoor air input port, the aperture of the reduced-opening aspirator is smaller than that of the outdoor air input port; the necking aspirator comprises an indoor air suction window arranged on the pipe wall and an indoor air suction filter screen arranged on the indoor air suction window and used for filtering sucked indoor air; when outdoor air is sucked into the guide pump at a certain flow rate, a fluid suction phenomenon is formed in the necking aspirator to generate negative pressure, so that indoor air is sucked into the input airflow guide pipe through the indoor air suction filter screen and the indoor air suction window and is mixed with the outdoor air; the outdoor air is input into the guide pump (20) and the flow speed of the outdoor air is regulated and controlled by a remote controller.

Further, an indoor air suction sterilizing device for sterilizing the sucked indoor air is further arranged on the indoor air suction window.

In the above-mentioned multi-functional integral type air conditioner, the exit end of warm air output tube is provided with the warm air output filter screen that is used for carrying out filterable warm air to the warm air of output, is used for carrying out sterile warm air output degassing unit to the warm air of output.

In the above-mentioned multi-functional integral type air conditioner, the exit end of cold wind output tube is provided with and is used for carrying out filterable cold wind output filter screen, is used for carrying out sterile cold wind output degassing unit to the cold wind of output to the exit end of cold wind output tube.

In the multifunctional integrated air conditioner, the air conditioner all-in-one machine further comprises an evaporator refrigeration water tank and a heat preservation and refrigeration box which are arranged below the air conditioner evaporation chamber in sequence from top to bottom in the shell and communicated with the atmosphere; the evaporator refrigerating water tank is filled with water for exchanging heat with part of cold air settled to the bottom in the air-conditioning evaporation chamber through the water in the evaporator refrigerating water tank; a cold water type evaporator is arranged in the side wall of the heat preservation refrigerating box and is of a tubular structure, one end of the cold water type evaporator is communicated with one side of the bottom end of the evaporator refrigerating water tank, and the end surface of the end of the cold water type evaporator is flush with the bottom end of the evaporator refrigerating water tank; the other end of the cold water type evaporator extends into the evaporator refrigerating water tank from the other side of the bottom end of the evaporator refrigerating water tank, and the end face of the cold water type evaporator at the end is higher than the inner surface of the bottom end of the evaporator refrigerating water tank to form a height difference; and the corresponding positions of the heat preservation and refrigeration box and the shell of the air conditioner all-in-one machine are provided with box doors for opening and closing the heat preservation and refrigeration box.

Furthermore, the evaporator refrigeration water tank is communicated with the atmosphere by installing a water level meter; the cold water type evaporator is distributed in the side wall of the heat preservation refrigerating box in a bending way and is used for increasing the contact area of the cold water type evaporator and the heat preservation refrigerating box; and a drain valve is arranged at the bottom of the cold water type evaporator.

In the multifunctional integrated air conditioner, a refrigerator is arranged below the air-conditioning all-in-one machine, wherein a refrigerator condenser of the refrigerator is arranged in an air-conditioning condensation chamber and is positioned above the air-conditioning condenser, a refrigerator radiator for cooling heat dissipation airflow of the refrigerator condenser is arranged above the refrigerator condenser, heat dissipation airflow guide plates are respectively arranged at the front side and the rear side of the interior of the air-conditioning condensation chamber, the top ends of the two heat dissipation airflow guide plates are respectively fixedly connected with the front side and the rear side of the refrigerator radiator, and the air-conditioning condenser and the refrigerator condenser (39) are both positioned between the two heat dissipation airflow guide plates; an evaporator refrigeration water tank communicated with the atmosphere is arranged between the top end of the refrigerator body of the refrigerator and the bottom end of the air-conditioning evaporation chamber; the evaporator refrigerating water tank is filled with water for exchanging heat with part of cold air settled to the bottom in the air-conditioning evaporation chamber through the water in the evaporator refrigerating water tank; a cold water type evaporator is arranged in the side wall of the refrigerator and is of a tubular structure, one end of the cold water type evaporator is communicated with one side of the bottom end of the refrigeration water tank of the evaporator, and the end face of the end of the cold water type evaporator is flush with the bottom end of the refrigeration water tank of the evaporator; the other end of the cold water type evaporator extends into the evaporator refrigerating water tank from the other side of the bottom end of the evaporator refrigerating water tank, and the end face of the cold water type evaporator at the end is higher than the inner surface of the bottom end of the evaporator refrigerating water tank to form a height difference.

Furthermore, the refrigerator radiator is a refrigerator heat dissipation water tank, a plurality of refrigerator heat dissipation guide pipes are arranged on the refrigerator heat dissipation water tank in a penetrating mode along the vertical direction, and the refrigerator heat dissipation guide pipes are used for increasing the contact area between heat dissipation air flow of a refrigerator condenser and the refrigerator heat dissipation water tank, so that heat exchange is fully carried out between the heat dissipation air flow of the refrigerator condenser and tap water with lower temperature in the refrigerator heat dissipation water tank; the wall of the refrigerator heat dissipation water tank is also provided with a refrigerator heat dissipation water tank water inlet connected with a tap water pipe and used for supplying tap water with lower temperature into the refrigerator heat dissipation water tank through the tap water pipe; the wall of the refrigerator heat dissipation water tank is also provided with a refrigerator heat dissipation water tank water outlet which is communicated with an indoor hot water facility through a connecting pipe, and the refrigerator heat dissipation water tank water outlet is provided with a hot water output stop valve of the refrigerator heat dissipation water tank; the evaporator refrigeration water tank is communicated with the atmosphere by mounting a water level meter; the cold water type evaporators are distributed in the side wall of the refrigerator in a bending mode and used for increasing the contact area of the cold water type evaporators and the refrigerator; and a drain valve is arranged at the bottom of the cold water type evaporator.

Compared with the prior art, the multifunctional integrated air conditioner of the utility model can effectively relieve the situations of air turbidity, oxygen deficiency and the like in a closed room when the air conditioner is used for cooling or heating the indoor air by introducing the refrigeration working air flow of the air conditioner evaporator formed by carrying part of the indoor air with part of the external air through the outdoor air input port arranged outdoors or the heating working air flow of the air conditioner condenser; in addition, the air conditioner radiator reasonably collects and recycles the air conditioner condenser radiating airflow generated during the refrigeration work of the air conditioner evaporator, thereby not only avoiding the radiating airflow from being directly discharged into the atmospheric space to cause certain damage to the environment, but also fully utilizing the energy, and being green and environment-friendly; the utility model is used in combination with the evaporator refrigeration water tank and the cold water type evaporator which are communicated with the atmosphere, the water in the cold water type evaporator absorbs partial heat energy inside and outside the heat preservation refrigeration box or the refrigerator to increase the temperature, the heat exchange is carried out between the water in the evaporator refrigeration water tank and partial cold air which is settled to the bottom in the air-conditioning evaporation chamber to reduce the temperature of the water in the evaporator refrigeration water tank, under the atmospheric pressure and the water level pressure, the fluid after temperature rise moves upwards, the fluid after temperature reduction moves downwards, thereby forming natural circulation flow in the refrigeration water tank of the evaporator and the cold water type evaporator, continuously absorbing partial heat energy inside and outside the heat preservation refrigeration box or the refrigerator and then bringing the heat energy into the refrigeration water tank of the evaporator to exchange heat with partial cold air in the evaporation chamber of the air conditioner, thereby forming an ideal heat-insulating layer of the heat-insulating refrigerating box or the refrigerator, fully utilizing energy and improving the refrigerating work efficiency of the refrigerator.

Drawings

Fig. 1 is a schematic structural view of a multifunctional integrated air conditioner according to embodiment 1 of the present invention;

fig. 2 is a sectional view (front view) of the multifunctional integrated air conditioner of embodiment 2 of the present invention;

fig. 3 is a partial sectional view (left side view) of an air conditioner all-in-one machine of the multifunctional integrated air conditioner according to embodiment 2 of the present invention;

fig. 4 is a sectional view (front view) of the multifunctional integrated air conditioner according to embodiment 3 of the present invention;

fig. 5 is a partial sectional view (left side view) of an air conditioner all-in-one machine of the multifunctional integrated air conditioner according to embodiment 3 of the present invention;

fig. 6 is a schematic structural view of a refrigerator heat dissipation flow guide pipe according to embodiment 3 of the present invention;

wherein:

1-input airflow guide pipe, 2-warm air output pipe, 3-cold air output pipe, 4-air-conditioning heat dissipation guide pipe, 5-air-conditioning heat dissipation water tank, 6-air-conditioning condensation chamber, 7-air-conditioning evaporation chamber, 8-air-conditioning compressor, 9-air-conditioning condenser, 10-air-conditioning evaporator, 11-condenser heat dissipation airflow guide pipe, 12-condenser heat dissipation airflow guide pump, 13-condenser heat dissipation airflow return pipe, 14-air-conditioning heat dissipation water tank water inlet, 15-air-conditioning heat dissipation water tank water outlet, 16-air-conditioning heat dissipation water tank hot water output stop valve, 17-reduced-type aspirator, 18-outdoor air input port, 19-outdoor air input filter screen, 20-outdoor air input guide pump, 21-condenser heat-production airflow input stop valve, 22-evaporator cooling air flow input stop valve, 23-indoor air suction window, 24-indoor air suction filter screen, 25-indoor air suction sterilizing device, 26-warm air output stop valve, 27-warm air output filter screen, 28-warm air output sterilizing device, 29-steam-water separator, 30-cold air output stop valve, 31-cold air output filter screen, 32-cold air output sterilizing device, 33-evaporator cooling water tank, 34-heat preservation cooling box, 35-water level meter, 36-cold water evaporator, 37-drain valve, 38-refrigerator, 39-refrigerator condenser, 40-cooling air flow guide plate, 41-refrigerator cooling water tank, 42-refrigerator cooling guide pipe, 43-refrigerator cooling water tank water inlet, 44-refrigerator cooling water tank water outlet, 45-hot water output stop valve of refrigerator radiating water tank and 46-refrigerator compressor.

Detailed Description

Example 1

As shown in fig. 1, the utility model discloses a multi-functional integral type air conditioner, including air conditioner all-in-one, inside run through the air conditioner heat dissipation water tank 5, input air current honeycomb duct 1, warm braw output tube 2, the cold wind output tube 3 that are provided with air conditioner heat dissipation honeycomb duct 4.

The air-conditioning all-in-one machine is placed indoors and comprises a shell (not shown in the figure), and an air-conditioning condensation chamber 6, an air-conditioning evaporation chamber 7 and an air-conditioning compressor 8 which are sequentially arranged in the shell from top to bottom, wherein an air-conditioning condenser 9 is arranged in the air-conditioning condensation chamber 6, an air-conditioning evaporator 10 is arranged in the air-conditioning evaporation chamber 7, one ends of the air-conditioning condenser 9 and the air-conditioning evaporator 10 are respectively connected with the air-conditioning compressor 8, the air-conditioning evaporator 10 is connected with the air-conditioning compressor 8 through a connecting pipe (not shown in the figure), and the other ends of the air-conditioning condenser 9 and the air-conditioning evaporator 10; the air conditioner heat dissipation water tank 5 is used for cooling heat dissipation air flow of an air conditioner condenser 9, the inlet end and the outlet end of the air conditioner heat dissipation flow guide pipe 4 are respectively arranged on the tank wall of the air conditioner heat dissipation water tank 5, the inlet end of the air conditioner heat dissipation flow guide pipe 4 is communicated with the outlet end of the air conditioner condensation chamber 6 through a condenser heat dissipation air flow guide pipe 11, a condenser heat dissipation air flow guide pump 12 is arranged in the condenser heat dissipation air flow guide pipe 11, and the outlet end of the air conditioner heat dissipation flow guide pipe 4 is communicated with the inlet end of the air conditioner condensation chamber 6 through a condenser heat; the wall of the air-conditioning radiating water tank 5 is also provided with an air-conditioning radiating water tank water inlet 14 connected with a tap water pipe and used for supplying tap water with lower temperature into the air-conditioning radiating water tank 5 through the tap water pipe; the wall of the air-conditioning heat dissipation water tank 5 is also provided with an air-conditioning heat dissipation water tank water outlet 15 which is communicated with indoor hot water facilities through a connecting pipe (not shown in the figure), and the water outlet is provided with an air-conditioning heat dissipation water tank hot water output check valve 16; the all-in-one air conditioner further comprises a central control system (not shown in the figure) for controlling the working state of each part.

The inlet end of the input airflow guide pipe 1 is sequentially connected with a necking aspirator 17 and an outdoor air input port 18, the outdoor air input port 18 is arranged outdoors, and an outdoor air input filter screen 19 is arranged at the inlet end of the outdoor air input port 18; the reduced-mouth aspirator 17 is arranged indoors, an outdoor air input guide pump 20 is arranged at the inlet end of the reduced-mouth aspirator 17, and the reduced-mouth aspirator 17 is used for sucking indoor air into the input airflow guide pipe 1 and mixing the indoor air with the outdoor air; the outlet end of the input airflow guide pipe 1 is respectively connected with the inlet ends of an air-conditioning condensation chamber 6 and an air-conditioning evaporation chamber 7 of an indoor air-conditioning all-in-one machine, a condenser heating airflow input stop valve 21 is arranged at the joint of the outlet end of the input airflow guide pipe 1 and the inlet end of the air-conditioning condensation chamber 6, and an evaporator cooling airflow input stop valve 22 is arranged at the joint of the outlet end of the input airflow guide pipe 1 and the inlet end of the air-conditioning evaporation chamber 7. Wherein, at the connection part of the reduced-mouth aspirator 17 and the outdoor air input port 18, the aperture of the reduced-mouth aspirator 17 is smaller than that of the outdoor air input port 18; the reduced-mouth aspirator 17 comprises an indoor air suction window 23 formed on the tube wall, an indoor air suction filter screen 24 arranged on the indoor air suction window 23 for filtering the sucked indoor air, and an indoor air suction sterilizing device 25 for sterilizing the sucked indoor air; when the outdoor air is sucked by the outdoor air input guide pump 20 at a certain flow rate, a fluid suction phenomenon is formed in the reduced-opening aspirator 17 to generate negative pressure, so that the indoor air is sucked into the input airflow guide pipe 1 through the indoor air suction filter screen 24 and the indoor air suction window 23 and is mixed with the outdoor air; the flow rate of the outdoor air sucked by the outdoor air input guide pump 20 can be controlled by a remote controller.

The inlet end of the warm air output pipe 2 is connected with the outlet end of the air-conditioning condensation chamber 6, a warm air output stop valve 26 is arranged at the connection part, and the outlet end of the warm air output pipe 2 is provided with a warm air output filter screen 27 for filtering the output warm air and a warm air output sterilizing device 28 for sterilizing the output warm air; the outlet end of the warm air output pipe 2 is positioned at the lower part of the indoor space and is used for outputting the warm air in the warm air output pipe 2 to the indoor space from the lower part of the indoor space;

the inlet end of the cold air output pipe 3 is connected with the outlet end of the air-conditioning evaporation chamber 7, a steam-water separator 29 and a cold air output stop valve 30 are sequentially arranged at the connection part, the steam-water separator 29 is arranged at one side close to the outlet end of the air-conditioning evaporation chamber 7, and the outlet end of the cold air output pipe 3 is provided with a cold air output filter screen 31 for filtering output cold air and a cold air output sterilizing device 32 for sterilizing the output cold air; the outlet end of the cold air output pipe 3 is positioned at the upper part of the indoor space and is used for outputting the cold air in the cold air output pipe 3 to the indoor space from the upper part of the indoor space.

When the multi-functional integral type air conditioner of this embodiment carries out the work of refrigerating at indoor:

under the control of a central control system, opening an evaporator refrigerating airflow input stop valve 22 and a cold air output stop valve 30, closing a warm air output stop valve 26, slightly opening a condenser heating airflow input stop valve 21 (using part of indoor air carried by part of outside air to relieve fluid fluctuation generated when a condenser heat dissipation airflow diversion pump 12 starts and stops working), and starting an air conditioner compressor 8, an air conditioner condenser 9, an air conditioner evaporator 10, an outdoor air input diversion pump 20 and a condenser heat dissipation airflow diversion pump 12;

the air conditioner compressor 8 pushes and presses the air conditioner refrigerant to pass through the air conditioner condenser 9, the capillary tube, the air conditioner evaporator 10 and the connecting pipe, and then the air conditioner refrigerant is sucked back by the air conditioner compressor 8 and then pushed and pressed to the air conditioner condenser 9 to form a refrigeration working cycle of the air conditioner;

meanwhile, part of the outdoor air is sucked into the outdoor air input guide pump 20 through the outdoor air input filter screen 19, and then under the strong pushing force of the outdoor air input guide pump 20, the outdoor air passes through the necking aspirator 17 at high speed to form a fluid suction phenomenon to generate negative pressure, so that part of the indoor air is sucked into the input airflow guide pipe 1 through the indoor air suction filter screen 24 and the indoor air suction window 23 (if necessary, the indoor air suction sterilizing device 25 can be started, and the indoor air is sterilized through the indoor air suction sterilizing device 25 when part of the indoor air is sucked), and the indoor air and the outdoor air are mixed in the input airflow guide pipe 1 to form mixed airflow; the mixed air flow enters an air-conditioning evaporation chamber 7 through an evaporator refrigerating air flow input stop valve 22 under the pushing of the subsequent air flow, is cooled to form cold air flow after heat exchange by an air-conditioning evaporator 10, and the cold air flows through a steam-water separator 29 and a cold air output stop valve 30 under the pushing of the subsequent air flow to enter a cold air output pipe 3, and is finally output to the room through a cold air output filter screen 31 at the outlet end of the cold air output pipe 3 positioned at the upper part of the indoor space (if necessary, a cold air output disinfection device 32 can be started, and when the cold air flows through the cold air output filter screen 31 at the outlet end of the cold air output pipe 3 and is output to the;

in the refrigeration working cycle of the air conditioner, a large amount of heat energy generated by an air conditioner condenser 9 enters an air conditioner heat dissipation flow guide pipe 4 in an air conditioner heat dissipation water tank 5 through a condenser heat dissipation air flow guide pipe 11 in the form of heat dissipation air flow under the action of a condenser heat dissipation air flow guide pump 12, the heat dissipation air flow is cooled after heat exchange with tap water in the air conditioner heat dissipation water tank 5, and the cooled heat dissipation air flow returns to an air conditioner condensation chamber 6 through a condenser heat dissipation air flow return pipe 13 to form an air conditioner condenser 9 heat dissipation circulation mode; meanwhile, when the temperature of the tap water rises due to heat exchange with the heat dissipation air flow, the hot water output stop valve 16 of the air conditioner heat dissipation water tank is opened when necessary, the tap water enters an indoor hot water facility through the connecting pipe and is consumed, and the tap water with lower temperature is continuously supplied to the air conditioner heat dissipation water tank 5 through the tap water pipe, so that the heat dissipation capacity of the air conditioner heat dissipation water tank 5 is improved.

When the multifunctional integrated air conditioner of the embodiment performs heating work indoors:

under the control of the central control system, opening a condenser heating airflow input stop valve 21 and a warm air output stop valve 26, closing an evaporator cooling airflow input stop valve 22 and a cold air output stop valve 30, starting an air conditioner compressor 8, an air conditioner condenser 9, an air conditioner evaporator 10 and an outdoor air input diversion pump 20, and stopping the operation of a condenser heat dissipation airflow diversion pump 12;

the air conditioner compressor 8 pushes and presses the air conditioner refrigerant to pass through the air conditioner condenser 9, the capillary tube, the air conditioner evaporator 10 and the connecting pipe, and then the air conditioner refrigerant is sucked back by the air conditioner compressor 8 and then pushed and pressed to the air conditioner condenser 9 to form a heating working cycle of the air conditioner;

meanwhile, part of the outdoor air is sucked into the outdoor air input guide pump 20 through the outdoor air input filter screen 19, and then under the strong pushing force of the outdoor air input guide pump 20, the outdoor air passes through the necking aspirator 17 at high speed to form a fluid suction phenomenon to generate negative pressure, so that part of the indoor air is sucked into the input airflow guide pipe 1 through the indoor air suction filter screen 24 and the indoor air suction window 23 (if necessary, the indoor air suction sterilizing device 25 can be started, and the indoor air is sterilized through the indoor air suction sterilizing device 25 when part of the indoor air is sucked), and the indoor air and the outdoor air are mixed in the input airflow guide pipe 1 to form mixed airflow; the mixed air flow enters the air-conditioning condensation chamber 6 through the condenser heating air flow input stop valve 21 under the push of the subsequent air flow, the mixed air flow is heated to form hot air flow after heat exchange through the air-conditioning condenser 9, the hot air flows through the hot air output stop valve 26 under the push of the subsequent air flow to enter the hot air output pipe 2, and finally the hot air is output to the room through the hot air output filter screen 27 at the outlet end of the hot air output pipe 2 at the lower part of the indoor space (if necessary, the hot air output sterilizing device 28 can be started, and when the hot air flows through the hot air output filter screen 27 at the outlet end of the hot air output pipe 2 and is output to the room.

When the multifunctional integrated air conditioner of the embodiment performs only indoor ventilation work:

under the control of the central control system, opening an evaporator refrigerating airflow input stop valve 22 and a cold air output stop valve 30, closing a condenser heating airflow input stop valve 21 and a warm air output stop valve 26, starting an outdoor air input diversion pump 20, and stopping the work of an air conditioner compressor 8, an air conditioner condenser 9, an air conditioner evaporator 10 and a condenser heat dissipation airflow diversion pump 12; part of outdoor air is sucked into the outdoor air input guide pump 20 through the outdoor air input filter screen 19, then under the strong pushing force of the outdoor air input guide pump 20, the outdoor air passes through the necking aspirator 17 at high speed to form a fluid suction phenomenon to generate negative pressure, so that part of indoor air is sucked into the input airflow guide pipe 1 through the indoor air suction filter screen 24 and the indoor air suction window 23 (if necessary, the indoor air suction sterilizing device 25 can be started, and the indoor air is sterilized through the indoor air suction sterilizing device 25 when part of indoor air is sucked), and the indoor air and the outdoor air are mixed in the input airflow guide pipe 1 to form mixed airflow; the mixed air flow enters the air-conditioning evaporation chamber 7 through the evaporator refrigerating air flow input stop valve 22 under the pushing and pressing of the subsequent air flow, then enters the cold air output pipe 3 through the steam-water separator 29 and the cold air output stop valve 30, and finally is output to the room through the cold air output filter screen 31 at the outlet end of the cold air output pipe 3 positioned at the upper part of the indoor space (if necessary, the cold air output sterilizing device 32 can be started, and when the mixed air flow is output to the room through the cold air output filter screen 31 at the outlet end of the cold air output pipe 3, the mixed air flow is sterilized through the cold air output sterilizing.

Example 2

This embodiment includes the following structure in addition to the structure described in embodiment 1.

As shown in fig. 2 and 3, the air-conditioning integrated machine of the multifunctional integrated air conditioner of the present invention further comprises an evaporator cooling water tank 33 and a heat preservation and refrigeration box 34 which are sequentially arranged below the air-conditioning evaporation chamber 7 and communicated with the atmosphere from top to bottom in the casing; the evaporator refrigeration water tank 33 is filled with water for exchanging heat with part of cold air settled to the bottom in the air-conditioning evaporation chamber 7 through the water in the evaporator refrigeration water tank 33, and the evaporator refrigeration water tank 33 is communicated with the atmosphere by installing a water level meter 35; a cold water type evaporator 36 is arranged in the side wall of the heat preservation refrigerating box 34, the cold water type evaporator 36 is of a tubular structure, one end of the cold water type evaporator 36 is communicated with one side of the bottom end of the evaporator refrigerating water tank 33, and the end surface of the end of the cold water type evaporator 36 is flush with the bottom end of the evaporator refrigerating water tank 33; the other end of the cold water type evaporator 36 extends into the evaporator refrigerating water tank 33 from the other side of the bottom end of the evaporator refrigerating water tank 33, and the end surface of the end of the cold water type evaporator 36 is higher than the inner surface of the bottom end of the evaporator refrigerating water tank 33 to form a height difference; the cold water type evaporator 36 is distributed in the side wall of the heat preservation refrigerating box 34 in a bending way and is used for increasing the contact area between the cold water type evaporator 36 and the heat preservation refrigerating box 34, and the bottom of the cold water type evaporator 36 is provided with a drain valve 37; the corresponding positions of the heat preservation and refrigeration box 34 and the integrated air conditioner shell are provided with box doors (not shown in the figure) for opening and closing the heat preservation and refrigeration box 34.

after the mixed air flow is subjected to heat exchange and temperature reduction by an air-conditioning evaporator 10 in an air-conditioning evaporation chamber 7 to form cold air flow, most of the cold air flow enters a cold air output pipe 3 through a steam-water separator 29 and a cold air output stop valve 30 under the pushing and pressing of subsequent air flow, and is finally output to the room through a cold air output filter screen 31 at the outlet end of the cold air output pipe 3 positioned at the upper part of the indoor space, the rest part of the cold air flow is settled to the bottom of the air-conditioning evaporation chamber 7 to form cold air, and the cold air is subjected to heat exchange with water in an evaporator refrigeration water tank 33, so that the temperature of; meanwhile, the water in the cold water evaporator 36 absorbs part of the heat energy inside and outside the heat preservation refrigerating box 34 to increase the temperature; under the atmospheric pressure and the water level pressure, the heated fluid moves upwards, and the cooled fluid moves downwards, so that natural circulation flow is formed in the evaporator refrigerating water tank 33 and the cold water type evaporator 36, partial heat energy inside and outside the heat preservation refrigerating box 34 is continuously absorbed and then is taken into the evaporator refrigerating water tank 33 to exchange heat with partial cold air in the air-conditioning evaporation chamber 7, and an ideal heat preservation layer of the heat preservation refrigerating box 34 is formed.

in the heating duty cycle of the air conditioner, a large amount of cold air generated by the air conditioner evaporator 10 exchanges heat with water in the evaporator cooling water tank 33, so that the temperature of the water in the evaporator cooling water tank 33 is reduced; meanwhile, the water in the cold water evaporator 36 absorbs part of the heat energy inside and outside the heat preservation refrigerating box 34 to increase the temperature; under the atmospheric pressure and the water level pressure, the heated fluid moves upwards, and the cooled fluid moves downwards, so that natural circulation flow is formed in the evaporator refrigerating water tank 33 and the cold water type evaporator 36, partial heat energy inside and outside the heat preservation refrigerating box 34 is continuously absorbed and then is taken into the evaporator refrigerating water tank 33 to exchange heat with partial cold air in the air-conditioning evaporation chamber 7, and an ideal heat preservation layer of the heat preservation refrigerating box 34 is formed.

Example 3

As shown in fig. 4 to 5, a refrigerator 38 is disposed below the air-conditioning all-in-one machine of the multifunctional integrated air conditioner, wherein a refrigerator condenser 39 of the refrigerator 38 is disposed inside the air-conditioning condensation chamber 6 and above the air-conditioning condenser 9, a refrigerator heat dissipation water tank 41 for cooling the heat dissipation air flow of the refrigerator condenser 39 is disposed above the refrigerator condenser 39, a plurality of refrigerator heat dissipation flow guide pipes 42 are disposed on the refrigerator heat dissipation water tank 41 along the vertical direction, and the refrigerator heat dissipation flow guide pipes 42 are used for increasing the contact area between the heat dissipation air flow of the refrigerator condenser 39 and the refrigerator heat dissipation water tank 41, so that the heat dissipation air flow of the refrigerator condenser 39 and the tap water with lower temperature in the refrigerator heat dissipation water tank 41 can fully exchange heat; a refrigerator heat radiation water tank water inlet 43 connected with a tap water pipe is further formed in the wall of the refrigerator heat radiation water tank 41 and used for supplying tap water with lower temperature into the refrigerator heat radiation water tank 41 through the tap water pipe; a refrigerator heat dissipation water tank water outlet 44 communicated with indoor hot water facilities through a connecting pipe (not shown in the figure) is further formed in the wall of the refrigerator heat dissipation water tank 41, and a hot water output stop valve 45 of the refrigerator heat dissipation water tank is arranged on the water outlet; the front side and the rear side of the interior of the air-conditioning condensation chamber 6 are respectively provided with a heat dissipation airflow guide plate 40, the top ends of the two heat dissipation airflow guide plates 40 are respectively fixedly connected with the front side and the rear side of a refrigerator heat dissipation water tank 41, the air-conditioning condenser 9 and the refrigerator condenser 39 are both positioned between the two heat dissipation airflow guide plates 40, and the heat dissipation airflow guide plates 40 are used for guiding the heat dissipation airflows of the air-conditioning condenser 9 and the refrigerator condenser 39, so that the heat dissipation airflows of the air-conditioning condenser 9 and the refrigerator condenser 39 flow back to the positions between the heat dissipation airflow guide plates 40 after passing through the refrigerator heat; an evaporator refrigerating water tank 33 communicated with the atmosphere is arranged between the top end of the refrigerator body of the refrigerator 38 and the bottom end of the air-conditioning evaporation chamber 7; the evaporator refrigeration water tank 33 is filled with water for exchanging heat with part of cold air settled to the bottom in the air-conditioning evaporation chamber 7 through the water in the evaporator refrigeration water tank 33, and the evaporator refrigeration water tank 33 is communicated with the atmosphere by installing a water level meter 35; a cold water type evaporator 36 is arranged in the side wall of the refrigerator 38, the cold water type evaporator 36 is of a tubular structure, one end of the cold water type evaporator 36 is communicated with one side of the bottom end of the evaporator refrigerating water tank 33, and the end surface of the end of the cold water type evaporator 36 is flush with the bottom end of the evaporator refrigerating water tank 33; the other end of the cold water type evaporator 36 extends into the evaporator refrigerating water tank 33 from the other side of the bottom end of the evaporator refrigerating water tank 33, and the end surface of the end of the cold water type evaporator 36 is higher than the inner surface of the bottom end of the evaporator refrigerating water tank 33 to form a height difference; the cold water evaporator 36 is distributed in a curved manner in the side wall of the refrigerator 38 for increasing the contact area between the cold water evaporator 36 and the refrigerator 38, and a drain valve 37 is provided at the bottom of the cold water evaporator 36.

When the multi-functional integral type air conditioner of this embodiment carries out the work of refrigerating in the room and the refrigerator simultaneous working:

most of the large amount of heat energy generated by the refrigerator condenser 39 in the refrigeration working cycle of the refrigerator 38 enters the refrigerator heat dissipation flow guide pipe 42, and is cooled after being subjected to heat exchange with tap water in the refrigerator heat dissipation water tank 41, the rest of the heat energy generated by the refrigerator condenser 39 and the large amount of heat energy generated by the air conditioning condenser 9 in the refrigeration working cycle of the air conditioner enter the air conditioning heat dissipation flow guide pipe 4 in the air conditioning heat dissipation water tank 5 through the condenser heat dissipation air flow guide pipe 11 in the form of heat dissipation air flow under the action of the condenser heat dissipation air flow guide pump 12, the heat dissipation air flow is subjected to heat exchange with the tap water in the air conditioning heat dissipation water tank 5 and is then cooled, and the cooled heat dissipation air flow returns to the air conditioning condensation chamber 6 through the condenser heat dissipation air flow; meanwhile, tap water in the refrigerator radiating water tank 41 with the temperature increased by heat exchange with heat energy generated by the refrigerator condenser 39 and tap water in the air conditioner radiating water tank 5 with the temperature increased by heat exchange with radiating air flow are respectively opened when necessary, then the tap water enters indoor hot water facilities through corresponding connecting pipes to be consumed, and tap water with lower temperature is continuously supplied to the refrigerator radiating water tank 41 and the air conditioner radiating water tank 5 through corresponding tap water pipes, so that the radiating capacities of the refrigerator radiating water tank 41 and the air conditioner radiating water tank 5 are improved;

after the mixed air flow is subjected to heat exchange and temperature reduction by an air-conditioning evaporator 10 in an air-conditioning evaporation chamber 7 to form cold air flow, most of the cold air flow enters a cold air output pipe 3 through a steam-water separator 29 and a cold air output stop valve 30 under the pushing and pressing of subsequent air flow, and is finally output to the room through a cold air output filter screen 31 at the outlet end of the cold air output pipe 3 positioned at the upper part of the indoor space, the rest part of the cold air flow is settled to the bottom of the air-conditioning evaporation chamber 7 to form cold air, and the cold air is subjected to heat exchange with water in an evaporator refrigeration water tank 33, so that the temperature of; meanwhile, the water in the cold water evaporator 36 absorbs part of the heat energy inside and outside the refrigerator 38 and the temperature rises; under the atmospheric pressure and the water level pressure, the heated fluid moves upwards, and the cooled fluid moves downwards, so that natural circulation flow is formed in the evaporator refrigerating water tank 33 and the cold water type evaporator 36, partial heat energy inside and outside the refrigerator 38 is continuously absorbed and then is taken into the evaporator refrigerating water tank 33 to exchange heat with partial cold air in the air-conditioning evaporation chamber 7, an ideal heat insulation layer of the refrigerator 38 is formed, and the refrigerating working efficiency of the refrigerator 38 is improved.

When the multifunctional integrated air conditioner of the embodiment performs heating work indoors and the refrigerator works simultaneously:

in the refrigeration working cycle of the refrigerator 38, a large amount of heat energy generated by the refrigerator condenser 39 and hot air formed by heat exchange of the air-conditioning condenser 9 and heating enter the hot air output pipe 2 through the hot air output stop valve 26 under the pushing and pressing of subsequent air flow, and are finally output to the room through the hot air output filter screen 27 at the outlet end of the hot air output pipe 2 at the lower part of the indoor space (if necessary, the hot air output sterilizing device 28 can be started, and when hot air flows through the hot air output filter screen 27 at the outlet end of the hot air output pipe 2 and is output to the room, the hot air is sterilized through the hot air output sterilizing device 28);

in the heating duty cycle of the air conditioner, a large amount of cold air generated by the air conditioner evaporator 10 exchanges heat with water in the evaporator cooling water tank 33, so that the temperature of the water in the evaporator cooling water tank 33 is reduced; meanwhile, the water in the cold water evaporator 36 absorbs part of the heat energy inside and outside the heat preservation refrigerating box 34 to increase the temperature; under the atmospheric pressure and the water level pressure, the heated fluid moves upwards, and the cooled fluid moves downwards, so that natural circulation flow is formed in the evaporator refrigerating water tank 33 and the cold water type evaporator 36, partial heat energy inside and outside the heat preservation refrigerating box 34 is continuously absorbed and then is taken into the evaporator refrigerating water tank 33 to exchange heat with partial cold air in the air-conditioning evaporation chamber 7, an ideal heat preservation layer of the heat preservation refrigerating box 34 is formed, and the refrigerating working efficiency of the refrigerator 38 is improved.

When the multifunctional integrated air conditioner of the present embodiment operates only the refrigerator:

most of the large amount of heat energy generated by the refrigerator condenser 39 in the refrigeration cycle of the refrigerator 38 enters the refrigerator heat radiation guide pipe 42, is cooled down after exchanging heat with the tap water in the refrigerator heat radiation water tank 41, the tap water in the refrigerator heat radiation water tank 41 with the increased temperature due to the heat exchange with the heat energy generated by the refrigerator condenser 39 is cooled down, when necessary, the hot water output stop valve 45 of the refrigerator heat radiation water tank is opened, so that the tap water enters the indoor hot water facility through the connecting pipe to be consumed, and the tap water with lower temperature is continuously supplied to the refrigerator heat radiation water tank 41 through the tap water pipe, so that the heat radiation capacity of the refrigerator heat radiation water tank 41 is improved.

The multifunctional integrated air conditioner of the utility model introduces the refrigeration working airflow of the air conditioner evaporator 10 formed by partial outside air carrying partial indoor air or the heating working airflow of the air conditioner condenser 9 through the outdoor air input port 18 arranged outdoors, thereby effectively relieving the conditions of air turbidity, oxygen deficiency and the like in the closed room when the air conditioner is used for cooling or heating the indoor air; in addition, the air conditioner heat radiator reasonably collects and recycles the air flow radiated by the air conditioner condenser 9 and generated when the air conditioner evaporator 10 works in a refrigerating mode, so that the phenomenon that the radiating air flow is directly discharged into an atmospheric space to cause certain damage to the environment is avoided, the energy is fully utilized, and the environment is protected; the utility model discloses an evaporator refrigeration water tank 33 that communicates with atmosphere, cold water formula evaporator 36 uses in combination, the water in cold water formula evaporator 36 absorbs the inside and outside partial heat energy and the temperature of heat preservation fridge 34 or refrigerator 38 rises, the heat exchange is carried out to the part cold air that sinks to the bottom in evaporator refrigeration water tank 33 of evaporator and the air conditioner evaporation chamber 7 and makes the temperature of water wherein reduce, under atmospheric pressure and water level pressure, the fluid after rising the temperature moves up, the fluid after the cooling moves down, thereby form the natural circulation flow in evaporator refrigeration water tank 33 and cold water formula evaporator 36, constantly take the inside and outside partial heat energy absorption of heat preservation fridge 34 or refrigerator 38 to the heat exchange is carried out to the part cold air in evaporator refrigeration water tank 33 and the air conditioner evaporation chamber 7 in the evaporator refrigeration water tank 33, thereby form the ideal of heat preservation fridge 34 or refrigerator 38, when the make full use of the energy, the refrigerating work efficiency of the refrigerator 38 is improved.

Claims

1. The utility model provides a multi-functional integral type air conditioner which characterized in that: the air conditioner comprises an air conditioner all-in-one machine, an air conditioner radiator, an input airflow guide pipe (1), a warm air output pipe (2) and a cold air output pipe (3);

the air-conditioning all-in-one machine is placed indoors and comprises a shell, and an air-conditioning condensation chamber (6), an air-conditioning evaporation chamber (7) and an air-conditioning compressor (8) which are sequentially arranged in the shell from top to bottom, wherein an air-conditioning condenser (9) is arranged in the air-conditioning condensation chamber (6), an air-conditioning evaporator (10) is arranged in the air-conditioning evaporation chamber (7), one ends of the air-conditioning condenser (9) and the air-conditioning evaporator (10) are respectively connected with the air-conditioning compressor (8), and the other ends of the air-conditioning condenser (9) and the air-conditioning evaporator (10) are mutually; the air-conditioning all-in-one machine also comprises a central control system for controlling the working state of each part;

one end of the air conditioner radiator is communicated with the outlet end of the air conditioner condensation chamber (6) through a condenser heat dissipation airflow guide pipe (11), a condenser heat dissipation airflow guide pump (12) is arranged in the condenser heat dissipation airflow guide pipe (11), the other end of the air conditioner radiator is communicated with the inlet end of the air conditioner condensation chamber (6) through a condenser heat dissipation airflow return pipe (13), and the air conditioner radiator is used for cooling heat dissipation airflow of an air conditioner condenser (9);

the inlet end of the input airflow guide pipe (1) is sequentially connected with a necking aspirator (17) and an outdoor air input port (18), the outdoor air input port (18) is arranged outdoors, and an outdoor air input filter screen (19) is arranged at the inlet end of the outdoor air input port (18); the reduced-opening aspirator (17) is arranged indoors, an outdoor air input guide pump (20) is arranged at the inlet end of the reduced-opening aspirator (17), and the reduced-opening aspirator (17) is used for sucking indoor air into the input airflow guide pipe (1) and mixing the indoor air with the outdoor air; the outlet end of the input airflow guide pipe (1) is respectively connected with the inlet ends of an air-conditioning condensation chamber (6) and an air-conditioning evaporation chamber (7) of an indoor air-conditioning all-in-one machine, a condenser heating airflow input stop valve (21) is arranged at the joint of the outlet end of the input airflow guide pipe (1) and the inlet end of the air-conditioning condensation chamber (6), and an evaporator refrigerating airflow input stop valve (22) is arranged at the joint of the outlet end of the input airflow guide pipe (1) and the inlet end of the air-conditioning evaporation chamber (7);

the inlet end of the warm air output pipe (2) is connected with the outlet end of the air-conditioning condensation chamber (6), a warm air output stop valve (26) is arranged at the joint, and the outlet end of the warm air output pipe (2) is positioned at the lower part of the indoor space and is used for outputting warm air in the warm air output pipe (2) to the indoor space from the lower part of the indoor space;

the inlet end of the cold air output pipe (3) is connected with the outlet end of the air-conditioning evaporation chamber (7), a steam-water separator (29) and a cold air output stop valve (30) are sequentially arranged at the joint, the steam-water separator (29) is arranged on one side close to the outlet end of the air-conditioning evaporation chamber (7), and the outlet end of the cold air output pipe (3) is located on the upper portion of the indoor space and used for outputting cold air in the cold air output pipe (3) to the indoor space from the upper portion of the indoor space.

2. The multifunctional integrated air conditioner according to claim 1, wherein: the air conditioner radiator is an air conditioner radiating water tank (5) with an air conditioner radiating flow guide pipe (4) arranged in the air conditioner radiating water tank in a penetrating mode, the inlet end and the outlet end of the air conditioner radiating flow guide pipe (4) are arranged on the wall of the air conditioner radiating water tank (5) respectively, the inlet end of the air conditioner radiating flow guide pipe (4) is communicated with the outlet end of a condenser radiating airflow flow guide pipe (11), and the outlet end of the air conditioner radiating flow guide pipe (4) is communicated with the inlet end of a condenser radiating airflow return pipe (13); the wall of the air-conditioning heat dissipation water tank (5) is also provided with an air-conditioning heat dissipation water tank water inlet (14) connected with a tap water pipe, and the air-conditioning heat dissipation water tank water inlet is used for supplying tap water with lower temperature into the air-conditioning heat dissipation water tank (5) through the tap water pipe; and an air conditioner heat dissipation water tank water outlet (15) communicated with an indoor hot water facility through a connecting pipe is further formed in the wall of the air conditioner heat dissipation water tank (5), and an air conditioner heat dissipation water tank hot water output stop valve (16) is arranged on the air conditioner heat dissipation water tank water outlet (15).

3. The multifunctional integrated air conditioner according to claim 1, wherein: at the joint of the reduced aspirator (17) and the outdoor air input port (18), the aperture of the reduced aspirator (17) is smaller than that of the outdoor air input port (18); the reduced aspirator (17) comprises an indoor air suction window (23) arranged on the pipe wall, and an indoor air suction filter screen (24) arranged on the indoor air suction window (23) and used for filtering sucked indoor air; when outdoor air is sucked by the outdoor air input diversion pump (20) at a certain flow rate, a fluid suction phenomenon is formed in the necking aspirator (17) to generate negative pressure, so that indoor air is sucked into the input airflow diversion pipe (1) through the indoor air suction filter screen (24) and the indoor air suction window (23) and is mixed with the outdoor air; the outdoor air is input into the guide pump (20) and the flow speed of the outdoor air is regulated and controlled by a remote controller.

4. A multifunctional integrated air conditioner according to claim 3, characterized in that: the indoor air suction window (23) is also provided with an indoor air suction sterilizing device (25) for sterilizing the sucked indoor air.

5. The multifunctional integrated air conditioner according to claim 1, wherein: the outlet end of the warm air output pipe (2) is provided with a warm air output filter screen (27) for filtering the output warm air and a warm air output sterilizing device (28) for sterilizing the output warm air.

6. The multifunctional integrated air conditioner according to claim 1, wherein: the outlet end of the cold air output pipe (3) is provided with a cold air output filter screen (31) for filtering the output cold air and a cold air output disinfection device (32) for disinfecting the output cold air.

7. The multifunctional integrated air conditioner according to any one of claims 1 to 6, wherein: the air-conditioning all-in-one machine also comprises an evaporator refrigeration water tank (33) and a heat preservation refrigeration box (34) which are arranged below the air-conditioning evaporation chamber (7) in sequence from top to bottom in the shell and communicated with the atmosphere; the evaporator refrigerating water tank (33) is filled with water and used for exchanging heat with part of cold air settled to the bottom in the air-conditioning evaporation chamber (7) through the water in the evaporator refrigerating water tank; a cold water type evaporator (36) is arranged in the side wall of the heat preservation refrigerating box (34), the cold water type evaporator (36) is of a tubular structure, one end of the cold water type evaporator (36) is communicated with one side of the bottom end of the evaporator refrigerating water tank (33), and the end surface of the end of the cold water type evaporator (36) is flush with the bottom end of the evaporator refrigerating water tank (33); the other end of the cold water type evaporator (36) extends into the evaporator refrigerating water tank (33) from the other side of the bottom end of the evaporator refrigerating water tank (33), and the end surface of the end of the cold water type evaporator (36) is higher than the inner surface of the bottom end of the evaporator refrigerating water tank (33) to form a height difference; and the corresponding positions of the heat preservation and refrigeration box (34) and the shell of the air conditioner all-in-one machine are provided with a box door for opening and closing the heat preservation and refrigeration box (34).

8. The multifunctional integrated air conditioner according to claim 7, wherein: the evaporator refrigeration water tank (33) is communicated with the atmosphere by installing a water level meter (35); the cold water type evaporator (36) is distributed in the side wall of the heat preservation refrigerating box (34) in a bending way and is used for increasing the contact area of the cold water type evaporator (36) and the heat preservation refrigerating box (34); and a drain valve (37) is arranged at the bottom of the cold water type evaporator (36).

9. The multifunctional integrated air conditioner according to any one of claims 1 to 6, wherein: a refrigerator (38) is arranged below the air-conditioning all-in-one machine, a refrigerator condenser (39) of the refrigerator (38) is arranged inside an air-conditioning condensation chamber (6) and above the air-conditioning condenser (9), a refrigerator radiator for cooling heat dissipation airflow of the refrigerator condenser (39) is arranged above the refrigerator condenser (39), heat dissipation airflow guide plates (40) are respectively arranged on the front side and the rear side of the inside of the air-conditioning condensation chamber (6), the top ends of the two heat dissipation airflow guide plates (40) are respectively fixedly connected with the front side and the rear side of the refrigerator radiator, and the air-conditioning condenser (9) and the refrigerator condenser (39) are both arranged between the two heat dissipation airflow guide plates (40); an evaporator refrigerating water tank (33) communicated with the atmosphere is arranged between the top end of the refrigerator body of the refrigerator (38) and the bottom end of the air-conditioning evaporation chamber (7); the evaporator refrigerating water tank (33) is filled with water and used for exchanging heat with part of cold air settled to the bottom in the air-conditioning evaporation chamber (7) through the water in the evaporator refrigerating water tank; a cold water type evaporator (36) is arranged in the side wall of the refrigerator (38), the cold water type evaporator (36) is of a tubular structure, one end of the cold water type evaporator (36) is communicated with one side of the bottom end of the evaporator refrigerating water tank (33), and the end face of the end of the cold water type evaporator (36) is flush with the bottom end of the evaporator refrigerating water tank (33); the other end of the cold water type evaporator (36) extends into the evaporator refrigerating water tank (33) from the other side of the bottom end of the evaporator refrigerating water tank (33), and the end face of the end of the cold water type evaporator (36) is higher than the inner surface of the bottom end of the evaporator refrigerating water tank (33) to form a height difference.

10. The multifunctional integrated air conditioner according to claim 9, wherein: the refrigerator radiator is a refrigerator heat radiation water tank (41), a plurality of refrigerator heat radiation guide pipes (42) penetrate through the refrigerator heat radiation water tank (41) along the vertical direction, and the refrigerator heat radiation guide pipes (42) are used for increasing the contact area between heat radiation airflow of a refrigerator condenser (39) and the refrigerator heat radiation water tank (41), so that heat exchange is fully carried out between the heat radiation airflow of the refrigerator condenser (39) and tap water with lower temperature in the refrigerator heat radiation water tank (41); the wall of the refrigerator heat radiation water tank (41) is also provided with a refrigerator heat radiation water tank water inlet (43) connected with a tap water pipe, and the refrigerator heat radiation water tank water inlet is used for supplying tap water with lower temperature into the refrigerator heat radiation water tank (41) through the tap water pipe; a refrigerator heat dissipation water tank water outlet (44) communicated with an indoor hot water facility through a connecting pipe is further formed in the wall of the refrigerator heat dissipation water tank (41), and a refrigerator heat dissipation water tank hot water output stop valve (45) is arranged on the refrigerator heat dissipation water tank water outlet (44); the evaporator refrigeration water tank (33) is communicated with the atmosphere by installing a water level meter (35); the cold water type evaporator (36) is distributed in a side wall of the refrigerator (38) in a bending way and is used for increasing the contact area of the cold water type evaporator (36) and the refrigerator (38); and a drain valve (37) is arranged at the bottom of the cold water type evaporator (36).