CN216114382U - Multifunctional integrated air conditioner - Google Patents

Abstract

The utility model discloses a multifunctional integrated air conditioner, which comprises a shell, a switch assembly, a fan assembly and a heat exchange system, wherein the switch assembly is arranged on the shell; the shell is provided with a first heat exchange cavity, a second heat exchange cavity, a third heat exchange cavity, a fourth heat exchange cavity, an indoor air inlet, an indoor air outlet, an outdoor air inlet, an indoor air outlet and an outdoor air outlet; a first switch of the switch assembly controls the on-off of the first heat exchange cavity and the fourth heat exchange cavity, and a second switch of the switch assembly controls the on-off of the second heat exchange cavity and the third heat exchange cavity; a first fan of the fan assembly drives air to enter the first heat exchange cavity from the indoor air inlet, and a second fan of the fan assembly drives air in the fourth heat exchange cavity to be exhausted from the indoor air outlet or the outdoor air outlet; the first heat exchanger of the heat exchange system exchanges heat with air flowing from the first heat exchange cavity to the second heat exchange cavity, and the second heat exchanger of the heat exchange system exchanges heat with air flowing from the third heat exchanger to the fourth heat exchange cavity. The multifunctional integrated air conditioner can achieve multiple functions to meet the requirements of users.

Description

Multifunctional integrated air conditioner

Technical Field

The utility model relates to the technical field of air conditioning equipment, in particular to a multifunctional integrated air conditioner and a multifunctional integrated air conditioner.

Background

An air conditioner all-in-one machine is a device integrating heating and heating, and is usually installed in rooms, living rooms, kitchens, toilets and other places. In practical use, a user has certain requirements on the quality of the space, namely the temperature, the humidity and the CO of the space₂The concentration of (A) has certain requirements. However, the existing air-conditioning all-in-one machine basically only has the function of adjusting temperature, so that a system integrating temperature adjustment, humidity adjustment and CO adjustment is urgently needed₂The concentration of the air conditioner is integrated.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a multifunctional integrated air conditioner, aiming at enabling the multifunctional integrated air conditioner to have multiple functions so as to meet the requirements of users.

In order to achieve the purpose, the utility model provides a multifunctional integrated air conditioner, which comprises a shell, a switch assembly, a fan assembly and a heat exchange system, wherein the shell is provided with a heat exchange pipe; wherein the content of the first and second substances,

the shell is provided with a first heat exchange cavity, a second heat exchange cavity, a third heat exchange cavity, a fourth heat exchange cavity, an indoor air inlet, an indoor air outlet, an outdoor air inlet, an indoor air outlet and an outdoor air outlet, wherein the first heat exchange cavity and the second heat exchange cavity are communicated with each other;

the indoor air outlet, the outdoor air inlet and the outdoor air outlet are all provided with air door switches, and the air door switches are in an open state and a closed state;

the switch assembly comprises a first switch and a second switch, the first switch is used for switching on or off the first heat exchange cavity and the fourth heat exchange cavity, and the second switch is used for switching on or off the second heat exchange cavity and the third heat exchange cavity;

the fan assembly comprises a first fan and a second fan, the first fan is used for driving air to enter the first heat exchange cavity from an indoor air inlet, and the second fan is used for driving air in the fourth heat exchange cavity to be discharged from the indoor air outlet or the outdoor air outlet;

the heat exchange system comprises a first heat exchanger and a second heat exchanger, the first heat exchanger exchanges heat with air flowing from the first heat exchange cavity to the second heat exchange cavity, and the second heat exchanger exchanges heat with air flowing from the third heat exchanger to the fourth heat exchange cavity.

In some embodiments of the utility model, the second fan is installed in the fourth heat exchange cavity.

In some embodiments of the present invention, the first heat exchanger is disposed in a plate shape and is installed at a connection position of the first heat exchange cavity and the second heat exchange cavity, so as to dispose the first heat exchange cavity and the second heat exchange cavity at an interval.

In some embodiments of the present invention, the second heat exchanger is disposed in a plate shape and is installed at a connection position of the third heat exchange cavity and the fourth heat exchange cavity, so as to dispose the third heat exchange cavity and the fourth heat exchange cavity at an interval.

In some embodiments of the present invention, the first heat exchanger is an evaporator, the second heat exchanger is a condenser, the heat exchange system further includes a compressor and a four-way valve, the compressor is communicated with the four-way valve through a pipeline, and both the evaporator and the condenser are communicated with the four-way valve through a pipeline.

In some embodiments of the utility model, the compressor is installed in the third heat exchange chamber.

In some embodiments of the present invention, the multifunctional integrated air conditioner further includes an electrical control box, the electrical control box is electrically connected to the switch assembly, the fan assembly and the heat exchange system, and the electrical control box is installed in any one of the first heat exchange cavity, the second heat exchange cavity, the third heat exchange cavity and the fourth heat exchange cavity.

In some embodiments of the present invention, the multifunctional integrated air conditioner further includes a filter module installed in the first heat exchange cavity to filter air entering the first heat exchange cavity from the indoor air inlet.

In some embodiments of the present invention, the housing is provided with a socket, and the filter module is inserted into the first heat exchange cavity from the socket or taken out from the socket.

According to the multifunctional integrated air conditioner, the fan assembly and the heat exchange system are controlled to be opened and closed, the first heat exchange cavity and the second heat exchange cavity are controlled to be connected or disconnected, the third heat exchange cavity and the fourth heat exchange cavity are controlled to be connected or disconnected, and the switch of each air port is controlled to be opened or closed, so that the multifunctional integrated air conditioner can be switched among multiple functions, has a heat exchange mode (refrigeration/heating), an exhaust mode and a dehumidification mode, can meet different requirements of users, and is further beneficial to improvement of user experience.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of a multifunctional integrated air conditioner of the present invention;

FIG. 2 is an assembled view of the housing, the damper switch and the filter module of the multifunctional integrated air conditioner of FIG. 1;

FIG. 3 is an assembled view of the housing and the damper switch of the multifunctional integrated air conditioner of FIG. 1;

FIG. 4 is a schematic view of the air flow of the multifunctional integrated air conditioner of the present invention in the air exhaust mode;

FIG. 5 is a schematic view of the air flow of the multifunctional integrated air conditioner of the present invention in a heat exchange mode;

FIG. 6 is a schematic view of the air flow in another view of the multifunctional integrated air conditioner of the present invention in the heat exchange mode;

FIG. 7 is a schematic view illustrating the flow of air in the dehumidification mode of the multifunctional integrated air conditioner of the present invention;

fig. 8 is a schematic view of air flowing in the dehumidification mode of the multifunctional integrated air conditioner according to another aspect of the present invention.

The reference numbers illustrate:

the implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the 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, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should be considered to be absent and not within the protection scope of the present invention.

The utility model provides a multifunctional integrated air conditioner which has the functions of heat exchange (refrigeration and heating), dehumidification, exhaust and the like, can be installed in places such as a toilet, a kitchen, a bedroom, a living room and the like, and can be set to have different sizes according to different installation spaces.

Referring to fig. 1 to 3, the multifunctional integrated air conditioner 1000 includes a housing 100, a damper switch 200, a switch assembly, a fan assembly, and a heat exchange system.

The shape of the housing 100 can be various, and the housing 100 can be square, cylindrical, and other shapes, and is not limited in particular. Preferably, the housing 100 is provided in a square shape, so that the housing 100 is easy to install, and the housing 100 is easy to manufacture.

The shell 100 is provided with a first heat exchange cavity 110 and a second heat exchange cavity 120 which are communicated with each other, and a third heat exchange cavity 130 and a fourth heat exchange cavity 140 which are communicated with each other, wherein the volumes of the four heat exchange cavities can be equal, the volumes of the four heat exchange cavities can also be unequal, the volumes of the four heat exchange cavities can be set according to actual conditions, and no specific limitation is made here.

The first heat exchange cavity 110, the second heat exchange cavity 120, the third heat exchange cavity 130 and the fourth heat exchange cavity 140 may be arranged independently, that is, the first heat exchange cavity 110, the second heat exchange cavity 120, the third heat exchange cavity 130 and the fourth heat exchange cavity 140 are formed by four independent cavity structures inside the casing 100, and the two cavities are communicated with each other through a pipeline.

The first heat exchange cavity 110, the second heat exchange cavity 120, the third heat exchange cavity 130 and the fourth heat exchange cavity 140 may also be arranged in a correlated manner, and a cavity structure inside the casing 100 is partitioned by a partition plate with holes to form the first heat exchange cavity 110, the second heat exchange cavity 120, the third heat exchange cavity 130 and the fourth heat exchange cavity 140.

Referring to fig. 1, the first heat exchange chamber 110, the second heat exchange chamber, the third heat exchange chamber 130 and the fourth heat exchange chamber 140 are formed by separating a cavity inside the casing 100 by a partition, and since the first heat exchange chamber 110 and the second heat exchange chamber 120 are communicated with each other and the third heat exchange chamber 130 and the fourth heat exchange chamber 140 are communicated with each other, the cavity inside the casing 100 is separated into two parts by a partition.

The casing 100 is further provided with an indoor air inlet 150 communicated with the first heat exchange cavity 110, an indoor air outlet 160 communicated with the second heat exchange cavity 120, and an indoor air outlet 170 communicated with the fourth heat exchange cavity 140, it should be said that the indoor air inlet 150, the indoor air outlet 160, and the indoor air outlet 170 are all communicated with an indoor environment, the three can be directly communicated with the indoor environment, and the three can also be communicated with the indoor environment through a pipeline, which is not specifically limited herein.

The housing 100 is further provided with an outdoor air inlet 180 communicated with the third heat exchange chamber 130 and an outdoor air outlet 190 communicated with the fourth heat exchange chamber 140, and similarly, the outdoor air inlet 180 and the outdoor air outlet 190 may be directly communicated with the external environment, and the outdoor air inlet 180 and the outdoor air outlet 190 may also be communicated with the outdoor environment through a pipeline, which is not limited herein.

Considering that when the housing 100 is integrated with the ceiling, a surface of the housing 100 may be exposed from the opening of the ceiling, and therefore, the indoor intake opening 150, the indoor exhaust opening 160, and the indoor exhaust opening 170 may be disposed at positions exposed from the ceiling with respect to the housing 100; meanwhile, a gap is formed between the ceiling and the wall, so that one or both of the outdoor air inlet 180 and the outdoor air outlet 190 can be simultaneously communicated with the gap between the ceiling and the wall.

The damper switch 200 is installed at the indoor air inlet 150, the indoor air outlet 160, the indoor air outlet 170, the outdoor air inlet 180, and the outdoor air outlet 190, and the damper switch 200 can control the opening or closing of each of the air ports, thereby realizing the opening or closing of the different air ports, and further controlling the flow direction of air.

The type of the damper switch 200 can be varied, the damper switch 200 can be formed by a fluid valve, the damper switch 200 can be formed by a shutter structure, and the damper can be formed by other structures, not to be limited thereto. For ease of understanding, the following detailed description is given by way of specific examples:

for example, the air door switch 200 may include a driving motor and an air guiding plate, both ends of the air guiding plate in the length direction are rotatably connected to the casing 100 through a pivot shaft, and an output shaft of the driving motor is connected to the pivot shaft to drive the air guiding plate to rotate relative to the casing 100 to open or close the corresponding air inlet. Preferably, the driving motor and the pivot shaft of the air deflector are connected through a gear assembly.

For another example, the damper switch 200 may also be an electronic valve, the electronic valve includes a valve body and a valve core, one end of the valve body of the electronic valve is communicated with each air port, the other end of the valve body of the electronic valve is communicated with the corresponding heat exchange cavity, and the valve core moves relative to the valve body to control the opening or closing of each air port.

It should be noted that the indoor air inlet 150, the indoor air outlet 160, the indoor air outlet 170, the outdoor air inlet 180, and the outdoor air outlet 190 may be provided with damper switches 200 having the same structure, the indoor air inlet 150, the indoor air outlet 160, the indoor air outlet 170, the outdoor air inlet 180, and the outdoor air outlet 190 may also be provided with damper switches 200 having different structures, and the damper switches 200 of each air outlet may be set according to actual conditions, and are not specifically limited herein.

It should be noted that the number of the indoor air outlet 160, the indoor air outlet 170, the outdoor air inlet 180 and the outdoor air outlet 190 may be one or more, and the number of each air outlet may be set according to the actual situation, and is not limited specifically herein.

The switch assembly includes a first switch 300 and a second switch 400, the first switch 300 and the second switch 400 are both mounted on the housing 100, the first switch 300 is used for controlling the first heat exchange chamber 110 and the fourth heat exchange chamber 140 to be switched on or off, the second switch 400 is used for controlling the second heat exchange chamber 120 and the third heat exchange chamber 130 to be switched on or off, and the types of the first switch 300 and the second switch 400 are various, and the following description is made by specific examples:

for example, the first switch 300 and the second switch 400 may be an electric shutter structure, that is, the first switch 300 and the second switch 400 are composed of a motor and a shutter structure, and the motor operates to drive the shutter structure to open or close, so as to realize the connection or disconnection of the first heat exchange chamber 110 and the fourth heat exchange chamber 140 and the connection or disconnection of the second heat exchange chamber 120 and the third heat exchange chamber 130.

For another example, the first switch 300 and the second switch 400 may be composed of a motor and a movable door, and an output shaft of the motor is connected to the movable door to drive the movable door to rotate, so as to open or close a channel communicating the first heat exchange cavity 110 and the fourth heat exchange cavity 140 and a channel communicating the second heat exchange cavity 120 and the third heat exchange cavity 130, and further, to open or close the first heat exchange cavity 110 and the fourth heat exchange cavity 140 and to open or close the second heat exchange cavity 120 and the third heat exchange cavity 130.

The fan assembly comprises a first fan 500 and a second fan 600, wherein the first fan 500 is used for driving air to enter the first heat exchange cavity 110 from the indoor air inlet 150, and the second fan 600 is used for driving air in the fourth heat exchange cavity 140 to be discharged from the indoor air outlet 170 or the outdoor air outlet 190.

The first fan 500 and the second fan 600 may be one of an axial flow fan, a cross flow fan, and a centrifugal fan, the types of the first fan 500 and the second fan 600 may be the same, and the types of the first fan 500 and the second fan 600 may be different, and are not particularly limited herein. The first fan 500 and the second fan 600 can be mounted in the corresponding upper heat exchange cavity of the housing 100 by screw connection, snap connection and other methods, which are not listed here.

The heat exchange system comprises a first heat exchanger 700 and a second heat exchanger 800, the first heat exchanger 700 can be an integral body or can be composed of two parts, and the first heat exchanger 700 is used for exchanging heat for air flowing from the first heat exchange cavity 110 to the second heat exchange cavity 120; the second heat exchanger 800 may be an integral body or may be composed of two parts, and the second heat exchanger 800 exchanges heat with air flowing from the third heat exchanger to the fourth heat exchange chamber 140.

Preferably, the first heat exchanger 700 is an evaporator, the second heat exchanger 800 is a condenser, the heat exchange system further includes a four-way valve (not shown) and a compressor 850, the first heat exchanger 700 and the second heat exchanger 800 are in pipeline communication with the compressor 850 through the four-way valve, so that the refrigerant flows back to the compressor 850 after passing through the compressor 850, the first heat exchanger 700 and the second heat exchanger 800, or flows back to the compressor 850 after passing through the compressor 850, the second heat exchanger 800 and the first heat exchanger 700.

This multi-functional integral type air conditioner 1000 realizes the switching of multiple functions through opening and closing, the control first heat transfer chamber 110 with switching on or breaking off of fourth heat transfer chamber 140, the control second heat transfer chamber 120 with switching on or breaking off of fourth heat transfer chamber 140 and the opening or closing of the air door switch 200 of each wind gap of control fan subassembly and heat transfer system, this multi-functional integral type air conditioner 1000's mode of operation specifically as follows:

referring to fig. 4, exhaust mode: the heat exchange system and the first fan 500 are closed, the second fan 600 is started, the first heat exchange cavity 110 and the fourth heat exchange cavity 140 are conducted and/or the second heat exchange cavity 120 and the third heat exchange cavity 130 are conducted, the indoor air inlet 150 and the outdoor air outlet 190 are opened, and the indoor air outlet 160, the indoor air outlet 170 and the outdoor air inlet 180 are closed.

The second fan 600 drives the air in the fourth heat exchange cavity 140 to be discharged from the outdoor air outlet 190, so that negative pressure is formed in the fourth heat exchange cavity 140, the air in the first heat exchange cavity 110 communicated with the fourth heat exchange cavity 140 can directly enter the fourth heat exchange cavity 140, and can also flow through the second heat exchange cavity 120 and the third heat exchange cavity 130 and then enter the fourth heat exchange cavity 140, so that the indoor air can be discharged to the outdoor, and the indoor air is discharged.

Referring to fig. 5 and 6, in the heat exchange mode: the heat exchange system, the first fan 500 and the second fan 600 are started, the first heat exchange cavity 110 and the fourth heat exchange cavity 140 are disconnected, the third heat exchange cavity 130 and the fourth heat exchange cavity 140 are disconnected, the indoor air inlet 150, the indoor air outlet 160, the outdoor air inlet 180 and the outdoor air outlet 190 are opened, and the indoor exhaust air outlet 170 is closed.

The first fan 500 drives the air in the first heat exchange cavity 110 to flow into the second heat exchange cavity 120 and to be discharged from the indoor air outlet 160, negative pressure is formed in the first heat exchange cavity 110 at this time, so that the indoor air can enter the first heat exchange cavity 110 through the indoor air inlet 150, and meanwhile, the air flowing to the second heat exchange cavity 120 from the first heat exchange cavity 110 exchanges heat with the first heat exchanger 700, so that the indoor temperature can be adjusted by the air discharged from the indoor air outlet 160.

The second fan 600 drives the air in the third heat exchange cavity 130 to flow into the fourth heat exchange cavity 140 and to be discharged from the outdoor air outlet 190, a negative pressure is formed in the third heat exchange cavity 130 at this time, so that the outdoor air can enter the third heat exchange cavity 130 from the outdoor air inlet 180, and meanwhile, the air flowing from the third heat exchange cavity 130 into the fourth heat exchange cavity 140 exchanges heat with the second heat exchange cavity 120.

It should be noted that when the indoor temperature needs to be raised, the flow direction of the refrigerant can be adjusted by the four-way valve of the heat exchange system, and at this time, the refrigerant compressed by the compressor 850 flows through the second heat exchanger 800 and the first heat exchanger 700 and then flows back into the compressor 850. When the indoor temperature needs to be reduced, the flow direction of the refrigerant can be adjusted by the four-way valve of the heat exchange system, and the refrigerant compressed by the compressor 850 flows through the first heat exchanger 700 and the second heat exchanger 800 and then flows back into the compressor 850.

Referring to fig. 7 and 8, the dehumidification mode: the heat exchange system and the first fan 500 and/or the second fan 600 are/is started, the second heat exchange cavity 120 and the third heat exchange cavity 130 are conducted, the first heat exchange cavity 110 and the fourth heat exchange cavity 140 are disconnected, the indoor air inlet 150 and the indoor air outlet 170 are opened, and the indoor air outlet 160, the outdoor air inlet 180 and the outdoor air outlet 190 are closed.

In the dehumidification mode, the first fan 500 and the second fan 600 have three opening modes, as long as at least one of the two is opened, preferably, the first fan 500 is closed, and the second fan 600 is opened, at this time, the air in the casing 100 passes through the first heat exchange cavity 110, the second heat exchange cavity 120, the third heat exchange cavity 130, and the fourth heat exchange cavity 140 in sequence, and is finally discharged into the room from the indoor air outlet 170.

When the heat exchange system is formed by the compressor 850, the four-way valve, the evaporator and the condenser, the refrigerant in the heat exchange system flows back to the compressor 850 after sequentially passing through the compressor 850, the second heat exchanger 800 and the first heat exchanger 700, at the moment, the first heat exchanger 700 can exchange heat with air in contact with the first heat exchanger 700, so that the temperature of the air passing through the first heat exchanger 700 is reduced, meanwhile, moisture in the air can be cooled and condensed to form water drops, and the water drops can be discharged out of the shell 100 through the water receiving tray and the water pipe.

The air after heat exchange and dehumidification with the first heat exchanger 700 enters the third heat exchange cavity 130 and the fourth heat exchange cavity 140 again and exchanges heat with the second heat exchanger 800, the temperature of the original cooled air is increased after heat exchange with the second heat exchanger 800, so that the temperature difference between the air finally discharged to the room through the indoor air outlet 170 and the temperature of the indoor air is not large, meanwhile, the first heat exchanger 700 and the second heat exchanger 800 in the heat exchange system can be fully utilized, and the energy consumption is favorably reduced.

Considering that the indoor air carries out the indoor circulation when multi-functional integral type air conditioner 1000 is in the dehumidification mode, in order to avoid the air from indoor air outlet 170 exhaust in the very short time is sucked into first heat exchange cavity 110 once more, can also set up indoor air outlet 170 and indoor air intake 150 towards different directions, so set up, be favorable to guaranteeing indoor air circulation flow when multi-functional integral type air conditioner 1000 is in the dehumidification mode, and then be favorable to improving multi-functional integral type air conditioner 1000's dehumidification effect.

According to the multifunctional integrated air conditioner 1000, the switching of multiple functions is realized by controlling the opening and closing of the fan assembly and the heat exchange system, controlling the connection or disconnection of the first heat exchange cavity 110 and the second heat exchange cavity 120, controlling the connection or disconnection of the third heat exchange cavity 130 and the fourth heat exchange cavity 140, and controlling the opening or closing of the switch of each air port, so that the multifunctional integrated air conditioner 1000 has a heat exchange mode (cooling/heating), an exhaust mode and a dehumidification mode, different requirements of a user can be met, and the user experience is improved.

It should be noted that there are various installation positions of the first fan 500, the first fan 500 may be installed in the first heat exchange cavity 110, the first fan 500 may also be installed in the second heat exchange cavity 120, and a part of the first fan 500 may also be installed in the first heat exchange cavity 110, and a part of the first fan 500 may also be installed in the second heat exchange cavity 120, which is not limited herein.

Preferably, the first fan 500 is installed in the second heat exchange chamber 120, and thus, not only the air in the second heat exchange chamber 120 is conveniently driven to be discharged through the indoor air outlet 160, but also the air in the second heat exchange chamber 120 is conveniently driven to enter the third heat exchange chamber 130 through the second switch 400.

Similarly, there are various installation positions of the second fan 600, the second fan 600 may be installed in the third heat exchange cavity 130, the second fan 600 may also be installed in the fourth heat exchange cavity 140, and the second fan 600 may also be installed partially in the third heat exchange cavity 130 and partially in the fourth heat exchange cavity 140, which is not limited specifically herein.

Preferably, referring to fig. 1, the second fan 600 is installed in the fourth heat exchange cavity 140, so that the air in the fourth heat exchange cavity 140 is conveniently driven to be discharged through the outdoor air outlet 190, and when the multifunctional integrated air conditioner 1000 is in the exhaust mode, the first switch 300 is turned on, and the second switch 400 is turned off, the air can directly flow into the fourth heat exchange cavity 140 through the first heat exchange cavity 110, so that the air does not need to flow through the first heat exchanger 700 and the second heat exchanger 800, thereby reducing the wind resistance and accelerating the speed of discharging the air.

It should be noted that there are many shapes of the first heat exchanger 700, the first heat exchanger 700 may be disposed in a plate shape, the first heat exchanger 700 may be disposed in a ring shape, and the first heat exchanger 700 may have other shapes as long as it is ensured that the air flowing from the first heat exchange chamber 110 to the second heat exchange chamber 120 can exchange heat with the first heat exchanger 700.

Preferably, referring to fig. 1, the first heat exchanger 700 is disposed in a plate shape, and the first heat exchanger 700 can serve as a partition plate, that is, the first heat exchanger 700 is installed in a cavity structure of the casing 100, that is, the cavity structure in the casing 100 is partitioned to form the first heat exchange cavity 110 and the second heat exchange cavity 120.

Because first heat exchanger 700 transversely is located the air and flows to the wind path of second heat transfer chamber 120 from first heat transfer chamber 110, this just makes from the most air of first heat transfer chamber 110 inflow second heat transfer chamber 120, and whole air carries out the heat exchange with first heat exchanger 700 even, so guarantees to see the heat transfer effect of first heat exchanger 700, and then is favorable to improving the effect of the refrigeration or heating of multi-functional integral type air conditioner 1000, still is favorable to improving the dehumidification effect of multi-functional integral type air conditioner 1000 simultaneously.

Similarly, there are many shapes of the second heat exchanger 800, the second heat exchanger 800 may be disposed in a plate shape, the second heat exchanger 800 may be disposed in a ring shape, and the second heat exchanger 800 may have other shapes as long as it is ensured that the air flowing from the third heat exchange chamber 130 to the fourth heat exchange chamber 140 can exchange heat with the first heat exchanger 700.

Preferably, the second heat exchanger 800 is disposed in a plate shape, and the second heat exchanger 800 can serve as a partition plate, that is, the second heat exchanger 800 is installed in the cavity structure of the casing 100, that is, the cavity structure in the casing 100 can be partitioned to form the third heat exchange cavity 130 and the fourth heat exchange cavity 140.

Because the second heat exchanger 800 is transversely arranged on the air path through which air flows from the third heat exchange cavity 130 to the fourth heat exchange cavity 140, most of the air flowing into the fourth heat exchange cavity 140 from the third heat exchange cavity 130 even exchanges heat with the second heat exchanger 800, so that the heat exchange effect of the second heat exchanger 800 is ensured, and the improvement of the refrigeration or heating effect of the multifunctional integrated air conditioner 1000 is facilitated, and the improvement of the dehumidification effect of the multifunctional integrated air conditioner 1000 is facilitated.

Furthermore, the second heat exchanger 800 is disposed in an inclined manner, and the second heat exchanger 800 is disposed in an inclined manner from the third heat exchange cavity 130 to the fourth heat exchange cavity 140, so that the contact area between the second heat exchanger 800 and air can be increased, and the heat exchange effect of the second heat exchanger 800 can be further improved.

It should be noted that, when the first heat exchanger 700 is an evaporator and the second heat exchanger 800 is a condenser, the heat exchange system further includes a compressor 850 and a four-way valve, the compressor 850 is in pipeline communication with the four-way valve, the four-way valve is in pipeline communication with the evaporator and the condenser, and the compressor 850 is installed in the third heat exchange cavity 130.

Because the compressor 850 generates heat when operating, in the heat exchange mode, air enters the third heat exchange cavity 130 from the outdoor air inlet 180, exchanges heat with the compressor 850, and then exchanges heat with the second heat exchanger 800, so that the compressor 850 can be maintained at a normal temperature.

It should be noted that the switch assembly, the fan assembly and the heat exchange system all need to be controlled by an electronic control assembly, in some embodiments of the present invention, referring to fig. 1, the multifunctional integrated air conditioner 1000 further includes an electronic control box 900, the electronic control box 900 is electrically connected to the switch assembly, the fan assembly and the heat exchange system, and the electronic control box 900 is installed inside any one of the first heat exchange cavity 110, the second heat exchange cavity 120, the third heat exchange cavity 130 and the fourth heat exchange cavity 140.

Preferably, the electronic control box 900 is installed on the wall of the first heat exchange cavity 110, because electronic components in the electronic control box 900 generate heat when working, the two electronic control boxes 900 are disposed in the first heat exchange cavity 110 and can exchange heat with air in the first heat exchange cavity 110, so that the temperature in the electronic control box 900 can be maintained at a normal temperature, and the problem that the electronic components in the electronic control box 900 are too high in temperature and cannot work normally is avoided.

Considering that air in an indoor environment is generally mixed with tiny particulate matters or the air has peculiar smell, the multifunctional integrated air conditioner 1000 is further provided with a filtering module 950, the filtering module 950 is installed in the first heat exchange cavity 110, the filtering module 950 is used for filtering the air entering the first heat exchange cavity 110 from the indoor air inlet 150, namely, the filtering module 950 filters tiny particles in the air, and the filtering module 950 can also remove peculiar smell in the air, thereby being beneficial to ensuring the cleanliness of the air newly entering the room.

It should be noted that the part of the filtering module 950 for filtering fine particles may be made of synthetic fiber filter cotton, non-woven fabric filter cotton, glass fiber filter cotton, and other materials, and the part of the filtering module 950 for removing odor may be made of activated carbon.

It should be noted that the service life of the filter module 950 is limited, and therefore, the filter module 950 is usually disposed at a position to facilitate replacement of the filter module 950, and in view of this, the housing 100 is provided with a plug-in port 195 communicating with the first heat exchange cavity 110, and the filter module 950 is connected with the housing 100 in a plug-in manner.

Specifically, when installing the filter module 950, it is only necessary to insert the filter module 950 into the housing 100 through the insertion port 195, so as to ensure that the filter module 950 extends into the first heat exchange cavity 110; when the filter module 950 is removed or replaced, the filter module 950 is simply pulled out of the socket 195. So set up for the installation and the dismantlement of filter module 950 are very convenient, swift, and then convenience of customers changes this filter module 950.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the technical solutions of the present invention, which are made by using the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (9)

1. A multifunctional integrated air conditioner is characterized by comprising a shell, a switch assembly, a fan assembly and a heat exchange system; wherein the content of the first and second substances,

the shell is provided with a first heat exchange cavity, a second heat exchange cavity, a third heat exchange cavity, a fourth heat exchange cavity, an indoor air inlet, an indoor air outlet, an outdoor air inlet, an indoor air outlet and an outdoor air outlet, wherein the first heat exchange cavity and the second heat exchange cavity are communicated with each other;

the indoor air outlet, the outdoor air inlet and the outdoor air outlet are all provided with air door switches, and the air door switches are in an open state and a closed state;

the switch assembly comprises a first switch and a second switch, the first switch is used for switching on or off the first heat exchange cavity and the fourth heat exchange cavity, and the second switch is used for switching on or off the second heat exchange cavity and the third heat exchange cavity;

the fan assembly comprises a first fan and a second fan, the first fan is used for driving air to enter the first heat exchange cavity from an indoor air inlet, and the second fan is used for driving air in the fourth heat exchange cavity to be discharged from the indoor air outlet or the outdoor air outlet;

the heat exchange system comprises a first heat exchanger and a second heat exchanger, the first heat exchanger exchanges heat with air flowing from the first heat exchange cavity to the second heat exchange cavity, and the second heat exchanger exchanges heat with air flowing from the third heat exchanger to the fourth heat exchange cavity.

2. The multifunctional integrated air conditioner according to claim 1, wherein the second fan is installed in the fourth heat exchange chamber.

3. The multifunctional integrated air conditioner according to claim 1, wherein the first heat exchanger is formed in a plate shape and is installed at a junction of the first heat exchange chamber and the second heat exchange chamber to space the first heat exchange chamber and the second heat exchange chamber.

4. The multifunctional integrated air conditioner according to claim 1, wherein the second heat exchanger is formed in a plate shape and is installed at a junction of the third heat exchange chamber and the fourth heat exchange chamber to space the third heat exchange chamber and the fourth heat exchange chamber.

5. The multifunctional integrated air conditioner according to claim 1, wherein the first heat exchanger is an evaporator, the second heat exchanger is a condenser, the heat exchange system further comprises a compressor and a four-way valve, the compressor is in pipeline communication with the four-way valve, and both the evaporator and the condenser are in pipeline communication with the four-way valve.

6. The multifunctional integrated air conditioner according to claim 5, wherein the compressor is installed in the third heat exchange chamber.

7. The multifunctional integrated air conditioner according to claim 1, further comprising an electrical control box electrically connected to the switch assembly, the fan assembly and the heat exchange system, wherein the electrical control box is installed inside any one of the first heat exchange chamber, the second heat exchange chamber, the third heat exchange chamber and the fourth heat exchange chamber.

8. The multifunctional integrated air conditioner according to claim 1, further comprising a filter module installed in the first heat exchange chamber to filter air introduced from the indoor air inlet into the first heat exchange chamber.

9. The multifunctional integrated air conditioner according to claim 8, wherein a plug port is formed through the housing, and the filter module is inserted into or taken out of the first heat exchange chamber through the plug port.

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