CN112881604A - Air quality monitoring equipment based on 5G technology and monitoring method thereof - Google Patents

Air quality monitoring equipment based on 5G technology and monitoring method thereof Download PDF

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Publication number
CN112881604A
CN112881604A CN202110053689.4A CN202110053689A CN112881604A CN 112881604 A CN112881604 A CN 112881604A CN 202110053689 A CN202110053689 A CN 202110053689A CN 112881604 A CN112881604 A CN 112881604A
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solar panel
monitoring device
solar
portable air
air quality
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CN202110053689.4A
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Chinese (zh)
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张伟斌
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N33/00Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
    • G01N33/0004Gaseous mixtures, e.g. polluted air
    • G01N33/0009General constructional details of gas analysers, e.g. portable test equipment
    • GPHYSICS
    • G08SIGNALLING
    • G08CTRANSMISSION SYSTEMS FOR MEASURED VALUES, CONTROL OR SIMILAR SIGNALS
    • G08C17/00Arrangements for transmitting signals characterised by the use of a wireless electrical link
    • G08C17/02Arrangements for transmitting signals characterised by the use of a wireless electrical link using a radio link
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J7/00Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
    • H02J7/34Parallel operation in networks using both storage and other dc sources, e.g. providing buffering
    • H02J7/35Parallel operation in networks using both storage and other dc sources, e.g. providing buffering with light sensitive cells

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  • Chemical & Material Sciences (AREA)
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  • Food Science & Technology (AREA)
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  • General Health & Medical Sciences (AREA)
  • Combustion & Propulsion (AREA)
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  • Power Engineering (AREA)
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Abstract

The invention discloses air quality monitoring equipment based on a 5G technology, which comprises a portable air monitoring device, wherein a pair of accommodating cavities are formed in the portable air monitoring device, a storage battery is arranged in each accommodating cavity, a solar power supply mechanism is arranged in each accommodating cavity, each solar power supply mechanism comprises a telescopic rod, each telescopic rod is connected with a connecting piece, a solar panel is arranged on one side of each connecting piece, and a fixing strip is rotatably connected between each solar panel and each connecting piece. According to the portable air monitoring device, the cruising ability of the portable air monitoring device after being used for a long time is improved through the arrangement of the corresponding mechanism on the portable air monitoring device, the condition that a power supply is exhausted and cannot be used continuously when a worker detects outdoors for a long time is avoided, the worker does not need to return to a working point for charging, the use of the worker is facilitated, and the progress of air monitoring work is greatly improved.

Description

Air quality monitoring equipment based on 5G technology and monitoring method thereof
Technical Field
The invention belongs to the technical field of air monitoring, and particularly relates to air quality monitoring equipment based on a 5G technology and a monitoring method thereof.
Background
The 5G is a fifth generation mobile communication technology, which is abbreviated as the latest generation cellular mobile communication technology and is an extension of 4G, 3G and 2G systems, the performance goal of the 5G is high data rate, delay reduction, energy saving, cost reduction, system capacity improvement and large-scale device connection, the first stage of the 5G specification in Release-15 is to adapt to early commercial deployment, and as the application of the 5G becomes more and more extensive, more devices are connected into a mobile network.
The air quality monitoring equipment is a latest technological product developed based on the principle of constant potential electrolytic sensor for detecting pollution gas and dust by light scattering, and combining international mature electronic technology and 5G network communication technology, the equipment can simultaneously monitor the concentration of gas and inhalable particles, and can display them on the same display screen, one equipment can simultaneously monitor four parameters, its working mode is automatic sampling and automatic analysis, the measured concentration is directly displayed on the display screen, and can automatically calculate daily average value and monthly average value, and can store 30 days of monitoring data (including daily average value and monthly average value), and its equipment possesses USB and RS485 data transfer interface, and can transfer the stored data into computer, and its equipment is small in volume, and is equipped with portable draw-bar box, and can be conveniently movably monitored, and its upper computer software system can predict and store four parameters according to historical recorded data and analysis result, Forecasting the environmental pollution condition and the development trend of the district, and providing scientific basis for effectively controlling the environmental condition in the district.
When air quality monitoring equipment flows and detects, need use equipment to charge from taking the interface in advance and use, because current air quality monitoring equipment lacks a solar energy power supply mechanism, lead to relevant staff outdoor carry out long-time air detection time measuring, the emergence that the power exhausts unable continuation testing condition appears in equipment, the staff need return the work point and supply the electric quantity to equipment, extravagant staff a large amount of time and inconvenience, seriously influenced the progress to air monitoring work.
Therefore, in view of the above technical problems, it is necessary to provide an air quality monitoring device based on 5G technology, a monitoring method thereof, and a using method thereof.
Disclosure of Invention
The invention aims to provide air quality monitoring equipment based on a 5G technology, a monitoring method thereof and a using method thereof, and aims to solve the problem that the air quality monitoring equipment cannot work continuously due to the fact that the power supply is exhausted when the air quality monitoring equipment is used for a long time due to the fact that a solar power supply mechanism is lacked.
In order to achieve the above object, an embodiment of the present invention provides the following technical solutions:
the utility model provides an air quality monitoring facilities based on 5G technique, includes portable air monitoring devices, it has a pair of chamber that holds to open the chisel in the portable air monitoring devices, it is equipped with the battery to hold the intracavity, it is equipped with solar power unit to hold the intracavity, solar power unit includes the telescopic link, be connected with the linking piece on the telescopic link, linking piece one side is equipped with solar panel, it is connected with the fixed strip to rotate between solar panel and the linking piece, be connected with between solar panel and the portable air monitoring devices and accomodate supporting mechanism.
Further, it is equipped with the fly leaf to hold the intracavity, it is connected with the pivot to rotate between fly leaf and the portable air monitoring device, plays the effect of accomodating to solar energy power supply mechanism, and the person of facilitating the use uses, plays certain guard action to solar energy power supply mechanism simultaneously, reduces in the transportation or when using solar panel receive external destruction's possibility.
Further, it has the block groove to hold the intracavity excavation, the block inslot is equipped with the fastener, be connected with the block spring between fastener and the portable air monitering device, play fixed effect to the pivot, the pivot is opened when having avoided portable air monitering device to remove.
Furthermore, solar panel one side is equipped with a plurality of solar energy curb plate, it folds paper to rotate to be connected with between solar panel and the solar energy curb plate, improves solar power supply mechanism's output electric quantity, effectively receives the light source.
Furthermore, a fixing groove matched with the clamping piece is formed in one face of the movable plate, a clamping handle is arranged on one face, away from the solar panel, of the movable plate, and a user can open the movable plate conveniently.
Furthermore, one side of the telescopic rod is connected with a light source detection mechanism, when the solar power supply device is used outdoors, the solar panel rotates towards the direction of strong light source through the detection of the light source detector, effective light source absorption is carried out, and the power supply amount of the solar power supply mechanism is increased.
Further, accomodate supporting mechanism and include the connecting piece, the connecting piece is located solar panel and is kept away from in the one side of solar energy curb plate, it has the spout to cut on the connecting piece, sliding connection has the slider in the spout, be equipped with universal ball on the slider, play the supporting role to solar panel, take place the circumstances of tenesmus when having avoided solar panel to open, influence the absorption of light source.
Furthermore, a fixing plate is arranged in the accommodating cavity, a first supporting rod is connected to the fixing plate in a rotating mode, a second supporting rod is connected between the first supporting rod and the universal ball in a rotating mode, and gravity after the solar panel is supported exerts pressure in the portable air monitoring device.
Furthermore, a supporting fixing groove is dug in the face, close to the second supporting rod, of the first supporting rod, a protruding block matched with the supporting fixing groove is arranged on the second supporting rod, the second supporting rod and the first supporting rod can be clamped, and the protruding block and the first supporting rod are matched with each other through the protruding block and the supporting fixing groove, so that the solar panel is supported.
A monitoring method of air quality monitoring equipment based on a 5G technology comprises the following steps:
s1, charging electric quantity to a portable air monitoring device by a user before use, and judging whether the portable air monitoring device can normally operate or not;
s2, in the using process, when the portable air monitoring device is insufficient in electric quantity, a user can open the movable plate to pull out the solar panel outwards, the telescopic rod extends to upwards rotate the solar panel to enable the solar panel to be placed in a horizontal state, meanwhile, the sliding piece slides along the connecting piece, and when the user pulls to a certain degree, the first supporting rod and the second supporting rod are mutually clamped and supported;
s3, after the solar panel and the solar side plate are stretched out, the solar side plate is rotated and opened along the rotating hinge, so that the receiving surfaces of the solar panel and the solar side plate face upwards for receiving;
s4, detecting the electric quantity collected by the sliding part and the first support rods through a charge-discharge controller, when the electric quantity in the storage battery is sufficient, directly using the electric quantity collected by the sliding part and the first support rods for the operation of the portable air monitoring device, and when the electric quantity in the storage battery is insufficient, charging the storage battery;
s5, in the process of charging, when the light source detection mechanism detects that the light source is weakened, fine adjustment is carried out on the telescopic rod, and the solar panel and the solar side plate face the strong light source;
s6, after the user detects, the solar side plates are rotated inwards and stacked, the solar panels are rotated downwards integrally and are pushed into the accommodating cavity after being perpendicular to the bottom surface of the accommodating cavity, and the movable plate is closed.
Compared with the prior art, the invention has the following advantages:
according to the portable air monitoring device, the cruising ability of the portable air monitoring device after being used for a long time is improved through the arrangement of the corresponding mechanism on the portable air monitoring device, the condition that a power supply is exhausted and cannot be used continuously when a worker detects outdoors for a long time is avoided, the worker does not need to return to a working point for charging, the use of the worker is facilitated, and the progress of air monitoring work is greatly improved.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.
Fig. 1 is a perspective view of an air quality monitoring apparatus based on 5G technology in an embodiment of the present invention;
FIG. 2 is a schematic diagram of a partial structure of an air quality monitoring apparatus based on 5G technology according to an embodiment of the present invention;
FIG. 3 is a cross-sectional view of a rear view of an air quality monitoring device based on 5G technology according to an embodiment of the present invention;
FIG. 4 is a schematic diagram of the structure at A in FIG. 3 according to an embodiment of the present invention;
FIG. 5 is a schematic diagram of a structure B shown in FIG. 3 according to an embodiment of the present invention;
FIG. 6 is a schematic diagram of the structure at C in FIG. 3 according to an embodiment of the present invention;
fig. 7 is a partially exploded view of a solar power supply mechanism according to an embodiment of the present invention.
In the figure: 1. the portable air monitoring device comprises a portable air monitoring device, 101, a containing cavity, 102, a storage battery, 2, a solar power supply mechanism, 201, a telescopic rod, 202, a connecting piece, 203, a solar panel, 204, a fixing strip, 205, a solar side plate, 206, a rotary hinge, 207, a movable plate, 208, a rotary shaft, 209, a clamping piece, 210, a clamping spring, 211, a handle, 3, a containing and supporting mechanism, 301, a connecting piece, 302, a sliding groove, 303, a sliding piece, 304, a fixing plate, 305, a first supporting rod, 306, a universal ball, 307, a second supporting rod, 4, a light source detection mechanism, 401, a rotary sleeve, 402, a motor, 403, a controller, 404 and a light source detector.
Detailed Description
The present invention will be described in detail below with reference to embodiments shown in the drawings. The embodiments are not intended to limit the present invention, and structural, methodological, or functional changes made by those skilled in the art according to the embodiments are included in the scope of the present invention.
The invention discloses air quality monitoring equipment based on a 5G technology, which is shown in figures 1-7 and comprises a portable air monitoring device 1, wherein a pair of accommodating cavities 101 are drilled in the portable air monitoring device 1, a solar power supply mechanism 2, an accommodating support mechanism 3 and a light source detection mechanism 4 are placed to facilitate the arrangement and use of circuits, a storage battery 102 is arranged in each accommodating cavity 101 and used for providing electric power and storage for the portable air monitoring device 1, the solar power supply mechanism 2 is arranged in each accommodating cavity 101, solar radiation energy is converted into electric energy through a solar panel 203 and a solar side plate 205 and is transmitted to the storage battery 102 for storage, or the solar radiation energy is directly used and operated by an inverter and a transformer, wherein the quality and the cost of a solar cell module directly determine the quality and the cost of the whole system, the solar power supply mechanism 2 comprises an expansion link 201, the light source detection mechanism 4 is connected to one side of the telescopic rod 201, and when the solar power supply mechanism is used outdoors, the solar panel 203 is rotated in the direction of strong light source by the detection of the light source detector 404, so that effective light source absorption is performed, and the power supply amount of the solar power supply mechanism 2 is increased.
Wherein, light source detection mechanism 4 includes rotating sleeve 401, and one side of rotating sleeve 401 is rotated and is connected with motor 402, and rotating sleeve 401 is located and is held in chamber 101, and telescopic link 201 is connected in rotating sleeve 401, makes rotating sleeve 401's rotation drive solar panel 203 carry out the angle modulation, and rotating sleeve 401 one side is connected with controller 403, and the electric connection has controller 403 on the motor 402, receives the signal of light source detector 404 through controller 403 and debugs rotation to motor 402.
Referring to fig. 2-4, a connecting piece 202 is connected to the telescopic rod 201, a solar panel 203 is arranged on one side of the connecting piece 202, the solar panel 203 can be stretched and extended to be placed on the outer side of the portable air monitoring device 1 to receive a light source, the solar panel 203 is electrically connected with the storage battery 102, electric power converted by the solar panel 203 can be directly output or stored in the storage battery 102, a fixing strip 204 is rotatably connected between the solar panel 203 and the connecting piece 202 to fixedly connect the solar panel 203, friction is not easily generated between the solar panel 203 and the telescopic rod 201 or the rotating sleeve 401 when the solar panel 203 rotates, a storage supporting mechanism 3 is connected between the solar panel 203 and the portable air monitoring device 1, the solar panel 203 can be adjusted in an up-and-down rotating mode, and a user can conveniently place and take out.
Referring to fig. 3, the light source detector 404 is disposed on the solar panel 203, the light source detector 404 is electrically connected to the controller 403, and after the solar panel 203 and the solar side panel 205 are completely unfolded, the light source is detected, and a signal is sent to the controller 403, so that the solar panel 203 is adjusted along with the movement of the light source, and the utilization rate of the solar panel 203 is improved.
Referring to fig. 3-6, a movable plate 207 is arranged in the accommodating cavity 101, a rotating shaft 208 is rotatably connected between the movable plate 207 and the portable air monitoring device 1, the solar power supply mechanism 2 is stored, the portable air monitoring device is convenient for a user to use, meanwhile, the solar power supply mechanism 2 is protected to a certain extent, and the possibility that the solar panel 203 is damaged by the outside during transportation or use is reduced.
Referring to fig. 6, a clamping groove is formed in the accommodating cavity 101, a clamping piece 209 is arranged in the clamping groove, a clamping spring 210 is connected between the clamping piece 209 and the portable air monitoring device 1, the clamping spring has a fixing effect on the rotating shaft 208, the rotating shaft 208 is prevented from being opened when the portable air monitoring device 1 moves, a fixing groove matched with the clamping piece 209 is formed in one surface of the movable plate 207 in a chiseled mode, a clamping handle 211 is arranged on the surface, away from the solar panel 203, of the movable plate 207, and a user can open the movable plate 207 conveniently.
Referring to fig. 3 to 7, a plurality of solar panels 205 are disposed on one side of the solar panel 203, preferably, two solar panels 205, which are 4 in total, are disposed on the left and right sides of the solar panel 203, respectively, to increase the light source conversion rate and improve the space utilization efficiency, a rotation hinge 206 is rotatably connected between the solar panel 203 and a pair of solar panels 205, specifically, the solar panel 203 is disposed opposite to the two solar panels 205, so that the solar panels 205 can be disposed parallel to the solar panel 203 after being unfolded, the rotation hinge 206 connected between the solar panel 203 and the farthest solar panel 205 is longer than the rotation hinge 206 connected between the solar panel 203 and the nearest solar panel 205, so that the pair of solar panels 205 can be folded on one side of the solar panel 203, and the plurality of solar panels 205 increase the light source receiving efficiency, the output electric quantity of the solar power supply mechanism 2 is improved, and the light source is effectively received.
Referring to fig. 2 to 5, the accommodating and supporting mechanism 3 includes a connecting member 301, which supports the solar panel 203, and prevents the solar panel 203 from falling down when it is opened, so as to affect the absorption of light source, the connecting member 301 is disposed on a side of the solar panel 203 away from the solar side plate 205, a sliding slot 302 is cut on the connecting member 301, a sliding member 303 is slidably connected in the sliding slot 302, a universal ball 306 is disposed on the sliding member 303, so that the second supporting rod 307 can rotate with the sliding member 303, so that a user can adjust the solar panel 203, a fixing plate 304 is disposed in the accommodating cavity 101, a first supporting rod 305 is rotatably connected to the fixing plate 304, a second supporting rod 307 is rotatably connected between the first supporting rod 305 and the universal ball 306, and the gravity supported by the solar panel 203 is applied to the portable air monitoring device 1.
Specifically, a support fixing groove is formed in one surface of the first support rod 305 close to the second support rod 307, and a protruding block matched with the support fixing groove is arranged on the second support rod 307, so that the second support rod 307 and the first support rod 305 can be clamped, and the pair effect of supporting the solar panel 203 is achieved through the matching between the protruding block and the support fixing groove.
A monitoring method of air quality monitoring equipment based on a 5G technology comprises the following steps:
s1, charging the portable air monitoring device 1 with electric quantity before use by a user, and checking whether the portable air monitoring device 1 can normally operate;
s2, in the using process, when the portable air monitoring device 1 is insufficient in electric quantity, a user can open the movable plate 207 to pull out the solar panel 203 outwards, the telescopic rod 201 extends to rotate the solar panel 203 upwards to enable the solar panel 203 to be placed in a horizontal state, meanwhile, the sliding piece 303 slides along the connecting piece 301, and when the user pulls to a certain degree, the first supporting rod 305 and the second supporting rod 307 are clamped and supported with each other;
s3, after the solar panel 203 and the solar side plate 205 are stretched out, the solar side plate 205 is rotated and opened along the rotating hinge 206, so that the receiving surfaces of the solar panel 203 and the solar side plate 205 are upward for receiving;
s4, detecting the electric quantity collected by the sliding part 303 and the first supporting rods 305 through a charge-discharge controller, when the electric quantity in the storage battery 102 is sufficient, directly using the electric quantity collected by the sliding part 303 and the first supporting rods 305 for the operation of the portable air monitoring device 1, and when the electric quantity in the storage battery 102 is insufficient, charging the storage battery 102;
s5, in the process of charging, when the light source detection mechanism 4 detects that the light source is weakened, fine adjustment is carried out on the telescopic rod 201, and the solar panel 203 and the solar side plate 205 face the strong light source;
s6, after the user detects, the solar side plates 205 are rotated inwards and stacked, the solar panel 203 is rotated downwards integrally, the solar panel is pushed into the accommodating cavity 101 after being perpendicular to the bottom surface of the accommodating cavity 101, and the movable plate 207 is closed.
According to the technical scheme, the invention has the following beneficial effects:
according to the portable air monitoring device, the cruising ability of the portable air monitoring device after being used for a long time is improved through the arrangement of the corresponding mechanism on the portable air monitoring device, the condition that a power supply is exhausted and cannot be used continuously when a worker detects outdoors for a long time is avoided, the worker does not need to return to a working point for charging, the use of the worker is facilitated, and the progress of air monitoring work is greatly improved.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. The utility model provides an air quality monitoring facilities based on 5G technique, includes portable air monitoring device (1), its characterized in that, it has a pair of chamber (101) that hold to open in portable air monitoring device (1), it is equipped with battery (102) in chamber (101) to hold, it is equipped with solar energy power supply mechanism (2) in chamber (101) to hold, solar energy power supply mechanism (2) are including telescopic link (201), be connected with linking piece (202) on telescopic link (201), linking piece (202) one side is equipped with solar panel (203), it is connected with fixed strip (204) to rotate between solar panel (203) and linking piece (202), be connected with between solar panel (203) and portable air monitoring device (1) and accomodate supporting mechanism (3).
2. The air quality monitoring equipment based on the 5G technology is characterized in that a movable plate (207) is arranged in the accommodating cavity (101), and a rotating shaft (208) is rotatably connected between the movable plate (207) and the portable air monitoring device (1).
3. The air quality monitoring device based on the 5G technology is characterized in that a clamping groove is formed in the accommodating cavity (101) in a chiseled mode, a clamping piece (209) is arranged in the clamping groove, and a clamping spring (210) is connected between the clamping piece (209) and the portable air monitoring device (1).
4. The air quality monitoring device based on the 5G technology is characterized in that a plurality of solar side plates (205) are arranged on one side of the solar panel (203), and a rotary hinge (206) is rotatably connected between the solar panel (203) and the solar side plates (205).
5. The air quality monitoring device based on the 5G technology as claimed in claim 2, wherein a fixing groove matched with the clamping piece (209) is formed in one surface of the movable plate (207), and a clamping handle (211) is arranged on one surface of the movable plate (207) far away from the solar panel (203).
6. The air quality monitoring device based on the 5G technology is characterized in that a light source detection mechanism (4) is connected to one side of the telescopic rod (201).
7. The air quality monitoring equipment based on the 5G technology is characterized in that the accommodating and supporting mechanism (3) comprises a connecting piece (301), the connecting piece (301) is arranged on one surface, away from the solar side plate (205), of the solar panel (203), a sliding groove (302) is formed in the connecting piece (301), a sliding piece (303) is connected in the sliding groove (302) in a sliding mode, and a universal ball (306) is arranged on the sliding piece (303).
8. An air quality monitoring device based on 5G technology according to claim 7, characterized in that a fixing plate (304) is arranged in the accommodating cavity (101), a first support rod (305) is rotatably connected to the fixing plate (304), and a second support rod (307) is rotatably connected between the first support rod (305) and the universal ball (306).
9. The air quality monitoring device based on the 5G technology as claimed in claim 8, wherein a face of the first support rod (305) close to the second support rod (307) is provided with a support fixing groove, and the second support rod (307) is provided with a projection matched with the support fixing groove.
10. A monitoring method of air quality monitoring equipment based on a 5G technology is characterized by comprising the following steps:
s1, charging electric quantity to the portable air monitoring device (1) by a user before use, and judging whether the portable air monitoring device (1) can normally operate or not;
s2, in the using process, when the portable air monitoring device (1) is insufficient in electric quantity, a user can open the movable plate (207) to pull out the solar panel (203) outwards, the telescopic rod (201) extends to upwards rotate the solar panel (203), so that the solar panel (203) is placed in a horizontal state, meanwhile, the sliding piece (303) slides along the connecting piece (301), and when the user pulls to a certain degree, the first supporting rod (305) and the second supporting rod (307) are clamped and supported with each other;
s3, after the solar panel (203) and the solar side plate (205) are stretched out, the solar side plate (205) is rotated and opened along the rotating hinge (206), and the receiving surfaces of the solar panel (203) and the solar side plate (205) are upwards received;
s4, detecting the electric quantity collected by the sliding part (303) and the first supporting rods (305) through a charge-discharge controller, when the electric quantity in the storage battery (102) is sufficient, directly using the electric quantity collected by the sliding part (303) and the first supporting rods (305) for the operation of the portable air monitoring device (1), and when the electric quantity in the storage battery (102) is insufficient, charging the storage battery (102);
s5, in the charging process, when the light source detection mechanism (4) detects that the light source is weakened, fine adjustment is carried out on the telescopic rod (201), and the solar panel (203) and the solar side plate (205) face the strong light source;
s6, after the user detects, the solar side plates (205) are rotated inwards and stacked, the solar panel (203) is rotated downwards integrally, the solar panel is pushed into the accommodating cavity (101) after being perpendicular to the bottom surface of the accommodating cavity (101), and the movable plate (207) is closed.
CN202110053689.4A 2021-01-15 2021-01-15 Air quality monitoring equipment based on 5G technology and monitoring method thereof Withdrawn CN112881604A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202110053689.4A CN112881604A (en) 2021-01-15 2021-01-15 Air quality monitoring equipment based on 5G technology and monitoring method thereof

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Application Number Priority Date Filing Date Title
CN202110053689.4A CN112881604A (en) 2021-01-15 2021-01-15 Air quality monitoring equipment based on 5G technology and monitoring method thereof

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114624390A (en) * 2021-06-09 2022-06-14 重庆亿森动力环境科技有限公司 Environmental air quality monitoring device

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114624390A (en) * 2021-06-09 2022-06-14 重庆亿森动力环境科技有限公司 Environmental air quality monitoring device
CN114624390B (en) * 2021-06-09 2023-03-10 重庆亿森动力环境科技有限公司 Environmental air quality monitoring device

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