CN211085329U - Indoor environment sensing system - Google Patents

Abstract

The utility model discloses an indoor environment perception system, including the rear end server, mobile terminal and determine module, determine module's formaldehyde sensor, a weighing sensor and a temperature sensor, humidity transducer, the PM2.5 sensor, PM10 sensor, the TVOC sensor, the indoor environment information that carbon dioxide sensor will detect sends for data processor, data processor sends for the controller after turning into digital signal information with the information received, the controller sends digital signal information for rear end server and mobile terminal or controller through wireless transceiver with digital signal information transmission for the rear end server through wireless transceiver, mobile terminal connects the rear end server through the communication and acquires corresponding digital signal information. The utility model discloses indoor environment perception system detects indoor environment more accurately, more comprehensively, uses also more conveniently.

Description

Indoor environment sensing system

Technical Field

The utility model relates to an environment detection technology field, in particular to indoor environment perception system.

Background

Indoor environment detection device in the existing market is used for detecting indoor environment, but detects still accurate comprehensive inadequately, is difficult to satisfy the multiple detection demand that indoor environment detected to still can not carry out the data message that long-range observation analysis environment detected, it is not convenient enough to use.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an indoor environment perception system, it is also more convenient to aim at detecting more accurate, more comprehensive, use to indoor environment.

In order to achieve the above object, the present invention provides an indoor environment sensing system, which comprises a back-end server, a mobile terminal and a detection component, wherein the detection component comprises a wireless transceiver, a controller, a data processor, a formaldehyde sensor, a temperature sensor, a humidity sensor, a PM2.5 sensor, a PM10 sensor, a TVOC sensor and a carbon dioxide sensor,

the back-end server is electrically connected with the controller through the wireless transceiver,

the mobile terminal can be selectively connected with the back-end server or electrically connected with the controller through the wireless transceiver,

the formaldehyde sensor, the temperature sensor, the humidity sensor, the PM2.5 sensor, the PM10 sensor, the TVOC sensor and the carbon dioxide sensor are electrically connected with the data processor, the data processor and the wireless transceiver are electrically connected with the controller,

the formaldehyde sensor, a temperature sensor, a humidity sensor, a PM2.5 sensor, a PM10 sensor, a TVOC sensor, the indoor environmental information that the carbon dioxide sensor will detect sends for data processor, data processor sends for the controller after turning into digital signal information with the information received, the controller sends digital signal information for rear-end server and mobile terminal or controller through wireless transceiver with digital signal information for rear-end server through wireless transceiver, mobile terminal connects the rear-end server through the communication and acquires corresponding digital signal information.

Preferably, the air conditioner further comprises a shell, wherein the shell is internally provided with a fan, a circuit board, the controller, the data processor, the formaldehyde sensor, the temperature sensor, the humidity sensor, the PM2.5 sensor, the PM10 sensor, the TVOC sensor and the carbon dioxide sensor, the controller is arranged on the circuit board and is electrically connected with the fan, the data processor is arranged on the circuit board, the shell is provided with a first air inlet hole and an air outlet hole,

the indoor environment sensing system also comprises a power supply and a partition board, the shell comprises a front cover and a rear shell, one surface of the rear shell is provided with a groove, the other surface of the rear shell is provided with a supporting block, an accommodating cavity is arranged in the supporting block, the bottom wall of the groove is provided with a through hole communicated with the accommodating cavity, the front cover covers the groove of the rear shell,

the two opposite side walls of the supporting block are respectively provided with a first air inlet and an air outlet which are communicated with the accommodating cavity,

power, controller, fan, circuit board formaldehyde sensor temperature sensor humidity transducer PM2.5 sensor PM10 sensor TVOC sensor reaches the holding intracavity is all arranged in to carbon dioxide sensor and baffle, the power is located the diapire in holding chamber, and the circuit board is located the upper end of power, be equipped with the baffle between power and the circuit board, the fan is located air outlet department and is located the upper end of circuit board, formaldehyde sensor temperature sensor humidity transducer PM2.5 sensor PM10 sensor TVOC sensor reaches carbon dioxide sensor all is located first inlet opening department and is located the upper end of circuit board.

Preferably, the supporting block is further provided with a second air inlet hole, the second air inlet hole is formed in the upper end of the supporting block and communicated with the accommodating cavity, the PM2.5 sensor and the PM10 sensor are located at the first air inlet hole, the formaldehyde sensor is located at one end, away from the first air inlet hole, of the PM2.5 sensor or the PM10 sensor, and the humidity sensor, the temperature sensor, the TVOC sensor and the carbon dioxide sensor are located at the second air inlet hole.

Preferably, the indoor environment sensing system further comprises a display screen, a hole corresponding to the display screen is formed in the front cover, the display screen is arranged in the groove and exposed out of the front cover through the hole, and the display screen is electrically connected to the controller.

Preferably, the support block is integrally formed with the rear case.

Preferably, the supporting block has a triangular structure.

Preferably, the indoor environment detection device further comprises a charging port electrically connected with the power supply, wherein the charging port is located at one end, far away from the rear shell, of the supporting block and is arranged corresponding to the position of the power supply.

Preferably, this indoor environment detection device still includes the switch, switch electric connection fan, the switch is located the one side that the supporting shoe is equipped with the exhaust vent.

Preferably, the first air inlet hole, the air outlet hole and the second air inlet hole are all formed by a plurality of hole arrays.

Preferably, when the front cover and the display screen are separated from the rear case, the power supply, the controller, the fan, the circuit board, the formaldehyde sensor, the temperature sensor, the humidity sensor, the PM2.5 sensor, the PM10 sensor, the TVOC sensor, the carbon dioxide sensor, and the partition board are exposed at the hole.

The utility model discloses technical scheme passes through rear end server, mobile terminal and determine module, determine module includes wireless transceiver, controller, data processor, formaldehyde sensor, temperature sensor, humidity transducer, PM2.5 sensor, PM10 sensor, TVOC sensor and carbon dioxide sensor, the rear end server passes through wireless transceiver electric connection controller, the optional connection rear end server of mobile terminal or through wireless transceiver electric connection controller, formaldehyde sensor, temperature sensor, humidity transducer, PM2.5 sensor, PM10 sensor, TVOC sensor, carbon dioxide sensor electric connection data processor, the equal electric connection controller of data processor and wireless transceiver, formaldehyde sensor, temperature sensor, humidity transducer, PM2.5 sensor, PM10 sensor, The TVOC sensor and the carbon dioxide sensor send detected indoor environment information to the data processor, the data processor converts the received information into digital signal information and sends the digital signal information to the controller, the controller sends the digital signal information to the rear-end server and the mobile terminal through the wireless transmitter-receiver or the controller sends the digital signal information to the rear-end server through the wireless transmitter-receiver, the mobile terminal is connected with the rear-end server through communication to acquire corresponding digital signal information, so that the detection assembly can be manufactured more highly integrated, the indoor environment detection is more accurate and comprehensive, the requirements of various aspects of indoor environment detection can be met, the controller sends the digital signal information to the rear-end server and the mobile terminal or the controller through the wireless transmitter-receiver and sends the digital signal information to the rear-end server through the wireless transmitter-receiver, the mobile terminal is connected with the back-end server through communication to acquire corresponding digital signal information, so that a user can remotely observe and analyze data information detected by the environment, and the mobile terminal is more convenient to use.

Drawings

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

Fig. 1 is a schematic perspective view of an embodiment of a detection assembly of an indoor environment sensing system according to the present invention;

FIG. 2 is a schematic structural diagram of another embodiment of a detection assembly of the indoor environmental awareness system of FIG. 1;

FIG. 3 is a schematic view of the detecting assembly of the indoor environmental sensing system of FIG. 1 with a display screen omitted;

FIG. 4 is a schematic perspective view of another view angle of the detecting assembly of the indoor environment detecting device of FIG. 3;

fig. 5 is a block diagram of a circuit connection structure of the indoor environment detection apparatus of fig. 1.

The reference numbers illustrate:

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

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

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

In the present application, unless expressly stated or limited otherwise, the terms "connected" and "fixed" are to be construed broadly, e.g., "fixed" may be fixedly connected or detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. 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 addition, descriptions in the present application as to "first", "second", and the like are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides an indoor environment perception system.

Referring to fig. 5, in an embodiment of the present invention, the indoor environment sensing system includes a backend server 2000, a mobile terminal 3000 and a detection assembly 1000, wherein the detection assembly 1000 includes a wireless transceiver 100, a controller 20, a data processor 50, a formaldehyde sensor 130, a temperature sensor 140, a humidity sensor 150, a PM2.5 sensor 160, a PM10 sensor 170, a TVOC sensor 180 and a carbon dioxide sensor 190,

the backend server 2000 is electrically connected to the controller 20 through the wireless transceiver 100,

the mobile terminal 3000 may be selectively connected to the backend server 2000 or electrically connected to the controller 20 through the wireless transceiver 100,

the formaldehyde sensor 130, the temperature sensor 140, the humidity sensor 150, the PM2.5 sensor 160, the PM10 sensor 170, the TVOC sensor 180, and the carbon dioxide sensor 190 are electrically connected to the data processor 50, the data processor 50 and the wireless transceiver 100 are electrically connected to the controller 20,

the formaldehyde sensor 130, the temperature sensor 140, the humidity sensor 150, the PM2.5 sensor 160, the PM10 sensor 170, the TVOC sensor 180, and the carbon dioxide sensor 190 send detected indoor environment information to the data processor 50, the data processor 50 converts the received information into digital signal information and sends the digital signal information to the controller 20, the controller 20 sends the digital signal information to the backend server 2000 and the mobile terminal 3000 through the wireless transceiver 100 or the controller 20 sends the digital signal information to the backend server 2000 through the wireless transceiver 100, and the mobile terminal 3000 is connected to the backend server 2000 through communication to acquire corresponding digital signal information.

The wireless transceiver 100 may be a WIFI or 4G, 5G network communication device, etc., wherein the controller 20 and the data processor 50 are both designed conventionally, and a controller and a data processor commonly used in the market are adopted, wherein the formaldehyde sensor 130 is used for detecting a formaldehyde concentration in an indoor environment and sending the formaldehyde concentration to the data processor 50, the temperature sensor 140 is used for detecting a temperature in the indoor environment and sending the temperature to the data processor 50, the PM2.5 sensor 160 is used for detecting a PM2.5 value in the indoor environment and sending the PM2.5 value to the data processor 50, the PM10 sensor 170 is used for detecting a PM10 value in the indoor environment and sending the PM10 value to the data processor 50, the TVOC sensor 180 is used for detecting a TVOC gas concentration in the indoor environment and sending the TVOC gas concentration to the data processor 50, the carbon dioxide sensor 190 is used for detecting a carbon dioxide gas concentration in the indoor environment and sending the data processor 50, data processor 50 sends the data message that the aforesaid was obtained to controller 20 to this makes more highly integrated that detecting element 1000 can make, and also more accurate, more comprehensive to indoor environment detection, can satisfy the many-sided demand to indoor environment detection, still send digital signal information for rear-end server 2000 and mobile terminal 3000 or controller 20 through wireless transceiver 100 with digital signal information for rear-end server 2000 through controller 20, mobile terminal 3000 obtains corresponding digital signal information through communication connection rear-end server 2000, but the data message that makes user long-range observation analysis environment detection, it is also more convenient to make it use.

Referring to fig. 1 to 4, further, the air conditioner further includes a housing 10, a blower 30, a circuit board 40, the controller 20, the data processor 50, the formaldehyde sensor 130, the temperature sensor 140, the humidity sensor 150, the PM2.5 sensor 160, the PM10 sensor 170, the TVOC sensor 180, and the carbon dioxide sensor 190 are disposed in the housing 10, the controller 20 is disposed on the circuit board 40 and electrically connected to the blower 30, the data processor 50 is disposed on the circuit board 40, the housing 10 is disposed with a first air inlet 92 and an air outlet 93,

the indoor environment sensing system further comprises a power supply 70 and a partition 80, the casing 10 comprises a front cover 11 and a rear casing 12, one side of the rear casing 12 is provided with a groove 121, the other side of the rear casing 12 is provided with a supporting block 90, an accommodating cavity 91 is arranged in the supporting block 90, the bottom wall of the groove 121 is provided with a through hole 122 communicated with the accommodating cavity 91, the front cover 11 covers the groove 121 of the rear casing 12,

the two opposite side walls of the supporting block 90 are respectively provided with the first air inlet hole 92 and the air outlet hole 93 which are communicated with the accommodating cavity 91,

the power source 70, the controller 20, the fan 30, the circuit board 40, the formaldehyde sensor 130, the temperature sensor 140, the humidity sensor 150, the PM2.5 sensor 160, the PM10 sensor 170, the TVOC sensor 180, the carbon dioxide sensor 190 and the partition board 80 are all disposed in the accommodating cavity 91, the power source 70 is located on the bottom wall of the accommodating cavity 91, the circuit board 40 is located on the upper end of the power source 70, the partition board 80 is disposed between the power source 70 and the circuit board 40, the fan 30 is located at the air outlet 93 and located on the upper end of the circuit board 40, the formaldehyde sensor 130, the temperature sensor 140, the humidity sensor 150, the PM2.5 sensor 160, the PM10 sensor 170, the TVOC sensor 180 and the carbon dioxide sensor 190 are all located at the first air inlet 92 and located on the upper end of the circuit board 40. The indoor environment sensing system further comprises a display screen 60, a hole 111 corresponding to the display screen 60 is formed in the front cover 11, the display screen 60 is arranged in the groove 121 and is exposed out of the front cover 11 through the hole 111, and the display screen 60 is electrically connected to the controller 20.

The fan 30 is used for realizing air flow, so that outside air enters through the first air inlet hole 92, the air outlet hole 93 is removed, heat dissipation of the circuit board 40 can be performed, the data processor 50 sends acquired data information to the controller 20, the controller 20 sends the information to the display screen 60 for display, the data processing is conventional design, specific data processing is not repeated any more, data information detected by the formaldehyde sensor 130, the temperature sensor 140, the humidity sensor 150, the PM2.5 sensor 160, the PM10 sensor 170, the TVOC sensor 180 and the carbon dioxide sensor 190 can be seen more quickly and intuitively through the display screen 60, and the use is more convenient.

By the blower 30 being located at the air outlet 93 and at the upper end of the circuit board 40, the formaldehyde sensor 130, the temperature sensor 140, the humidity sensor 150, the PM2.5 sensor 160, the PM10 sensor 170, the TVOC sensor 180 and the carbon dioxide sensor 190 being located at the first air inlet 92 and at the upper end of the circuit board 40, the formaldehyde sensor 130, the temperature sensor 140, the humidity sensor 150, the PM2.5 sensor 160, the PM10 sensor 170, the TVOC sensor 180 and the carbon dioxide sensor 190 are separated from the blower 30, the outside air firstly reaches the formaldehyde sensor 130, the temperature sensor 140, the humidity sensor 150, the PM2.5 sensor 160, the PM10 sensor 170, the TVOC sensor 180 and the carbon dioxide sensor 190 through the first air inlet 92, and finally is discharged from the air outlet 93 through the blower 30, and the formaldehyde sensor 130, the temperature sensor 140, the humidity sensor 150, the PM2.5 sensor 160, the PM10 sensor 170, the TVOC sensor 180 and the carbon dioxide sensor 190 are located at the first air inlet 92 and at the upper end of the circuit board 40, so that the detection is more accurate, and the power supply 70, the controller 20, the blower 30, the circuit board 40, the formaldehyde sensor 130, the temperature sensor 140, the humidity sensor 150, the PM2.5 sensor 160, the PM10 sensor 170, the TVOC sensor 180, the carbon dioxide sensor 190 and the partition plate 80 are all located in the accommodating cavity 91, the power supply 70 is located at the bottom wall of the accommodating cavity 91, the circuit board 40 is located at the upper end of the power supply 70, the partition plate 80 is arranged between the power supply 70 and the circuit board 40, so that the power supply 70 and the circuit board 40 are isolated from each other, the circuit board 40 can be mounted on the partition plate 80, the structure is simpler, the layout is more reasonable and compact, the assembly and the disassembly are convenient, the whole structure can be made smaller, the extra space is not occupied, and the use is more convenient.

Further, when the front cover 11 and the display screen 60 are separated from the rear case 12, the power supply 70, the controller 20, the blower 30, the circuit board 40, the formaldehyde sensor 130, the temperature sensor 140, the humidity sensor 150, the PM2.5 sensor 160, the PM10 sensor 170, the TVOC sensor 180, the carbon dioxide sensor 190 and the partition 80 are exposed to the hole 111.

Furthermore, the supporting block 90 is further provided with a second air inlet hole 94, the second air inlet hole 94 is arranged at the upper end of the supporting block 90 and communicated with the accommodating cavity 91, the PM2.5 sensor 160 and the PM10 sensor 170 are arranged at the first air inlet hole 92, the formaldehyde sensor 130 is arranged at one end of the PM2.5 sensor 160 or the PM10 sensor 170, which is far away from the first air inlet hole 92, and the humidity sensor 150, the temperature sensor 140, the TVOC sensor 180 and the carbon dioxide sensor 190 are all arranged at the second air inlet hole 94.

The first air inlet hole 92, the air outlet hole 93 and the second air inlet hole 94 are all composed of a plurality of hole arrays, the smoothness of air inlet can be further enhanced through the second air inlet hole 94, the PM2.5 sensor 160 and the PM10 sensor 170 are located at the first air inlet hole 92, the humidity sensor 150, the temperature sensor 140, the TVOC sensor 180 and the carbon dioxide sensor 190 are located at the second air inlet hole 94, the layout of the device is more reasonable, and detection is more accurate.

Further, the support block 90 is integrally formed with the rear case 12. The structure is simpler, and the manufacture and the assembly are more convenient and faster.

Further, the supporting block 90 has a triangular structure. The supporting block 90 can support part of the structure of the display screen 60 more stably through the triangular structure, so that the use of the display screen is more convenient.

Furthermore, the indoor environment detection device further comprises a charging port 110 electrically connected to the power source 70, wherein the charging port 110 is located at an end of the supporting block 90 away from the rear shell 12 and is disposed corresponding to the position of the power source 70. The power supply 70 inside the supporting block 90 can be charged conveniently through the charging port 110, so that the use is more convenient, and the charging port 110 is located at one end of the supporting block 90 far away from the rear shell 12 and is arranged corresponding to the position of the power supply 70, so that the layout is more reasonable.

Furthermore, the indoor environment detection device further comprises a switch 120, the switch 120 is electrically connected with the fan 30, and the switch 120 is located on the side, provided with the air outlet 93, of the supporting block 90, so that the layout of the indoor environment detection device is more reasonable.

The above only be the preferred embodiment of the utility model discloses a not consequently restriction the utility model discloses a patent range, all are in the utility model discloses a conceive, utilize the equivalent structure transform of what the content was done in the description and the attached drawing, or direct/indirect application all is included in other relevant technical field the utility model discloses a patent protection within range.

Claims (10)

1. An indoor environment sensing system is characterized by comprising a back-end server, a mobile terminal and a detection assembly, wherein the detection assembly comprises a wireless transmitter-receiver, a controller, a data processor, a formaldehyde sensor, a temperature sensor, a humidity sensor, a PM2.5 sensor, a PM10 sensor, a TVOC sensor and a carbon dioxide sensor,

the back-end server is electrically connected with the controller through the wireless transceiver,

the mobile terminal can be selectively connected with the back-end server or electrically connected with the controller through the wireless transceiver,

the formaldehyde sensor, the temperature sensor, the humidity sensor, the PM2.5 sensor, the PM10 sensor, the TVOC sensor and the carbon dioxide sensor are electrically connected with the data processor, the data processor and the wireless transceiver are electrically connected with the controller,

the formaldehyde sensor, a temperature sensor, a humidity sensor, a PM2.5 sensor, a PM10 sensor, a TVOC sensor, the indoor environmental information that the carbon dioxide sensor will detect sends for data processor, data processor sends for the controller after turning into digital signal information with the information received, the controller sends digital signal information for rear-end server and mobile terminal or controller through wireless transceiver with digital signal information for rear-end server through wireless transceiver, mobile terminal connects the rear-end server through the communication and acquires corresponding digital signal information.

2. The indoor environment sensing system of claim 1, further comprising a housing, wherein the housing contains a blower, a circuit board, the controller, the data processor, the formaldehyde sensor, the temperature sensor, the humidity sensor, the PM2.5 sensor, the PM10 sensor, the TVOC sensor, and the carbon dioxide sensor, the controller is electrically connected to the circuit board and the blower, the data processor is disposed on the circuit board, the housing contains a first air inlet and an air outlet,

the indoor environment sensing system also comprises a power supply and a partition board, the shell comprises a front cover and a rear shell, one surface of the rear shell is provided with a groove, the other surface of the rear shell is provided with a supporting block, an accommodating cavity is arranged in the supporting block, the bottom wall of the groove is provided with a through hole communicated with the accommodating cavity, the front cover covers the groove of the rear shell,

the two opposite side walls of the supporting block are respectively provided with a first air inlet and an air outlet which are communicated with the accommodating cavity,

power, controller, fan, circuit board formaldehyde sensor temperature sensor humidity transducer PM2.5 sensor PM10 sensor TVOC sensor reaches the holding intracavity is all arranged in to carbon dioxide sensor and baffle, the power is located the diapire in holding chamber, and the circuit board is located the upper end of power, be equipped with the baffle between power and the circuit board, the fan is located air outlet department and is located the upper end of circuit board, formaldehyde sensor temperature sensor humidity transducer PM2.5 sensor PM10 sensor TVOC sensor reaches carbon dioxide sensor all is located first inlet opening department and is located the upper end of circuit board.

3. The indoor environment sensing system of claim 2, wherein the supporting block is further provided with a second air inlet hole, the second air inlet hole is formed at the upper end of the supporting block and communicated with the accommodating cavity, the PM2.5 sensor and the PM10 sensor are located at the first air inlet hole, the formaldehyde sensor is located at one end of the PM2.5 sensor or the PM10 sensor, which is far away from the first air inlet hole, and the humidity sensor, the temperature sensor, the TVOC sensor and the carbon dioxide sensor are located at the second air inlet hole.

4. The indoor environment sensing system of claim 2, further comprising a display screen, wherein the front cover has a hole corresponding to the display screen, the display screen is disposed in the groove and exposed from the front cover through the hole, and the display screen is electrically connected to the controller.

5. An indoor environment sensing system as claimed in claim 2, wherein the support block is integrally formed with the rear housing.

6. An indoor environment sensing system according to claim 2, wherein the support block is of a triangular configuration.

7. The indoor environment sensing system of claim 2, wherein the indoor environment detecting unit further comprises a charging port electrically connected to the power supply, the charging port being located at an end of the supporting block away from the rear case and corresponding to the position of the power supply.

8. The indoor environment sensing system of claim 2, wherein the indoor environment detecting device further comprises a switch electrically connected to the blower, the switch being located on a side of the supporting block where the air outlet is located.

9. The indoor environmental sensing system of claim 2, wherein the first air inlet opening, the air outlet opening, and the second air inlet opening are each comprised of an array of a plurality of openings.

10. An indoor environment sensing system as claimed in any one of claims 2 to 9, wherein the power supply, the controller, the blower, the circuit board, the formaldehyde sensor, the temperature sensor, the humidity sensor, the PM2.5 sensor, the PM10 sensor, the TVOC sensor, the carbon dioxide sensor and the partition are exposed to the aperture when the front cover and the display are separated from the rear case.

Images