CN214791823U - Air conditioning apparatus - Google Patents

Abstract

The utility model discloses an air conditioning device, include: the air conditioner comprises a shell component, a fresh air component, a first switch component and a switching valve component, wherein a first air outlet and an air return opening are formed in the shell component, the fresh air component comprises a ventilation cavity, a fresh air cavity and an air exhaust cavity, an inlet of the ventilation cavity is suitable for being communicated with the fresh air cavity and/or the air return opening, an outlet of the ventilation cavity is suitable for being communicated with the air exhaust cavity and the fresh air cavity, the air exhaust cavity is suitable for being communicated with a first air outlet, the first switch component is installed on the shell component and used for switching the first air outlet, and the switching valve component is used for switching the on-off state of the outlet of the ventilation cavity and the on-off state of the fresh air cavity and the on-off state of the inlet of the ventilation cavity and the fresh air cavity. According to the utility model discloses an air conditioning equipment can switch multiple functions, and can close first air outlet through first switch module to direct and swiftly avoid first air outlet to supply air, and guarantee the leakproofness of first air outlet.

Description

Air conditioning apparatus

Technical Field

The utility model belongs to the technical field of the air conditioning technology and specifically relates to an air conditioning device is related to.

Background

Some air conditioners among the correlation technique have the new trend function, and fresh air when outdoor air, when the indoor air is muddy, can open the new trend fan, introduce the outdoor air indoor, when need not introduce the outdoor air, close the new trend fan, in order to realize the introduction of new trend, offer the new trend export at the back of air conditioner usually, avoid child to stretch out one's hand to the new trend export, set up the grid in the new trend exit usually. However, these air conditioners have a single fresh air function and cannot meet various practical requirements.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides an air conditioning device can switch multiple functions, and can be under the condition that does not need first air outlet air supply, close first air outlet through first switch module and avoid first air outlet air supply with direct and swiftly, can guarantee the leakproofness of first air outlet moreover.

According to the utility model discloses air conditioning equipment, include: the fresh air component is arranged in the shell component and comprises a ventilation cavity, a fresh air cavity and an exhaust cavity, the fresh air cavity is suitable for being communicated with the outside, the inlet of the ventilation cavity is suitable for being communicated with the fresh air cavity and/or the return air port, the outlet of the ventilation cavity is suitable for being communicated with the exhaust cavity and the fresh air cavity, the exhaust cavity is suitable for being communicated with the first air outlet, the first switch component is arranged on the shell component and comprises a first driver and a first switch valve, the first switch valve is arranged at the first air outlet, and the first driver drives the first switch valve to switch the first air outlet, the switching valve assembly is used for switching the on-off state of the outlet of the ventilation cavity and the fresh air cavity and the on-off state of the inlet of the ventilation cavity and the fresh air cavity.

According to the utility model discloses an air conditioning equipment can switch multiple functions to through set up the first switch module that is used for the first air outlet of switch on casing part, thereby can be under the condition that does not need the air supply of first air outlet, close first air outlet through first switch module and avoid first air outlet air supply with direct and swiftly, can guarantee the leakproofness of first air outlet moreover, for example can avoid child to stretch out one's hand, and avoid advancing ash, intaking etc. in to casing part from first air outlet.

In some embodiments, the first switching valve includes: the plurality of baffles are sequentially arranged along the transverse direction or the longitudinal direction of the first air outlet, each baffle is pivotally connected with the shell part, the switch valve is switched to a closed state, and the plurality of baffles jointly cover the first air outlet.

In some embodiments, the first switch valve further includes a link pivotally connected to each of the shutters, the first actuator drives one of the shutters to rotate, and the driven shutter drives the remaining shutters to rotate through the link.

In some embodiments, the first driver comprises: the mounting seat is mounted on the machine shell component through a buckle structure and a thread fastening structure, and the driving motor is mounted on the mounting seat.

In some embodiments, the mounting seat has a wire buckle structure thereon.

In some embodiments, the casing part includes a wind-out frame and a front panel, the wind-out frame includes a left side frame and a right side frame, the left side frame and the right side frame are respectively located at the left and right sides of the front panel, the left side frame and the right side frame are respectively formed with the first air outlet, and the left side frame and the right side frame are respectively installed with the first switch assembly.

In some embodiments, the fresh air component comprises: the fresh air chamber and the air exhaust chamber are both formed in the shell assembly, and a first inner air outlet suitable for being communicated with the first air outlet is formed in the shell assembly.

In some embodiments, the first outlet port is formed on both left and right sides of the cabinet member, a second outlet port adapted to communicate with the indoor is formed on a front surface of the cabinet member, a second inner outlet port adapted to communicate with the second outlet port is formed on a top of the case assembly, and the second inner outlet port communicates with the exhaust chamber.

In some embodiments, the air conditioning device further comprises: the second switch assembly, the second switch assembly install in the casing assembly, and include second driver and second ooff valve, the second ooff valve is located air outlet department in the second, the drive of second driver the second ooff valve switch air outlet in the second.

In some embodiments, the exhaust chamber includes an upstream chamber and a downstream chamber, an inlet of the upstream chamber is communicated to the ventilation chamber, an outlet of the upstream chamber is communicated to an inlet of the downstream chamber, an outlet of the downstream chamber is communicated to the first inner air outlet and the second inner air outlet, the air conditioning device further includes: and the third switch component is arranged at the communication position of the upstream cavity and the downstream cavity and is used for controlling the on-off of the upstream cavity and the downstream cavity.

In some embodiments, the switching valve assembly comprises: the fourth switch assembly is arranged at the outlet of the ventilation cavity and enables the outlet of the ventilation cavity and the fresh air cavity to be communicated in an opening state; and the fifth switch component is arranged at the inlet of the ventilation cavity, and enables the inlet of the ventilation cavity and the fresh air cavity to be in a communicated state in an opening state.

In some embodiments, the air conditioning device includes: and the sixth switch assembly is arranged at the air return opening and enables the inlet of the ventilation chamber to be communicated with the indoor space through the air return opening in an opening state.

In some embodiments, the fresh air component comprises: the air treatment assembly is arranged in the exhaust chamber.

In some embodiments, the fresh air component comprises: a fan assembly located in the ventilation chamber.

In some embodiments, the fresh air component comprises a fresh air duct, one end of the fresh air duct defines the fresh air opening, and the other end of the fresh air duct is in communication with the fresh air chamber; the air conditioning device comprises a seventh switch assembly, the seventh switch assembly is arranged on the fresh air pipe, and the fresh air chamber is communicated with the outdoor space through the fresh air pipe when the seventh switch assembly is in an open state.

In some embodiments, the air conditioning device is an air conditioner, and the air conditioning device further comprises: an air heat exchange component for temperature regulation.

Additional aspects, embodiments and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

Fig. 1 is an exploded view of an air conditioning device according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view of the fresh air component shown in FIG. 1 in a fresh air function;

FIG. 3 is a cross-sectional view of the fresh air component shown in FIG. 1 with an internal circulation function;

FIG. 4 is a cross-sectional view of the fresh air component shown in FIG. 1 with a venting function;

fig. 5 is a partial exploded view of the air conditioning device shown in fig. 1;

fig. 6 is a cross-sectional view of a fresh air component according to another embodiment of the present invention, in a fresh air function;

FIG. 7 is a partial assembly view of the air regulating device shown in FIG. 5;

FIG. 8 is an assembly view at another angle to FIG. 7;

FIG. 9 is a further angular assembly view of FIG. 7;

FIG. 10 is an angled perspective view of the air regulating device shown in FIG. 1;

fig. 11 is a front view of the air conditioning device shown in fig. 10;

FIG. 12 is a perspective view of another angle of the air regulating device shown in FIG. 10;

fig. 13 is a partial exploded view of a fresh air component according to an embodiment of the present invention;

FIG. 14 is an exploded view of the second switch assembly shown in FIG. 13;

fig. 15 is an assembly view of the air outlet frame and the first switch assembly according to an embodiment of the present invention;

FIG. 16 is an angled perspective view of FIG. 15;

FIG. 17 is a perspective view of another angle of FIG. 15;

FIG. 18 is an enlarged view at F1 circled in FIG. 17;

FIG. 19 is a perspective view of still another angle of FIG. 15;

FIG. 20 is an enlarged view at F2 circled in FIG. 19;

FIG. 21 is a perspective view of still another angle of FIG. 15;

fig. 22 is an enlarged view at F3 circled in fig. 21.

Reference numerals:

an air conditioning device 1000;

a fresh air component 100;

a housing assembly 1; a ventilation chamber 101; a front chamber 1011; a rear chamber 1012; an upper chamber 1013;

a first inlet 101 a; a second inlet 101 b; a first outlet 101 c; a second outlet 101 d;

a fresh air chamber 102;

an exhaust chamber 103; an attachment portion 1030; a first mounting location 1031; a second mounting location 1032;

an upstream chamber 1033; a downstream chamber 1034;

an outdoor fresh air port 104; an indoor return air inlet 105;

the first inner air outlet 1061; a second inner air outlet 1062;

a first open mouth 107; a second open mouth 108; a third open mouth 109;

an upper case assembly 11; an upper case 111; a lower case 112; a removal opening 113;

a lower housing component 12; a first housing 121; a second housing 122; a third housing 123; a fourth housing 124;

a fan assembly 2; a centrifugal wind wheel 21; a drive motor 22;

an exhaust control valve 31;

a first switch assembly 31 a; the first driver 31a 1; mount 31a 11; the drive motor 31a 12;

the snap features 31a 13; the threaded fastening structure 31a 14; the wire clasp structure 31a 15;

the first switching valve 31a 2; the baffles 31a 21; the link 31a 22;

a second switch assembly 31 b; the second driver 31b 1; the second switching valve 31b 2;

a third switching component 31 c;

a fourth switching assembly 32; the fourth driver 321; a second cross baffle 322;

a fifth switching assembly 33; a third link 332; a first vertical baffle 333;

a sixth switch assembly 34; a seventh switch assembly 35;

an air treatment assembly 4; a processing module 40; a first module 401; a second module 402;

a fresh air duct 5;

a heat exchange part 200;

a housing part 300; an air return opening 301; a first air outlet 3021; a second air outlet 3022; a fresh air port 303;

a front panel 304; a rear case 305; a bottom case 306; a top case 307;

an air outlet frame 308; a left side frame 3081; a right side frame 3082;

the heat exchange air inlet 3091; the heat exchange air outlet 3092;

the air duct member 400.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

The following disclosure provides many different embodiments, or examples, for implementing different features of the invention. In order to simplify the disclosure of the present invention, the components and arrangements of specific examples are described below. Of course, they are merely examples and are not intended to limit the present invention. Furthermore, the present invention may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. In addition, the present disclosure provides examples of various specific processes and materials, but one of ordinary skill in the art may recognize the applicability of other processes and/or the use of other materials.

Next, with reference to the drawings, an air conditioning device 1000 according to an embodiment of the present invention is described.

As shown in fig. 1, the air conditioning device 1000 may include: the fresh air device comprises a shell part 300 and a fresh air part 100, wherein the fresh air part 100 is arranged in the shell part 300.

As shown in fig. 1, the casing part 300 has a first air outlet 3021 adapted to communicate with the room so that the air conditioning device 1000 can discharge air into the room through the first air outlet 3021, and the casing part 300 has a return air inlet 301 adapted to communicate with the room so that the air conditioning device 1000 is adapted to introduce air into the room through the return air inlet 301.

With reference to fig. 1 and 2, the fresh air component 100 includes a fresh air chamber 102 and an exhaust air chamber 103, the fresh air chamber 102 is adapted to communicate with the outside, and the exhaust air chamber 103 is adapted to communicate with the first air outlet 3021. When the fresh air chamber 102 is in a connected state with the outdoor environment and the pressure of the fresh air chamber 102 is greater than the outdoor air pressure, the fresh air chamber 102 can exhaust air to the outdoor environment, and when the pressure of the fresh air chamber 102 is less than the outdoor air pressure, the fresh air chamber 102 can introduce air from the outdoor environment. When the exhaust chamber 103 is in a state of being communicated with the indoor through the first air outlet 3021, if the pressure of the exhaust chamber 103 is greater than the indoor air pressure, the exhaust chamber 103 may exhaust air to the indoor.

With reference to fig. 1 and 2, the fresh air component 100 further includes a ventilation chamber 101, when the outlet pressure of the ventilation chamber 101 is lower than the inlet pressure of the ventilation chamber 101, the air outside the ventilation chamber 101 may enter the ventilation chamber 101 through the inlet of the ventilation chamber 101, the air entering the ventilation chamber 101 may flow from the inlet of the ventilation chamber 101 to the outlet of the ventilation chamber 101, and then exit the ventilation chamber 101 through the outlet of the ventilation chamber 101.

With reference to fig. 1 and 2, the inlet of the ventilation chamber 101 is adapted to communicate with the fresh air chamber 102 and the return air opening 301, and the outlet of the ventilation chamber 101 is adapted to communicate with the exhaust air chamber 103 and the fresh air chamber 102.

As shown in fig. 3, the inlet (e.g., the first inlet 101a shown in fig. 3) of the ventilation chamber 101 is adapted to communicate with the indoor through the air return opening 301, and when the inlet of the ventilation chamber 101 is in a communication state with the indoor, if the air pressure in the ventilation chamber 101 is less than the air pressure of the indoor environment, the indoor air may enter the ventilation chamber 101 through the air return opening 301, the first inlet 101 a.

As shown in fig. 2, the inlet of the ventilation chamber 101 (e.g., the second inlet 101b shown in fig. 2) is adapted to communicate with the outside of the room through the fresh air chamber 102, and when the inlet of the ventilation chamber 101 communicates with the outside of the room, if the air pressure in the ventilation chamber 101 is lower than the air pressure of the outdoor environment, the outdoor air can enter the ventilation chamber 101 through the fresh air chamber 102 and the second inlet 101 b.

As shown in fig. 3, the outlet of the ventilation chamber 101 (e.g., the first outlet 101c shown in fig. 3) is adapted to communicate with the discharge chamber 103, and when the discharge chamber 103 is in a communication state with the room and the discharge chamber 103 is in a communication state with the outlet of the ventilation chamber 101, if the air pressure in the ventilation chamber 101 is greater than the air pressure of the indoor environment, the ventilation chamber 101 can be discharged into the room through the discharge chamber 103.

As shown in fig. 4, the outlet of the ventilation chamber 101 (e.g., the second outlet 101d shown in fig. 3) is adapted to communicate with the fresh air chamber 102, and when the fresh air chamber 102 communicates with the outside and the fresh air chamber 102 communicates with the outlet of the ventilation chamber 101, if the air pressure in the ventilation chamber 101 is greater than the air pressure in the outdoor environment, the ventilation chamber 101 can exhaust air to the outside through the fresh air chamber 102.

In short, in one specific example of the present invention, as shown in fig. 2-4, the ventilation chamber 101 may have two inlets, a first inlet 101a and a second inlet 101b, respectively, and the ventilation chamber 101 may also have two outlets, a first outlet 101c and a second outlet 101d, respectively. Wherein the first inlet 101a is adapted to communicate with the return air opening 301, the second inlet 101b is adapted to communicate with the fresh air chamber 102, the first outlet 101c is adapted to communicate with the exhaust air chamber 103, and the second outlet 101d is adapted to communicate with the fresh air chamber 102.

As shown in fig. 1, the air conditioning device 1000 further includes a first switch assembly 31a, the first switch assembly 31a is mounted to the housing part 300, and with reference to fig. 17 to 18, the first switch assembly 31a includes a first driver 31a1 and a first switch valve 31a2, the first switch valve 31a2 is provided at the first outlet port 3021, and the first driver 31a1 drives the first switch valve 31a2 to switch the first outlet port 3021. Therefore, when the first driver 31a1 drives the first switch valve 31a2 to open the first outlet port 3021, fresh air can be discharged into the room, and when the first driver 31a1 drives the first switch valve 31a2 to close the first outlet port 3021, the first outlet port 3021 can be sealed, and dust, water, and the like can be prevented from entering the first outlet port 3021. Therefore, according to the embodiment of the present invention, the air conditioning device 1000 can control whether the first air outlet 3021 exhausts to the indoor space by providing the first switch component 31a at the first air outlet 3021, and can close the first air outlet 3021 through the first switch component 31a to directly and quickly avoid the air supply of the first air outlet 3021 without exhausting the first air outlet 3021, and ensure the tightness of the first air outlet 3021 through the first switch component 31a, thereby avoiding the first air outlet 3021 from entering dust, entering water, and reaching the hands of children, etc.

As shown in fig. 1, the air conditioning device 1000 further includes a switching valve assembly for switching the on/off state of the outlet of the ventilation chamber 101 and the fresh air chamber 102, and the on/off state of the inlet of the ventilation chamber 101 and the fresh air chamber 102. Thus, the air treatment device 1000 according to the embodiment of the present invention can have at least the following three operation modes.

In a first working mode, as shown in fig. 2, the first switch assembly 31a is in an open state, the first air outlet 3021 is in a communication state with the indoor space, and the switching valve assembly is switched to: the inlet of the ventilation chamber 101 and the fresh air chamber 102 are in a communicated state, the outlet of the ventilation chamber 101 and the fresh air chamber 102 are in a blocking state, outdoor fresh air can enter the ventilation chamber 101 after entering the fresh air chamber 102, the outdoor fresh air can be discharged to the exhaust chamber 103 from the ventilation chamber 101 under the condition of no other blocking, and the outdoor fresh air can be discharged to the indoor through the first air outlet 3021 under the condition of no other blocking. Therefore, the fresh air function of introducing outdoor fresh air from the outdoor to the indoor can be realized.

In the second working mode, as shown in fig. 3, the first switch assembly 31a is in an open state, the first air outlet 3021 is in a communication state with the indoor space, and the switching valve assembly is switched to: the inlet of the ventilation chamber 101 and the fresh air chamber 102 are in a blocking state, and the outlet of the ventilation chamber 101 and the fresh air chamber 102 are also in a blocking state, so that after the indoor air can enter the ventilation chamber 101 through the air return opening 301, the indoor air can be discharged to the exhaust chamber 103 from the ventilation chamber 101 under the condition of no other blocking, and then can be discharged to the indoor through the first air outlet 3021 under the condition of no other blocking. Therefore, an internal circulation function of introducing air from the room and discharging it back to the room can be realized.

In a third working mode, as shown in fig. 4, the first switch assembly 31a is in a closed state, the first air outlet 3021 and the indoor space are in a blocked state, and the switching valve assembly is switched to: the inlet of the ventilation chamber 101 and the fresh air chamber 102 are in a blocking state, the outlet of the ventilation chamber 101 and the fresh air chamber 102 are in a communicating state, when indoor air can enter the ventilation chamber 101 through the air return opening, the indoor air can be discharged to the fresh air chamber 102 through the ventilation chamber 101, and under the condition that no other blocking exists, the fresh air chamber 102 can discharge the air outdoors. Therefore, the air exhaust function of introducing air from the indoor and then exhausting the air to the outdoor can be realized, and the effect of discharging the air to the outdoor can be achieved.

Of course, the present invention is not limited thereto, in other examples of the present invention, the inlet of the ventilation chamber 101 may also be communicated with the outdoor only through the fresh air chamber 102, or communicated with the indoor only through the return air inlet 301, which is not repeated for this situation.

In some embodiments of the present invention, as shown in fig. 18, the first switching valve 31a2 may include: a plurality of shutters 31a21, a plurality of shutters 31a21 are arranged in sequence along a transverse direction or a longitudinal direction of the first outlet port 3021, where the longitudinal direction refers to a length direction of the first outlet port 3021, and the transverse direction refers to a width direction of the first outlet port 3021, each of the shutters 31a21 is pivotally connected to the cabinet member 300, and when the first switch valve 31a2 is switched to the closed state, the plurality of shutters 31a21 collectively block the first outlet port 3021. Accordingly, the first switching valve 31a2 has a simple structure and occupies a small space, and switching control can be effectively performed. In addition, when the first on-off valve 31a2 is in a state of opening the first air outlet 3021, the plurality of baffles 31a21 can also play a role of guiding air, that is, the blowing angle can be adjusted in the operating state, for example, the situation that cold fresh air in winter is directly blown to the user to cause discomfort can be avoided.

In some embodiments of the present invention, as shown in fig. 18, the first switch valve 31a2 may further include a connecting rod 31a22, the connecting rod 31a22 is pivotally connected to each baffle 31a21, the first driver 31a1 drives one of the baffles 31a21 to rotate, and the baffle 31a21 driven by the first driver 31a1 drives the other baffles 31a21 to rotate through the connecting rod 31a 22. Therefore, the two baffles 31a21 are connected through the connecting rod 31a22, the two baffles 31a21 can be opened and closed synchronously, the first switch valve 31a2 is simple in structure and convenient to control, and the number of the first actuators 31a1 can be reduced.

In some embodiments of the present invention, as shown in fig. 18, the first driver 31a1 may include: mounting seat 31a11 and drive motor 31a12, with reference to fig. 19-22, mounting seat 31a11 is mounted to chassis member 300 by snap structure 31a13 and threaded fastening structure 31a14, and drive motor 31a12 is mounted to mounting seat 31a 11. For example, mount 31a11 may be secured to chassis component 300 by screws or bolts that extend through or are threadably secured to threaded fastening structures 31a14, and snap features 31a13 (e.g., hooks or holes) may be utilized to snap fit with mating features (e.g., holes or hooks) on chassis component 300 to provide a quick assembly. Therefore, compared with the scheme of screwing a plurality of screws to fix the mounting seat 31a11 and the chassis component 300, the structure can be simplified, the operation is convenient, the processing is convenient, and the space is saved.

In some embodiments of the present invention, as shown in fig. 22, the mounting seat 31a11 has a wire buckle structure 31a 15. Therefore, the driving motor 31a12 is convenient to wire, and the simplicity and the safety of the wire are improved. The specific configuration of the thread fastener 31a15 is not limited, and may be, for example, a hook or a column as long as the thread can be smoothly stroked.

In some embodiments of the present invention, as shown in fig. 11, the housing part 300 may include an air-out frame 308 and a front panel 304, the air-out frame 308 includes a left side frame 3081 and a right side frame 3082, the left side frame 3081 and the right side frame 3082 are respectively located at the left and right sides of the front panel 304, the left side frame 3081 and the right side frame 3082 are respectively formed with a first air outlet 3021, and the left side frame 3081 and the right side frame 3082 are respectively installed with a first switch assembly 31 a. Therefore, the air supply range can be enlarged, and the fresh air exchange efficiency and effect are improved.

In some embodiments of the present invention, as shown in fig. 1 and 2, the fresh air component 100 may include: the shell assembly 1 is arranged in the machine shell component 300, the ventilation chamber 101, the fresh air chamber 102 and the exhaust chamber 103 are all formed in the shell assembly 1, and a first inner air outlet 1061 suitable for being communicated with the first air outlet 3021 is formed on the shell assembly 1. Thereby, the case assembly 1 can be protected by the housing member 300. Of course, the present invention is not limited thereto, and in other embodiments of the present invention, the fresh air component 100 may not include the housing assembly 1, and at this time, the housing component 300 may be utilized as an appearance housing of the fresh air component 100.

In some embodiments of the present invention, as shown in fig. 11 and 15, the first air outlet port 3021 is formed on both left and right sides of the cabinet member 300, the second air outlet port 3022 adapted to communicate with the indoor is formed on the front surface of the cabinet member 300, and in conjunction with fig. 1-2, 13-14, the top of the housing assembly 1 is formed with the second inner air outlet port 1062 adapted to communicate with the second air outlet port 3022, and the second inner air outlet port 1062 communicates with the exhaust chamber 103. Therefore, when the fresh air chamber 102 is communicated with the outdoor, the exhaust chamber 103 is communicated with the fresh air chamber 102 through the ventilation chamber 101, and the exhaust chamber 103 is communicated with the indoor through the second inner air outlet 1062 and the second air outlet 3022, outdoor air can enter the fresh air chamber 102, then enter the exhaust chamber 103 through the ventilation chamber 101, and then sequentially enter the indoor through the second inner air outlet 1062 and the second air outlet 3022. Therefore, when outdoor air is fresh, outdoor fresh air can be introduced into the room, and the effect of ventilation is achieved. Therefore, the air supply range can be further enlarged, and the fresh air exchange efficiency and effect are improved.

It should be noted that, although the first air outlet 3021 and the second air outlet 3022 are both communicated with the exhaust chamber 103, mutually independent channels may be provided in the exhaust chamber 103 to respectively communicate the first air outlet 3021 and the second air outlet 3022, for example, a humidification module may be provided in the channel communicated with the first air outlet 3021, and a humidification module may not be provided in the channel communicated with the second air outlet 3022, or a humidification module may not be provided in the channel communicated with the first air outlet 3021, and a humidification module may be provided in the channel communicated with the second air outlet 3022, so as to implement different functions. In addition, the exhaust chamber 103 may not have mutually independent channels, that is, the same channel may be provided to communicate the first air outlet 3021 and the second air outlet 3022, and so on.

In some embodiments of the present invention, as shown in fig. 14 and 15, the air conditioning device 1000 may further include: and a second switch assembly 31b, wherein the second switch assembly 31b is mounted on the housing assembly 1 and includes a second driver 31b1 and a second switch valve 31b2, the second switch valve 31b2 is disposed at the second inner outlet 1062, and the second driver 31b1 drives the second switch valve 31b2 to switch the second outlet 3022. Therefore, when the second driver 31b1 drives the second switch valve 31b2 to open the second outlet port 3022, fresh air can be discharged into the room, and when the first driver 31a1 drives the first switch valve 31a2 to close the first outlet port 3021, the sealing performance of the second outlet port 3022 can be ensured, and dust, water, and the like can be prevented from entering the second outlet port 3022.

In some embodiments of the present invention, as shown in fig. 6, the exhaust chamber 103 may include an upstream chamber 1033 and a downstream chamber 1034, an inlet of the upstream chamber 1033 is communicated to the ventilation chamber 101, an outlet of the upstream chamber 1033 is communicated to an inlet of the downstream chamber 1034, an outlet of the downstream chamber 1034 is communicated to the first inner air outlet 1061 and the second inner air outlet 1062, and the air conditioning device 1000 further includes: and a third switching element 31c, where the third switching element 31c is disposed at a communication position between the upstream chamber 1033 and the downstream chamber 1034, and is used for controlling on/off of the upstream chamber 1033 and the downstream chamber 1034. That is, when the third switch assembly 31c controls the upstream chamber 1033 to communicate with the downstream chamber 1034, the fresh air from the ventilation chamber 101 fed into the upstream chamber 1033 can enter the downstream chamber 1034 and then flow to the first inner air outlet 1061 and the second inner air outlet 1062; when the third switch element 31c controls the upstream chamber 1033 to be blocked from the downstream chamber 1034, the fresh air sent into the upstream chamber 1033 by the ventilation chamber 101 cannot enter the downstream chamber 1034, and further cannot flow to the first inner air outlet 1061 and the second inner air outlet 1062. Therefore, under the condition that fresh air does not need to be supplied indoors, the third switch component 31c can control the upstream chamber 1033 to be blocked from the downstream chamber 1034, so that the fresh air is prevented from flowing indoors from the first inner air outlet 1061 and the second inner air outlet 1062.

As shown in fig. 1 and 2, the housing assembly 1 may further include a fresh air chamber 102 therein, the fresh air chamber 102 is suitable for being directly or indirectly communicated with the outdoor, if the air pressure in the fresh air chamber 102 is smaller than the air pressure of the outdoor environment, the outdoor air may enter the fresh air chamber 102, and if the air pressure in the fresh air chamber 102 is larger than the air pressure of the outdoor environment, the air in the fresh air chamber 102 may be discharged to the outdoor.

In some embodiments of the present invention, the switching valve assembly may include: fourth switch module 32 and fifth switch module 33, fourth switch module 32 locates the export of ventilation cavity 101, and make under the open mode the export of ventilation cavity 101 with fresh air cavity 102 presents the connected state, fifth switch module 33 locates the entry of ventilation cavity 101, and make under the open mode the entry of ventilation cavity 101 with fresh air cavity 102 presents the connected state. Therefore, the function of the switching valve assembly can be simply and effectively realized, and the arrangement scheme of the fourth switch assembly 32 and the fifth switch assembly 33 is simple and convenient to assemble. Of course, the present invention is not limited to this, and the switching valve assembly may further include a greater number of switch assemblies, and the position of the switch assembly is not limited to the above-mentioned limitation, and the switching of the above-mentioned functions may also be realized, which is not described herein again.

In some embodiments of the present invention, the air conditioning device 1000 may further include: and the sixth switch assembly 34, the sixth switch assembly 34 is arranged at the air return opening 301, and in an open state, the inlet of the ventilation chamber 101 is communicated with the indoor space through the air return opening 301. Thus, whether to open the return air opening 301 can be controlled as required.

As shown in fig. 4, when the fourth switch assembly 32 is in the open state, the outlet of the ventilation chamber 101 is in communication with the fresh air chamber 102. In particular, the fourth switch assembly 32 is switchable between an open state and a closed state. As shown in fig. 4, when the fourth switch assembly 32 is in the open state, the ventilation chamber 101 can exhaust air to the fresh air chamber 102 when the pressure of the ventilation chamber 101 is greater than the pressure of the fresh air chamber 102. As shown in fig. 1 and 2, when the fourth switch assembly 32 is in the closed state, even if the pressure of the ventilation chamber 101 is greater than the pressure of the fresh air chamber 102, the ventilation chamber 101 cannot discharge air to the fresh air chamber 102.

As shown in fig. 2, in the open state of the fifth switch assembly 33, the inlet of the ventilation chamber 101 (the second inlet 101b shown in fig. 2) is in communication with the fresh air chamber 102. In particular, the fifth switching component 33 is switchable between an open state and a closed state. As shown in fig. 2, when the fifth switch assembly 33 is in the open state, the ventilation chamber 101 can suck air from the fresh air chamber 102, that is, if the air pressure in the ventilation chamber 101 is lower than the air pressure in the fresh air chamber 102, the air in the fresh air chamber 102 flows into the ventilation chamber 101 through the inlet (e.g., the second inlet 101b shown in fig. 2) of the ventilation chamber 101. As shown in fig. 3, when the fifth switch assembly 33 is in the closed state, the inlet (e.g., the second inlet 101b shown in fig. 3) of the ventilation chamber 101 cannot suck air from the fresh air chamber 102, i.e., if the air pressure in the ventilation chamber 101 is lower than the air pressure in the fresh air chamber 102, the air in the fresh air chamber 102 cannot flow into the ventilation chamber 101. At this time, if the ventilation chamber 101 is in a communication state with the indoor, indoor air may flow into the ventilation chamber 101 through an inlet (a first inlet 101a as shown in fig. 3) of the ventilation chamber 101.

As shown in fig. 3, in the open state of the sixth switching assembly 34, the inlet (the first inlet 101a shown in fig. 3) of the ventilation chamber 101 is in communication with the inside of the chamber through the air return opening 301. At this time, if the air pressure inside the ventilation chamber 101 is less than the air pressure of the indoor environment, indoor air may enter the ventilation chamber 101 through the return air opening 301. In particular, the sixth switch assembly 34 is switchable between an open state and a closed state. As shown in fig. 3 and 4, when the sixth switch assembly 34 is in the open state, the ventilation chamber 101 is in the communication state with the air return opening 301, the air return opening 301 is in the communication state with the indoor, and the ventilation chamber 101 can suck air from the indoor through the air return opening 301, that is, if the air pressure in the ventilation chamber 101 is lower than the air pressure of the indoor environment, the air in the indoor can flow into the ventilation chamber 101 through the air return opening 301. As shown in fig. 2, when the sixth switch assembly 34 is in the closed state, the ventilation chamber 101 and the air return opening 301 are in the blocked state, and/or the air return opening 301 is in the blocked state with respect to the room, the ventilation chamber 101 cannot suck air from the room through the air return opening 301, that is, if the air pressure in the ventilation chamber 101 is less than the air pressure of the indoor environment, the air in the room cannot flow into the air return opening 301, or the air in the room cannot flow into the ventilation chamber 101, or the air in the room cannot flow into the air return opening 301, and the air flowing into the air return opening 301 cannot flow into the ventilation chamber 101.

In short, in one specific example of the present invention, the air conditioning device 1000 may include a control valve assembly, and the control valve assembly may be disposed in the housing assembly 1 or may not be disposed in the housing assembly 1. The control valve assembly may include: a vent control valve 31, a switching valve assembly and a sixth switch assembly 34, the vent control valve 31 may include: a first switch assembly 31a, a second switch assembly 31b, a third switch assembly 31c, and a switching valve assembly may include a fourth switch assembly 32 and a fifth switch assembly 33. As shown in fig. 1 and 2, in the open state of the discharge control valve 31, the outlet of the ventilation chamber 101 is in communication with the room through the discharge chamber 103 and the first outlet port 3021. Specifically, the discharge control valve 31 is switchable between an open state and a closed state. As shown in fig. 2 and 3, when the discharge control valve 31 is in the open state, and the pressure in the ventilation chamber 101 is higher than the indoor pressure, the ventilation chamber 101 can be discharged from the first discharge port 3021 to the indoor through the discharge chamber 103. As shown in fig. 4, when the discharge control valve 31 is in the closed state, even if the pressure in the vent chamber 101 is higher than the indoor pressure, the vent chamber 101 cannot be discharged from the first outlet port 3021 into the room through the discharge chamber 103, for example, the vent chamber 101 cannot discharge air into the discharge chamber 103, or the vent chamber 101 cannot discharge air into the room through the first outlet port 3021, but the vent chamber 103 cannot discharge air into the room through the first outlet port 3021, or the vent chamber 101 cannot discharge air into the discharge chamber 103, but the vent chamber 103 cannot discharge air into the room through the first outlet port 3021.

Thus, the air treatment device 1000 according to the embodiment of the present invention can have at least the following three operation modes.

In the first operation mode, as shown in fig. 2, the exhaust control valve 31 is in an open state, the fourth switch assembly 32 is in a closed state, the fifth switch assembly 33 is in an open state, and the sixth switch assembly 34 is in a closed state, so that outdoor fresh air can enter the fresh air chamber 102, then enter the ventilation chamber 101, then be exhausted from the ventilation chamber 101 to the exhaust chamber 103, and then be exhausted to the indoor through the first air outlet 3021 or the second air outlet 3022. Therefore, the fresh air function of introducing outdoor fresh air from the outdoor to the indoor can be realized.

In the second operation mode, as shown in fig. 3, the exhaust control valve 31 is in an open state, the fourth switch assembly 32 is in a closed state, the fifth switch assembly 33 is in a closed state, and the sixth switch assembly 34 is in an open state, so that the indoor air can enter the ventilation chamber 101, and then is discharged from the ventilation chamber 101 to the exhaust chamber 103, and then is discharged to the indoor through the first air outlet 3021 or the second air outlet 3022. Therefore, an internal circulation function of introducing air from the room and discharging it back to the room can be realized.

In the third operation mode, as shown in fig. 4, the exhaust control valve 31 is in a closed state, the fourth switch assembly 32 is in an open state, the fifth switch assembly 33 is in a closed state, and the sixth switch assembly 34 is in an open state, so that indoor air can enter the ventilation chamber 101 and then be exhausted from the ventilation chamber 101 to the fresh air chamber 102, and the fresh air chamber 102 exhausts the air to the outside. Therefore, the air exhaust function of introducing air from the indoor and then exhausting the air to the outdoor can be realized, and the effect of discharging the air to the outdoor can be achieved.

From this, according to the utility model discloses air treatment device 1000 of some embodiments can realize at least the switching of inner loop function, new trend function and the function of airing exhaust to satisfy user's different demands. In addition, through switching fifth switch module 33 into the open mode, can guarantee under the new trend function, by outdoor to ventilation cavity 101 provide the new trend, through switching fifth switch module 33 into the closed mode, can guarantee including under circulation function and the function of airing exhaust, only by indoor to ventilation cavity 101 provide the air, and can not have outdoor new trend to get into ventilation cavity 101 to improve the work efficiency of inner circulation function and the function of airing exhaust, reduce the energy consumption. In addition, the sixth switch assembly 34 can be switched to the closed state under the fresh air function, and only the outdoor air is supplied to the ventilation chamber 101, so that the sufficient entering amount of the fresh air is ensured, as shown in fig. 3 and 4, the sixth switch assembly 34 is switched to the open state under the internal circulation function and the exhaust function, so that the requirement of supplying the air to the ventilation chamber 101 from the indoor air can be met.

In some embodiments of the present invention, the fresh air component 100 may include: the air processing assembly 4, the air processing assembly 4 is arranged in the exhaust chamber 103, when the air flow enters the exhaust chamber 103 and flows through the air processing assembly 4, the air flow can be processed by the air processing assembly 4, and therefore the quality of the air exhausted from the exhaust chamber 103 can be ensured. Specifically, under the fresh air function, the path of the airflow flowing through the inside of the housing assembly 1 is called a fresh air channel, under the internal circulation function, the path of the airflow flowing through the inside of the housing assembly 1 is called an internal circulation channel, and under the exhaust function, the path of the airflow flowing through the inside of the housing assembly 1 is called an exhaust channel. Through locating air treatment component 4 exhaust cavity 103 to make air treatment component 4 be located fresh air channel and inner loop passageway, can realize the first processing to the air, later discharge into indoor, consequently, can be defined as air treatment channel with fresh air channel and inner loop passageway. And the air treatment assembly 4 may not be provided on the exhaust air passage, so that the service life of the air treatment assembly 4 can be prolonged.

The positions of the air return opening 301 and the sixth switch assembly 34 are not limited as long as the above requirements are satisfied. For example, as described above, when the air conditioning device 1000 includes the cabinet member 300 and the casing assembly 1 is located in the cabinet member 300, the air return opening 301 may be formed on the cabinet member 300, and at this time, the casing assembly 1 may be formed with the indoor air return opening 105 communicating with the air return opening 301, and in a specific example, the first inlet 101a and the indoor air return opening 105 may be the same opening, so that the air intake path from the air return opening 301 to the ventilation chamber 101 may be further shortened, and the structure of the casing assembly 1 may be made small and compact.

Of course, the utility model is not limited to this, in the utility model discloses an in other embodiments, control valve subassembly can also not have sixth switch module 34, and at this moment, ventilation cavity 101 can present often the connected state with return air inlet 301, and return air inlet 301 also presents often the connected state with indoor, as long as the atmospheric pressure in the ventilation cavity 101 is less than the atmospheric pressure of indoor environment, and indoor air then can flow into ventilation cavity 101 through return air inlet 301, for example under above-mentioned new trend function, inner loop function and the function of airing exhaust, indoor air all can get into ventilation cavity 101. For example, under the new trend function, indoor air and outdoor new trend get into ventilation cavity 101 simultaneously, then are handled the back by air treatment component 4 and are arranged to indoor to can have certain inner loop effect concurrently under the function that realizes the new trend. In addition, when the sixth switch assembly does not have the sixth switch assembly 34, a ventilation grille can be arranged at the air return opening 301, so that a safety effect is achieved.

For example, in some embodiments, the sixth switch assembly 34 may be disposed at the air return opening 301 for controlling the opening and closing of the air return opening 301, thereby having a large installation space and facilitating control. Further, the sixth switch assembly 34 may be in the form of a power switch door, a power air deflector, a manual switch door, or the like. Of course, the present invention is not limited to this, the sixth switch assembly 34 may also be disposed on the airflow channel between the air return opening 301 and the inlet of the ventilation chamber 101, for example, when the casing assembly 1 is located in the casing part 300, and the air return opening 301 is formed on the casing part 300, the casing assembly 1 is provided with the indoor air return opening 105, the indoor air return opening 105 is used as the inlet of the ventilation chamber 101 and is communicated with the air return opening 301 on the casing part 300, at this time, the sixth switch assembly 34 may be disposed at the indoor air return opening 105 on the casing assembly 1, and so on, which will not be described herein.

In some embodiments of the present invention, as shown in fig. 2, the fresh air component 100 may include a blower assembly 2, and the blower assembly 2 may be disposed in the ventilation chamber 101, that is, at least a portion of the blower assembly 2 is disposed in the ventilation chamber 101, and when the blower assembly 2 is in operation, the outlet pressure of the ventilation chamber 101 is smaller than the inlet pressure of the ventilation chamber 101. Of course, the present invention is not limited thereto, in other embodiments of the present invention, the fan assembly 2 may not be disposed in the ventilation chamber 101, for example, the fan assembly 2 may also be disposed in the fresh air chamber 102 and the exhaust air chamber 103, and in addition, the specific type of the fan assembly 2 is not limited, and may be specifically selected according to the air flow direction and the air supply requirement, and the like, and is not limited herein, for example, it may include a centrifugal fan, a cross flow fan, an axial flow fan, and the like.

In some embodiments of the present invention, as shown in fig. 4 to 5, the fresh air chamber 102 is located at the rear side of the ventilation chamber 101, the fifth switch component 33 is disposed between the front portion of the fresh air chamber 102 and the rear portion of the ventilation chamber 101, that is, the ventilation chamber 101 has the second inlet 101b, and when the second inlet 101b communicates with the outlet of the fresh air chamber 102, the fifth switch component 33 may be disposed at the second inlet 101b, the fifth switch component 33 may include the first vertical baffle 333, the first vertical baffles 333 are multiple and sequentially arranged in the left-right direction, each first vertical baffle 333 is pivotally connected to the housing component 1, and the pivot axis of each first vertical baffle 333 extends vertically. Therefore, the fifth switch assembly 33 has a simple structure, is convenient to control, occupies a small space, and has a good switch switching effect.

For example, in the closed state of the fifth switch component 33, the plurality of first vertical baffles 333 are substantially located on the same plane, two adjacent first vertical baffles 333 are connected, overlapped, or have only a small airflow gap, and in the open state of the fifth switch component 33, the plurality of first vertical baffles 333 are parallel to each other, so that the distance between two adjacent first vertical baffles 333 can be ensured to be large, the airflow passing rate can be improved, the wind resistance can be reduced, and the energy consumption can be reduced.

In addition, referring to fig. 5, the fifth switch assembly 33 may further include a third driver and a third connecting rod 332, the third connecting rod 332 extends in the left-right direction, upper ends or lower ends of the first vertical baffles 333 are connected to the third connecting rod 332, the third driver drives one of the first vertical baffles 333 to rotate, and the first vertical baffles 333 drives the other third vertical baffles to rotate through the third connecting rod 332. Therefore, the structure of the fifth switch assembly 33 is simple, and the fifth switch assembly 33 is convenient to control to switch between the open state and the closed state.

In some embodiments of the present invention, as shown in fig. 4 and 5, the fresh air chamber 102 may be disposed at the rear side of the ventilation chamber 101, the exhaust chamber 103 may be disposed above the ventilation chamber 101, the ventilation chamber 101 includes an upper chamber 1013, the top of the upper chamber 1013 is communicated with the exhaust chamber 103 through a first outlet 101c, the rear of the upper chamber 1013 is communicated with the upper portion of the fresh air chamber 102 through a second outlet 101d, and the fourth switch assembly 32 is disposed at the second outlet 101d, so as to be used for controlling the switch of the second outlet 101 d. Thereby, the intake path and the exhaust path from between the ventilation chamber 101 and the fresh air chamber 102 can be better shortened, and the exhaust path from the ventilation chamber 101 to the exhaust chamber 103 can be shortened, so that the energy consumption is reduced, and the structure of the housing assembly 1 can be made small and compact.

As shown in fig. 4 and 5, when the fourth switching assembly 32 is disposed at the second outlet 101d and the fifth switching assembly 33 is disposed at the second inlet 101b between the front of the fresh air chamber 102 and the rear of the ventilation chamber 101, the fourth switching assembly 32 may be located above the fifth switching assembly 33, so as to ensure that the fifth switching assembly 33 and the fourth switching assembly 32 are installed in a large space and avoid interference between the two.

In some embodiments of the present invention, as shown in fig. 4 and 5, the fourth switch assembly 32 includes a second cross bar 322, the upper end of the second cross bar 322 is pivotally connected to the housing assembly 1, and the pivot axis of the second cross bar 322 extends along the left-right direction. Therefore, the fourth switch assembly 32 is simple in structure, convenient to control, small in occupied space and good in switch switching effect. In addition, referring to fig. 7, the fourth switch assembly 32 may further include a fourth driver 321, and the fourth driver 321 is directly connected to the second cross bar 322 to drive the second cross bar 322 to rotate, so that the fourth switch assembly 32 is simple in structure and convenient to control to switch between the open state and the closed state.

In some embodiments of the present invention, as shown in fig. 4 and 5, a centrifugal wind wheel 21 is provided in the ventilation chamber 101. From this, the arrangement of ventilation cavity 101, new trend cavity 102 and air exhaust cavity 103 accords with centrifugal wind wheel 21's operating characteristics for centrifugal wind wheel 21 can follow the rear side air inlet, from the upside air-out, thereby through utilizing centrifugal wind wheel 21, can improve the air volume, satisfies requirements such as big fresh air volume. It should be noted that the terms of orientation, such as up, down, left, right, front, and back, are used herein for simplicity and clarity of description, and are not to be construed as limiting the present application, for example, when the air treatment device 1000 is used in a floor air conditioner, the side of the floor air conditioner facing the user is front, the side facing away from the user is back, the up-down direction of the floor air conditioner is vertical, and the direction perpendicular to the vertical direction is horizontal.

For example, in the specific example shown in fig. 4 and 5, the ventilation chamber 101 may include a front chamber 1011, a rear chamber 1012, and an upper chamber 1013, the rear chamber 1012 being located in front of the fresh air chamber 102, the front chamber 1011 being located in front of the rear chamber 1012, the centrifugal wind wheel 21 being provided at the front chamber 1011, the upper chamber 1013 being located above the front chamber 1011 and the rear chamber 1012, the upper chamber 1013 being in communication with the top of the front chamber 1011, the top of the upper chamber 1013 being configured as the first outlet 101c, and the rear of the upper chamber 1013 being configured as the second outlet 101 d.

In addition, the fresh air component 100 may further include a driving motor 22 connected to the centrifugal wind wheel 21, so as to obtain the fan assembly 2 composed of the centrifugal wind wheel 21 and the driving motor 22, and the driving motor 22 is installed on the housing assembly 1, so that the centrifugal wind wheel 21 is located in the front chamber 1011, so that the front chamber 1011 can be used as a volute of the fan assembly 2.

In some embodiments of the present invention, as shown in fig. 2, the fresh air component 100 may further include: the fresh air duct 5, the air conditioning device 1000 may further include: and a seventh switch component 35, wherein one end of the fresh air pipe 5 defines a fresh air opening 303, and the other end of the fresh air pipe 5 is communicated with the fresh air chamber 102. The seventh switch assembly 35 is arranged in the fresh air duct 5, and when the seventh switch assembly 35 is in an open state, the fresh air chamber 102 is communicated with the outdoor space through the fresh air duct 5. Therefore, by providing the seventh switch unit 35, the air-tightness of the entire air processing apparatus 1000 can be improved without using the fresh air duct 5 for intake or exhaust.

Specifically, the seventh switching component 35 is switchable between an open state and a closed state. As shown in fig. 2, when the seventh switch assembly 35 is in the open state, the fresh air chamber 102 can introduce the outdoor air from the outside through the fresh air pipe 5, that is, if the air pressure of the fresh air chamber 102 is lower than the outdoor air pressure, the outdoor air flows into the fresh air pipe 5 and then enters the fresh air chamber 102. As shown in fig. 3, when the seventh switch component 35 is in the off state, the fresh air chamber 102 cannot introduce outdoor air from the outside through the fresh air duct 5, that is, at this time, if the air pressure of the fresh air chamber 102 is lower than the outdoor air pressure, the outdoor air cannot flow into the fresh air duct 5, or the outdoor air may flow into the fresh air duct 5, but the air in the fresh air duct 5 cannot enter the fresh air chamber 102, or the outdoor air cannot flow into the fresh air duct 5, and the air in the fresh air duct 5 cannot enter the fresh air chamber 102. As shown in fig. 4, when the seventh switch assembly 35 is in the open state, if the air pressure in the fresh air chamber 102 is greater than the outdoor air pressure, the air in the fresh air chamber 102 is exhausted to the outside through the fresh air pipe 5.

It should be noted that the fresh air duct 5 can be connected to the outside through a fresh air hose, so that convenience and reliability of communication between the fresh air duct 5 and the outside can be improved. In addition, it should be noted that the number of the fresh air ducts 5 is not limited, and may be one or more, and when a plurality of fresh air ducts are provided, a plurality of fresh air ducts 5 may be used simultaneously, or only one of the fresh air ducts may be used, and the others may be left for standby. It should be noted that the specific structure of the seventh switch assembly 35 is not limited, for example, the seventh switch assembly 35 may include a fifth driver and a fifth baffle, and the fifth driver drives the fifth baffle to rotate, so that the structure of the seventh switch assembly 35 is simple and the seventh switch assembly 35 is easy to control to switch between the open state and the closed state.

As can be seen from the above description, the return air inlet 301 can be used as an air inlet with an internal circulation function and an air inlet with an air exhaust function, the fresh air inlet 303 can be used as an air inlet with a fresh air function and a first air outlet with an air exhaust function, and the first air outlet 3021 can be used as a first air outlet with a fresh air function and a first air outlet with an internal circulation function.

In addition, when the fresh air component 100 includes the casing assembly 1, and the casing assembly 1 is located in the casing member 300, both the air return opening 301 and the first air outlet 3021 may be formed on the casing member 300, as shown in fig. 2 to 4, the fresh air opening 303 is formed on the fresh air duct 5, the casing assembly 1 may be formed with the outdoor fresh air opening 104, the indoor air return opening 105, and the first inner air outlet 1061, the outdoor fresh air opening 104 is communicated with the fresh air chamber 102, the indoor air return opening 105 is communicated with the ventilation chamber 101, the first inner air outlet 1061 is communicated with the exhaust chamber 103, the outdoor fresh air opening 104 is communicated with the fresh air opening 303 through the fresh air duct 5, the indoor air return opening 105 is communicated with the air return opening 301, and the first inner air outlet 1061 is communicated with the first air outlet 3021.

In some embodiments of the present invention, as shown in fig. 2 to 4, the outdoor fresh air opening 104 may be formed at a rear side of a lower portion of the case assembly 1, as shown in fig. 7 to 9, the indoor return air opening 105 may be formed at left and right sides of the lower portion of the case assembly 1, and the first inner air outlet 1061 may be formed at a front side of an upper portion of the case assembly 1 and/or left and right sides of the upper portion. Therefore, the indoor air outlet and the indoor air return are far away from each other, the air return problem is avoided, the air outlet area can be enlarged as much as possible, the air outlet requirement is guaranteed, the air inlet area is enlarged as much as possible, and the air inlet requirement is guaranteed. Of course, the utility model discloses be not limited to this, outdoor fresh air inlet 104, indoor return air inlet 105 and first interior air outlet 1061's quantity and set up the position and can also according to actual conditions specific adjustment, as long as satisfy the ventilation requirement of above-mentioned function can, do not describe here again.

In some embodiments of the present invention, as shown in fig. 5 and 6, the air treatment assembly 4 may be detachably mounted, for example, the surface of the housing assembly 1 is formed with a mounting/dismounting opening 113, the air treatment assembly 4 includes the treatment module 40, the treatment module 40 may be one or more, wherein at least one treatment module 40 is adapted to be inserted into the exhaust chamber 103 through the mounting/dismounting opening 113, that is, the mounting/dismounting opening 113 is used for inserting the treatment module 40, at least one treatment module 40 can be inserted into the exhaust chamber 103 through the mounting/dismounting opening 113, and can be pulled out from the exhaust chamber 103 through the mounting/dismounting opening 113, thereby facilitating the mounting/dismounting of the air treatment assembly 4, and facilitating the cleaning, replacement, maintenance, etc. of the air treatment assembly 4. It should be noted that the specific type of each processing module 40 is not limited, and may be, for example, a humidification module, a filter screen module, a formaldehyde removal module, a VO removal module, a dust removal module, an allergen removal module, a disinfection and sterilization module, or an odor removal module.

In some embodiments of the present invention, as shown in fig. 5 and 6, the air treatment assembly 4 includes a plurality of treatment modules 40, at least one of which is a first module 401, and at least one of which is a second module 402, that is, the air treatment assembly 4 includes at least one first module 401 and at least one second module 402, a plurality of installation portions 1030 are provided on the inner wall of the exhaust chamber 103, the installation portions 1030 are spaced apart, a first installation position 1031 is defined between two adjacent installation portions 1030, the first installation position 1031 is used for installing the first module 401, the first installation position 1031 is a plurality of and stacked arrangements, a second installation position 1032 is constructed by two adjacent first installation positions 1031, and the second installation position 1032 is used for installing the second module 402.

Therefore, the interchangeability of different first modules 401, the interchangeability of different second modules 402, and the interchangeability of first modules 401 and second modules 402 can be achieved, that is, a user can replace the processing module 40 according to different needs, for example, different types of first modules 401 can be installed at any first installation position 1031, different types of second modules 402 can be installed at the second installation position 1032, or a corresponding number of first modules 401 can be installed at the second installation position 1032, and so on, so that the actual use requirements of the user can be better met. It should be noted that the specific configuration of the mounting portion 1030 is not limited, and for example, the mounting portion may be configured as a support shaft, a support plate, a support rail, or the like, which is not described herein in detail.

In addition, in order to improve the mounting stability and size of the process module 40, the process module 40 may be configured in a slanted insertion structure, for example, when the mounting/dismounting port 113 is formed on the front surface of the housing assembly 1, the process module 40 may be configured to be inserted and mounted from front to back and from top to bottom, so that not only the size of the process module 40 in the exhaust chamber 103 may be increased to improve the air treatment effect, but also the mounting stability of the process module 40 may be improved to avoid the problem that the process module 40 automatically comes out from the mounting/dismounting port 113 from back to front. Of course, the present invention is not limited to this, and the processing module 40 may be set to be horizontally inserted, so that the size of the processing module 40 in the vertical direction may be reduced, and the compactness of the processing module 40 may be improved.

In some embodiments of the present invention, as shown in fig. 4 and 5, the housing assembly 1 may include an upper housing assembly 11 and a lower housing assembly 12, the upper housing assembly 11 is assembled above the lower housing assembly 12, the upper housing assembly 11 defines an exhaust chamber 103, the lower housing assembly 12 defines a ventilation chamber 101 and a fresh air chamber 102, the upper housing assembly 11 may include an upper housing 111 and a lower housing 112, the upper housing 111 is assembled above the lower housing 112, the air treatment assembly 4 is installed in the lower housing 112, a first inner air outlet 1061 is formed on the upper housing 111, the first inner air outlet 1061 may be respectively disposed at a front portion of left and right side walls of the upper housing 111, and the first inner air outlet 1061 is adapted to communicate between the indoor and exhaust chamber 103. Therefore, the shell assembly 1 is simple in structure, convenient to process the first inner air outlet 1061 and convenient to process a structure for mounting the air treatment assembly 4.

In some embodiments, as shown in fig. 4, 7-9, the rear side of the lower casing assembly 12 is provided with an outdoor fresh air opening 104, the left and right sides of the lower casing assembly 12 are respectively provided with an indoor return air opening 105, and the first inner air outlet 1061 is provided at the left and right sides of the upper casing assembly 11. Therefore, the indoor air outlet and the indoor air return are far away from each other, the air return problem is avoided, the air outlet area can be enlarged as much as possible, the air outlet requirement is guaranteed, the air inlet area is enlarged as much as possible, and the air inlet requirement is guaranteed. Of course, the present invention is not limited thereto, for example, in other embodiments of the present invention, the first inner air outlet 1061 may also be disposed at the front side of the upper housing assembly 11. In addition, the number and the arrangement positions of the outdoor fresh air inlet 104, the indoor return air inlet 105 and the first inner air outlet 1061 can be specifically adjusted according to actual conditions, as long as the ventilation requirements of the above functions are met, and are not described herein again.

In some embodiments, as shown in FIG. 5, the lower shell assembly 12 may be formed from several sub-shells that are joined together to facilitate assembly. For example, in some embodiments, the lower housing 12 may be composed of a first housing 121, a second housing 122, a third housing 123, and a fourth housing 124, which will be described later, to facilitate the processing of the fresh air chamber 102 and the ventilation chamber 101, and in some embodiments, the installation of the fourth switch assembly 32, the fifth switch assembly 33, and the fan assembly 2.

In some embodiments of the present invention, as shown in fig. 4 and 5, the lower shell assembly 12 may include a first shell 121, the first shell 121 may be an integrally formed component, the fourth switch assembly 32 may be installed on the first shell 121, and the fifth switch assembly 33 may also be installed on the first shell 121 at the same time. Therefore, the fourth switch component 32 and the fifth switch component 33 are mounted on the same housing, i.e., the first housing 121, so that the assembly can be simplified, the routing of the drivers can be facilitated, and for example, the fourth driver 321 and the third driver can be mounted on the first housing 121, the routing of the fourth driver 321 and the third driver can be facilitated, and the neatness and the safety of the routing can be improved.

In some embodiments of the present invention, as shown in fig. 4 and 5, the housing assembly 1 may further include a second housing 122, the second housing 122 is located at the rear side of the first housing 121, the second housing 122 is assembled with the first housing 121, the second housing 122 and the first housing 121 together define the fresh air chamber 102, the first housing 121 has a first open opening 107 (i.e., the second outlet 101d) and a second open opening 108 (i.e., the second inlet 101b), and the first open opening 107 is located above the second open opening 108.

The upper portion of the fresh air chamber 102 is communicated with the first open port 107, the fourth switch component 32 is used for controlling the opening and closing of the first open port 107, when the first open port 107 is opened, the fresh air chamber 102 is communicated with the first open port 107, the front side of the fresh air chamber 102 is communicated with the second open port 108, the fifth switch component 33 is used for controlling the opening and closing of the second open port 108, and when the second open port 108 is opened, the fresh air chamber 102 is communicated with the second open port 108.

Therefore, by arranging the first open opening 107 and the second open opening 108 vertically on the first casing 121, it can be ensured that the installation and the work of the fourth switch component 32 and the fifth switch component 33 do not affect each other, do not interfere with each other, and further, the structure of the first casing 121 can be simplified, according to the embodiment of the present invention, the first casing 121 has a simple, compact and small structure.

In some embodiments of the present invention, as shown in fig. 4 and 5, the ventilation chamber 101 may include three chambers, namely, a front chamber 1011, a rear chamber 1012 located at the rear side of the front chamber 1011, and an upper chamber 1013 located above the front chamber 1011 and the rear chamber 1012, wherein the upper first outlet 101c of the upper chamber 1013 serves as, communicating with the exhaust chamber 103, and the front chamber 1011 is located by the fan assembly 2. The housing assembly 1 further includes a third housing 123 and a fourth housing 124, the third housing 123 is located at the front side of the first housing 121, the third housing 123 is assembled with the first housing 121, the third housing 123 and the first housing 121 together define a rear chamber 1012, the fourth housing 124 is located at the front side of the third housing 123, the fourth housing 124 and the third housing 123 are assembled and connected, the fourth housing 124 and the third housing 123 together define a front chamber 1011, so that the fourth housing 124 and the third housing 123 can be used as a volute of the blower assembly 2.

As shown in fig. 4 and 5, a third open opening 109 is formed between the fourth housing 124 and the third housing 123 above the front chamber 1011, and the third open opening 109 may be formed on at least one of the fourth housing 124 and the third housing 123. The first housing 121, the third housing 123 and the fourth housing 124 define an upper chamber 1013 therebetween, and the upper chamber 1013 may be defined by the first housing 121 and the third housing 123, or may be defined by the first housing 121, the fourth housing 124 and the third housing 123.

In addition, in some embodiments of the present invention, the first housing 121 may be an integrally formed part, the second housing 122 may be an integrally formed part, the third housing 123 may be an integrally formed part, the fourth housing 124 may be an integrally formed part, the upper housing 111 may be an integrally formed part, and the lower housing 112 may be an integrally formed part, so that the processing and the assembly are convenient, and the structural reliability of the housing assembly 1 can be improved.

As shown in fig. 4, the front lower side of the upper chamber 1013 can communicate with the third open port 109, so that the upper chamber 1013 is in communication with the front chamber 1011 when the third open port 109 assumes an open state. The rear of the upper chamber 1013 is capable of communicating with the first open mouth 107, such that the upper chamber 1013 is in communication with the fresh air chamber 102 when the first open mouth 107 is in the open state. Thus, when the fourth switch assembly 32 opens the first open port 107, the air in the ventilation chamber 101 can flow into the fresh air chamber 102 through the front chamber 1011, the upper chamber 1013 and the first open port 107, so that the ventilation chamber 101 can be exhausted to the fresh air chamber 102 when the fourth switch assembly 32 is in the open state.

In addition, the air in the ventilation chamber 101 may also flow into the exhaust chamber 103 through the front chamber 1011 and the upper chamber 1013 in some cases, so that the ventilation chamber 101 may be exhausted to the exhaust chamber 103. Therefore, the housing assembly 1 has a simple, compact, small and compact structure, a short and simple gas flow path, and can effectively realize the switching of the above-mentioned various functions.

In some embodiments of the present invention, as shown in fig. 5 and 7-9, the left and right sides of the lower shell component 12 are respectively formed with the indoor air return 105, the indoor air return 105 can be formed on at least one of the first shell 121 and the second shell 122, and the indoor air return 105 is located at the front side of the fresh air chamber 102 and can be communicated with the rear chamber 1012. Therefore, by arranging the indoor air return opening 105 and the position of the fifth switch assembly 33 as above, it can be ensured that when the fifth switch assembly 33 closes the second open opening 108, the indoor air return opening 105 is not affected to provide air flow to the rear cavity 1012 of the ventilation chamber 101, so that the structure of the housing assembly 1 is simple, the design and the processing are convenient, and the switching requirements of the above-mentioned multiple functions can be effectively satisfied.

It should be noted that the exhaust control valve 31, the fourth switch component 32, the fifth switch component 33, the sixth switch component 34, and the seventh switch component 35 are not limited to have only two states of an open state and a closed state, for example, the opening degree may be set to be adjustable, for example, the opening degree may also have a half-open state, and the like, so as to meet different use requirements, and details are not described herein.

In addition, the specific composition, size, position, movement manner of the exhaust control valve 31, the fourth switch component 32, the fifth switch component 33, the sixth switch component 34 and the seventh switch component 35 and the number of the included valve units are not limited to the above description, and may also be specifically designed according to the actual situation as long as the above functional requirements can be met, and are not described herein again.

It should be noted that, the application scenario of the air processing apparatus 1000 according to the embodiment of the present invention is not limited, and for example, the air processing apparatus can be used for an air conditioner or an air purifier, and the description is omitted here. Next, the air treatment device 1000 will be described as an example of an air conditioner.

As shown in fig. 1, the air conditioning device 1000 is an air conditioner and may include: the air heat exchange part 200, the air heat exchange part 200 is used for temperature air conditioning. Therefore, according to the utility model discloses air conditioning equipment 1000 can possess inner loop function, new trend function and the function of airing exhaust to satisfy user's different demands.

It should be noted that, according to the embodiment of the present invention, the specific type of the air conditioner is not limited, for example, the air conditioner can be a split air conditioner or an air conditioner all-in-one machine, wherein, the split air conditioner can include an indoor unit and an outdoor unit, both the air heat exchange component 200 and the fresh air component 100 can be disposed in the indoor unit, and wherein, the air conditioner all-in-one machine can be a mobile air conditioner or a window machine, etc.

It should be noted that the setting position of the fresh air component 100 on the air conditioning device 1000 is not limited, for example, in some embodiments of the present invention, when the fresh air component 100 is applied to a cabinet type indoor unit, the fresh air component 100 may be set at the lower side of the machine body of the cabinet type indoor unit. In addition, it is understood that the air heat exchanging part 200 may include a heat exchanger and/or an electric auxiliary heater, and in addition, when the air conditioning apparatus 1000 is an air conditioner, an air duct part 400 for allowing an air flow to pass through the air heat exchanging part 200 may be further included, which is not described herein.

For example, as shown in fig. 1, fig. 10 to fig. 12, the housing part 300 may include a front panel 304, a rear case 305, a bottom case 306, a top case 307, an air outlet frame 308, and the like, wherein the front panel 304 and the rear case 305 are respectively disposed at front and rear sides of the air outlet frame 308, the air outlet frame 308 is provided with a first air outlet 3021, a first switch assembly 31a is disposed corresponding to the first air outlet 3021 and is used for opening or closing the first air outlet 3021, the rear case 305 is composed of one or more pieces and is provided with an air return opening 301, and the sixth switch assembly 34 is disposed at the air return opening 301. In addition, a heat exchange air inlet 3091 and a heat exchange air outlet 3092, which communicate with the air duct part 400, may be formed at the housing part 300.

The utility model discloses an in some embodiments, both sides in the backshell 305 can be provided with the stand, are used for installing fixed air heat transfer part 200 and new trend part 100 and electrical control unit etc. backshell 305 inboard can set up direction seal structure, and new trend part 100 slides the cooperation with the direction seal structure direction to make things convenient for the installation of new trend part 100.

Next, an air conditioning device 1000 according to one specific example of the present invention is described.

The air conditioning device 1000 includes: the air duct component 400, the air heat exchange component 200 and the fresh air component 100 are all arranged in the casing component 300, the air duct component 400 comprises a cross-flow fan, a first air outlet 3021, a second air outlet 3022, an air return inlet 301, a heat exchange air inlet 3091 and a heat exchange air outlet 3092 are formed on the casing component 300, the fresh air component 100 comprises a casing assembly 1, an indoor air return inlet 105, a first inner air outlet 1061 and a second inner air outlet 1062 are formed on the casing assembly 1, the fresh air component 100 comprises a fresh air pipe 5, one end of the fresh air pipe 5 is a fresh air inlet 303, a first switch assembly 31a is arranged at the first air outlet 3021, a second switch assembly 31b is arranged at the second inner air outlet 1062, a fourth switch assembly 32 and a fifth switch assembly 3333 are arranged in the casing assembly 1 of the fresh air component 100, a sixth switch assembly 34 is arranged at the air return inlet 301, a seventh switch component 35 is arranged in the fresh air pipe 5.

In the heat exchange mode, the air duct part 400 works, indoor air enters the housing part 300 through the heat exchange air inlet 3091, is heat exchanged by the air heat exchange part 200, and is discharged indoors through the heat exchange air outlet 3092, so that the temperature adjustment effect of the indoor air is realized.

In the fresh air operation mode, as shown in fig. 2, the first switch component 31a is in an open state, the second switch component 31b is in an open state, the fourth switch component 32 is in a closed state, the fifth switch component 33 is in an open state, the sixth switch component 34 is in a closed state, and the seventh switch component 35 is in an open state, when the centrifugal wind wheel 21 operates, outdoor fresh air enters the fresh air chamber 102 through the fresh air pipe 5, then enters the ventilation chamber 101 through the fresh air chamber 102, then is discharged to the exhaust chamber 103 from the ventilation chamber 101, is processed by the air processing component 4, is discharged out of the housing component 1 through the first inner air outlet 1061 and the second inner air outlet 1062, and then is discharged to the indoor through the first air outlet 3021 and the second air outlet 3022 on the casing component 300. Therefore, the fresh air function of introducing fresh air from the outdoor to the indoor can be realized.

In the internal circulation operation mode, as shown in fig. 3, the first switch assembly 31a is in an open state, the second switch assembly 31b is in an open state, the fourth switch assembly 32 is in a closed state, the fifth switch assembly 33 is in a closed state, the sixth switch assembly 34 is in an open state, the seventh switch assembly 35 is in a closed state, when the centrifugal wind wheel 21 operates, indoor air enters the casing part 300 through the air return opening 301, then enters the ventilation chamber 101 through the indoor air return opening 105, then is discharged to the exhaust chamber 103 from the ventilation chamber 101, and after being processed by the air processing assembly 4, is discharged out of the casing assembly 1 through the first inner air outlet 1061 and the second inner air outlet 1062, and then is discharged to the indoor through the first air outlet 3021 and the second air outlet 3022 on the casing part 300. Therefore, an internal circulation function of introducing air from the room, treating it by the air treatment unit 4, and then discharging it back into the room can be realized.

In the air exhausting operation mode, as shown in fig. 4, the first switch component 31a is in a closed state, the second switch component 31b is in a closed state, the fourth switch component 32 is in an open state, the fifth switch component 33 is in a closed state, the sixth switch component 34 is in an open state, and the seventh switch component 35 is in an open state, when the centrifugal wind wheel 21 operates, indoor air enters the casing part 300 through the air return opening 301, then enters the ventilation chamber 101 through the indoor air return opening 105, and is exhausted to the fresh air chamber 102 from the ventilation chamber 101, and the fresh air chamber 102 exhausts the air to the outside through the fresh air pipe 5. Therefore, the air exhausting function of introducing air from the indoor and then exhausting the air to the outdoor can be realized, and the effect of exhausting the indoor dirty air to the outdoor can be achieved.

Other configurations and operations of the air conditioning device 1000 according to the embodiment of the present invention are known to those skilled in the art and will not be described in detail herein.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used 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 one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (16)

1. An air conditioning device characterized by comprising:

the air conditioner comprises a machine shell part, a first air outlet and a return air inlet are formed in the machine shell part, and the first air outlet and the return air inlet are both suitable for being communicated with the indoor space;

the fresh air component is arranged in the shell component and comprises a ventilation cavity, a fresh air cavity and an exhaust cavity, the fresh air cavity is suitable for being communicated with the outside, the inlet of the ventilation cavity is suitable for being communicated with the fresh air cavity and/or the return air inlet, the outlet of the ventilation cavity is suitable for being communicated with the exhaust cavity and the fresh air cavity, and the exhaust cavity is suitable for being communicated with the first air outlet; and

the first switch assembly is installed on the shell part and comprises a first driver and a first switch valve, the first switch valve is arranged at the first air outlet, and the first driver drives the first switch valve to switch the first air outlet;

and the switching valve assembly is used for switching the on-off state of the outlet of the ventilation cavity and the fresh air cavity and the on-off state of the inlet of the ventilation cavity and the fresh air cavity.

2. The air conditioning device according to claim 1, characterized in that the first switching valve includes: the plurality of baffles are sequentially arranged along the transverse direction or the longitudinal direction of the first air outlet, each baffle is pivotally connected with the shell part, and when the first switch valve is switched to a closed state, the plurality of baffles jointly cover the first air outlet.

3. The air conditioning unit of claim 2, wherein the first on-off valve further comprises a link pivotally connected to each of the shutters, the first actuator driving one of the shutters to rotate, the driven shutter driving the remaining shutters to rotate via the link.

4. The air conditioning unit according to claim 1, characterized in that the first driver includes: the mounting seat is mounted on the machine shell component through a buckle structure and a thread fastening structure, and the driving motor is mounted on the mounting seat.

5. The air conditioning unit of claim 4, wherein the mounting base has a wire buckle structure thereon.

6. The air conditioning device according to claim 1, wherein the housing member includes an air outlet frame and a front panel, the air outlet frame includes a left side frame and a right side frame, the left side frame and the right side frame are respectively located at left and right sides of the front panel, the first air outlet is respectively formed on the left side frame and the right side frame, and the first switch assembly is respectively installed on the left side frame and the right side frame.

7. The air conditioning device according to claim 1, wherein the fresh air component includes:

the shell assembly is arranged in the shell part, the ventilation cavity, the fresh air cavity and the exhaust cavity are formed in the shell assembly, and a first inner air outlet which is suitable for being communicated with the first air outlet is formed in the shell assembly.

8. The air conditioning device according to claim 7, characterized in that the first air outlet is formed on both left and right sides of the cabinet member, a second air outlet adapted to communicate with the indoor is formed on a front surface of the cabinet member, a second inner air outlet adapted to communicate with the second air outlet is formed on a top of the case assembly, and the second inner air outlet communicates with the air discharge chamber.

9. The air conditioning device according to claim 8, characterized by further comprising: the second switch assembly, the second switch assembly install in the casing assembly, and include second driver and second ooff valve, the second ooff valve is located air outlet department in the second, the drive of second driver the second ooff valve switch air outlet in the second.

10. The air conditioning unit according to claim 8, wherein the air discharge chamber includes an upstream chamber and a downstream chamber, an inlet of the upstream chamber is communicated to the ventilation chamber, an outlet of the upstream chamber is communicated to an inlet of the downstream chamber, and an outlet of the downstream chamber is communicated to the first inner outlet port and the second inner outlet port, the air conditioning unit further comprising: and the third switch component is arranged at the communication position of the upstream cavity and the downstream cavity and is used for controlling the on-off of the upstream cavity and the downstream cavity.

11. The air conditioning unit of claim 1, wherein the switching valve assembly comprises:

the fourth switch assembly is arranged at the outlet of the ventilation cavity and enables the outlet of the ventilation cavity and the fresh air cavity to be communicated in an opening state;

and the fifth switch component is arranged at the inlet of the ventilation cavity, and enables the inlet of the ventilation cavity and the fresh air cavity to be in a communicated state in an opening state.

12. The air conditioning device according to claim 1, characterized by further comprising:

and the sixth switch assembly is arranged at the air return opening and enables the inlet of the ventilation chamber to be communicated with the indoor space through the air return opening in an opening state.

13. The air conditioning device according to claim 1, wherein the fresh air component includes:

the air treatment assembly is arranged in the exhaust chamber.

14. The air conditioning device according to claim 1, wherein the fresh air component includes:

a fan assembly located in the ventilation chamber.

15. The air conditioning unit of claim 1, wherein the fresh air component comprises a fresh air duct, one end of the fresh air duct defining a fresh air opening, the other end of the fresh air duct communicating with the fresh air chamber; the air conditioning device comprises a seventh switch assembly, the seventh switch assembly is arranged on the fresh air pipe, and the fresh air chamber is communicated with the outdoor space through the fresh air pipe when the seventh switch assembly is in an open state.

16. The air conditioning unit according to any one of claims 1 to 15, characterized in that the air conditioning unit is an air conditioner, and the air conditioning unit further comprises: an air heat exchange component for temperature regulation.

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