CN116390462A

CN116390462A - Real-time monitoring case based on thing networking

Info

Publication number: CN116390462A
Application number: CN202310655369.5A
Authority: CN
Inventors: 刘彦能; 乔明明; 赵鲁闽; 何超; 朱恒力
Original assignee: Guangdong Create Technology Co ltd
Current assignee: Guangdong Create Technology Co ltd
Priority date: 2023-06-05
Filing date: 2023-06-05
Publication date: 2023-07-04
Anticipated expiration: 2043-06-05
Also published as: CN116390462B

Abstract

The invention relates to the field of Internet, in particular to a real-time monitoring box based on the Internet of things. The technical problems of the invention are as follows: the inside temperature that leads to in the control case working process is too high, and the device in the control case can't normally dispel the heat, spontaneous combustion phenomenon, arouses the conflagration, and in the cooling process moisture gets into the control incasement portion along with the air, corrodes casing and corrosion circuit. The technical scheme of the invention is as follows: a real-time monitoring box based on the Internet of things comprises a monitoring box, a guide plate, a power supply and the like; the monitoring box is provided with a wire inlet hole for connecting an external wire harness; the monitoring box is provided with a wire arrangement groove for arranging the device wire harness. According to the invention, the outside air is conveyed into the monitoring box through the operation of the fan, the heat dissipation in the monitoring box is realized, and meanwhile, the air is split and diffused by the splitter; the drawn-in air is dehumidified, so that the moisture is prevented from corroding a wire harness electrical appliance in the monitoring box, and meanwhile, the dehumidified condensate water is guided and discharged through the flow divider.

Description

Real-time monitoring case based on thing networking

Technical Field

The invention relates to the field of Internet, in particular to a real-time monitoring box based on the Internet of things.

Background

Most of the monitoring boxes in life are installed outdoors, heating phenomena can occur in the power supply and the devices in the working process of the existing monitoring boxes, particularly under the high-temperature environment, the temperatures on the power supply and the devices cannot be dissipated through the holes, the circuits and the devices are damaged due to overhigh temperatures, the devices in the monitoring boxes cannot work normally, spontaneous combustion phenomena can occur seriously, and fire disasters are caused.

In the existing cooling method, the monitoring box is cooled by replacing external air, in the process, due to the fact that moisture exists in the air, when the air enters the inside of the monitoring box, the moisture adheres to the surface of the device inside the monitoring box along with the air, the moisture can erode the device shell for a long time, the shell is rusted, line corrosion is serious, and the service life of the monitoring box is prolonged.

Disclosure of Invention

In order to overcome the defect that the internal temperature is too high in the working process of the monitoring box, the spontaneous combustion phenomenon can be seriously caused in the abnormal process of devices in the monitoring box, so that fire is caused, and moisture enters the monitoring box along with air in the cooling process, so that a shell is corroded and a circuit is corroded.

The technical scheme of the invention is as follows: a real-time monitoring box based on the Internet of things comprises a monitoring box, a guide plate and a power supply; the monitoring box is provided with a wire inlet hole for connecting an external wire harness; the monitoring box is provided with a wire arrangement groove for arranging the device wire harness; a guide plate for guiding the deposited rainwater is arranged on the monitoring box; a power supply is arranged on the monitoring box; the system also comprises a fan, a flow divider, an isolation plate and a dehumidification system; a fan for cooling the inside of the monitoring box is arranged on the upper side of the monitoring box; an air inlet hole for enabling the fan to pump air is formed in the rear side of the monitoring box; a diverter for dispersing wind is arranged at the lower side of the monitoring box; the upper end of the diverter is provided with a plurality of V-shaped sloping plates, the lower end of the diverter is provided with a drain board, and the sloping plates are sequentially fixed at equal intervals from top to bottom; an isolation plate for isolating outside air is arranged on the monitoring box; a cooling groove is arranged between the isolation plate and the monitoring box; the monitoring box is provided with a dehumidifying system for dehumidifying air.

As a preferable technical scheme of the invention, the flow divider consists of a plurality of V-shaped inclined plates which are sequentially and equidistantly arranged from top to bottom.

As a preferable technical scheme of the invention, the dehumidification system comprises a first temperature-sensing heater, a first pipeline, a first fixed block, a heating rod, a wire binding device, a wire protection plate and an induced draft plate; the right side of the monitoring box is fixedly connected with a first temperature-sensing heater for controlling the temperature in the monitoring box; the first temperature-sensing heater is provided with a detector for detecting the outside temperature and the air humidity; the lower side of the first temperature-sensing heater is fixedly connected with a first pipeline for transmitting heat of the first temperature-sensing heater; a plurality of first fixing blocks are fixedly connected on the isolation plate; the first pipeline is fixedly connected with a plurality of first fixing blocks; the lower side of the first pipeline is fixedly connected with a plurality of heating rods for dehumidifying air; the flow divider is positioned among the heating rods; a drain board is arranged at the lower side of the V-shaped sloping plate at the lowest part of the flow divider; a plurality of ring pieces are arranged on the heating rod; the rear side of the monitoring box is fixedly connected with a plurality of wire bunchers for arranging wire bundles; the wire harness device is provided with a plurality of rotatable ring pieces, and each ring piece is provided with a plurality of clamping rings; the rear side of the monitoring box is fixedly connected with a wire protection plate for preventing the wire harness from being wet; the wire protection plate is hollow in the inside, and the left side and the right side are provided with adaptive wire outlet holes; an air inducing plate for gathering the air introduced by the fan is fixedly connected to the rear side of the monitoring box; the air guiding plate is arranged in a door shape, and the left side and the right side of the air guiding plate are provided with wire outlet holes; the wire protection plate is fixedly connected with the induced air plate.

As a preferable technical scheme of the invention, the heating rod is provided with a plurality of ring pieces.

As a preferable technical scheme of the invention, a plurality of rotatable ring pieces are arranged on the wire harness device, and a plurality of clamping rings are arranged on each ring piece.

As a preferable technical scheme of the invention, the wire protection plate is hollow in the inside, and wire outlet holes are formed in the left side and the right side.

As a preferable technical scheme of the invention, the air guide plate is arranged into a door-shaped structure, and wire outlet holes are formed in the left side and the right side of the air guide plate.

As a preferable technical scheme of the invention, the invention also comprises a constant temperature system, wherein the constant temperature system comprises a second temperature-sensing heater, a second pipeline, a second fixed block, a third pipeline and a third fixed block; the left side of the monitoring box is fixedly connected with a second temperature-sensing heater for monitoring the temperature in the monitoring box in real time; a second pipeline for heating the monitoring box is fixedly connected to the second temperature sensing heater; the left side of the monitoring box is fixedly connected with a second fixed block; the second fixed block is fixedly connected with a second pipeline; a third pipeline is fixedly connected to the first temperature-sensing heater; the right side of the monitoring box is fixedly connected with a third fixed block; the third fixed block is fixedly connected with a third pipeline.

As a preferable technical scheme of the invention, the invention also comprises an insect repellent which comprises a liquid storage box and an atomizing head; one end of the second pipeline, which is far away from the second temperature-sensing heater, is fixedly connected with a liquid storage box for storing insect repellent liquid; an atomizing head for dispersing and atomizing the insect repellent liquid is fixedly connected to the liquid storage box; one end of the third pipeline far away from the first temperature-sensing heater is fixedly connected with another liquid storage box; the liquid storage box is fixedly connected with the atomizing head.

As a preferred technical scheme of the invention, the insect repeller is arranged at the lower side of the monitoring box.

The beneficial effects are that: according to the invention, the outside air is conveyed into the monitoring box through the operation of the fan, so that the heat dissipation in the monitoring box is realized, and meanwhile, the air is split and diffused by the splitter, so that the heat dissipation effect is improved;

the heating rod dehumidifies the sucked air to prevent the moisture from corroding a wire harness electrical appliance in the monitoring box, and meanwhile, the flow divider guides and discharges the dehumidified condensate water to prevent the condensate water from remaining in the monitoring box;

the wire harness is clamped through the wire harness device, meanwhile, the wire harness is convenient to install and detach manually, and the wire harness is fixed on two sides of the monitoring box through the wire harness device, so that the wire harness has a better heat dissipation effect;

the temperature in the monitoring box is monitored in real time through the cooperation of the first temperature-sensing heater, the second pipeline and the third pipeline, and the monitoring box is heated by the second pipeline and the third pipeline, so that the temperature in the monitoring box is the same as the outside temperature, and moisture in air is prevented from condensing on a shell of the monitoring box, and the corrosion phenomenon of the shell occurs;

through the mutually supporting of stock solution box and atomising head, with the back expelling parasite liquid dispersion of atomizing inside the control box, and then carry out the expelling parasite to the control box and handle.

Drawings

FIG. 1 is a schematic perspective view of a first embodiment of the present invention;

FIG. 2 is a schematic view of a second perspective structure of the present invention;

FIG. 3 is a schematic view of a partial perspective structure of the present invention;

FIG. 4 is a first partial cross-sectional view of the present invention;

FIG. 5 is a second partial cross-sectional view of the present invention;

FIG. 6 is a schematic perspective view of a fan according to the present invention;

FIG. 7 is a schematic perspective view of a separator according to the present invention;

FIG. 8 is a schematic view of a first perspective structure of the dehumidification system of the present disclosure;

FIG. 9 is a schematic diagram of a second perspective view of the dehumidification system of the present disclosure;

FIG. 10 is a schematic view of a third perspective structure of the dehumidification system of the present disclosure;

FIG. 11 is a schematic view of a portion of a dehumidification system in accordance with the present invention;

FIG. 12 is a schematic view of a first perspective structure of the constant temperature system of the present invention;

FIG. 13 is a schematic view of a second perspective of the thermostatic system of the present invention;

FIG. 14 is a schematic view of a portion of a thermostat system of the present invention in perspective;

fig. 15 is a schematic perspective view of an insect repellent according to the present invention.

Wherein: 1-monitor box, 2-deflector, 3-power supply, 4-fan, 5-shunt, 6-isolation board, 1001-inlet wire hole, 1002-wire arranging groove, 4001-cooling groove, 5001-inlet wire hole, 101-first temperature sensing heater, 102-first pipeline, 103-first fixed block, 104-heating rod, 105-wire harness, 106-wire protection board, 107-deflector, 201-second temperature sensing heater, 202-second pipeline, 203-second fixed block, 204-third pipeline, 205-third fixed block, 301-liquid storage box, 302-atomizing head.

Detailed Description

The invention will now be described in more detail with reference to the drawings and specific examples, which are not intended to limit the invention thereto.

Example 1

The real-time monitoring box 1 based on the Internet of things comprises a monitoring box 1, a guide plate 2 and a power supply 3 as shown in fig. 3-7; the monitoring box 1 is provided with a wire inlet 1001; the monitoring box 1 is provided with a wire-arranging groove 1002; a guide plate 2 is arranged on the monitoring box 1; a power supply 3 is arranged on the monitoring box 1;

the system also comprises a fan 4, a flow divider 5, an isolation plate 6 and a dehumidification system; a fan 4 is arranged on the upper side of the monitoring box 1; an air inlet 5001 is formed in the rear side of the monitoring box 1; a shunt 5 is arranged at the lower side of the monitoring box 1; the upper end of the flow divider 5 is provided with a plurality of V-shaped inclined plates, the lower end of the flow divider is provided with a drain board, the plurality of inclined plates are sequentially fixed at equal intervals from top to bottom, and the air pumped into the monitoring box 1 by the fans 4 is dispersed through the inclined plates at two sides; an isolation board 6 is arranged on the monitoring box 1; a cooling groove 4001 is arranged between the isolation plate 6 and the monitoring box 1, and air pumped into the monitoring box 1 by the fan 4 is conveyed through the cooling groove 4001; a dehumidification system is arranged on the monitoring box 1; through fan 4 and shunt 5 cooperation, with in outside air pump to monitor case 1, dehumidify the air through dehumidification system, cool off the device in the monitor case 1 with the air after the dehumidification, utilize insulation board 6 to insulate the air for when the air risees to fan 4 position through cooling groove 4001, carry to monitor case 1 through fan 4 in, make monitor case 1's radiating effect more high-efficient.

The flow divider 5 is composed of a plurality of V-shaped inclined plates which are sequentially and equidistantly arranged from top to bottom, and air pumped by the fan 4 is dispersed to two sides by the V-shaped inclined plates, so that wind is dispersed in the monitoring box 1 more rapidly, and the heat dissipation effect on the monitoring box 1 is improved.

The cooling operation of the monitoring box 1 is specifically as follows:

when the inside temperature of control case 1 is too high, fan 4 work, carry external air to control incasement 1 through fresh air inlet 5001, when air passes through shunt 5, because shunt 5 comprises a plurality of V-arrangement swash plates from last equidistant range in proper order down, carry out reposition of redundant personnel guide through V-arrangement swash plate to the air, make air can evenly distributed in control incasement 1, make the radiating effect better, simultaneously, in order to further improve the radiating effect, isolate the air in cooling tank 4001 through insulation board 6, make the air diffuse in cooling tank 4001, when air passes through cooling tank 4001 and carries to control incasement 1 top, the air carries to control incasement 1 through fan 4 again, carry out repeated heat dissipation to control case 1.

Example 2

On the basis of embodiment 1, as shown in fig. 8 to 11, the dehumidification system comprises a first temperature-sensitive heater 101, a first pipeline 102, a first fixing block 103, a heating rod 104, a wire harness 105, a wire protection plate 106 and an induced draft plate 107; the right side of the monitoring box 1 is fixedly connected with a first temperature-sensing heater 101; the first temperature-sensing heater 101 is provided with a detector for detecting the outside temperature and the air humidity, and the outside air is detected in humidity by the detector; a first pipeline 102 is fixedly connected to the lower side of the first temperature-sensing heater 101; at least six first fixing blocks 103 are fixedly connected to the isolation plate 6; the first pipeline 102 is fixedly connected with a plurality of first fixing blocks 103; at least four heating rods 104 are fixedly connected to the lower side of the first pipeline 102; the flow divider 5 is positioned among the heating rods 104; a drain board is arranged at the lower side of the V-shaped sloping plate at the lowest part of the flow divider 5, and the moisture dehumidified by the air is discharged out of the monitoring box 1 through the drain board; the heating rod 104 is provided with a plurality of ring pieces, and the contact area between the ring pieces and the air is increased, so that the dehumidifying effect is more efficient; at least six wire bunchers 105 are fixedly connected to the rear side of the monitoring box 1; the wire harness device 105 is provided with a plurality of rotatable ring pieces, each ring piece is provided with a plurality of clamping rings, the wire harness is clamped by the clamping rings when the ring pieces are rotated to facilitate manual assembly, the use space is reduced, and the wire harness is fixed on two sides of the monitoring box 1; the rear side of the monitoring box 1 is fixedly connected with a wire protection plate 106; the wire protection plate 106 is hollow, the left side and the right side are provided with adaptive wire outlet holes, the cables pass through the wire outlet holes after passing through the hollow positions, the wind pumped by the fan 4 is isolated by the wire protection plate 106 and enters the connection part of the end part of the wire harness and the electric appliance of the monitoring box 1, and the connection part of the end part of the wire harness and the electric appliance of the monitoring box 1 is prevented from being corroded by moist air; an induced draft plate 107 is fixedly connected to the rear side of the monitoring box 1; the wind guiding plate 107 is arranged in a door shape, the left side and the right side of the wind guiding plate 107 are provided with wire outlet holes, and the wire harness penetrates out of the wire outlet holes at the two sides of the wind guiding plate 107, and meanwhile wind is converged at the two sides of the wire harness by utilizing the door-shaped structure of the wind guiding plate 107, so that the wire harness is radiated; the wire protection plate 106 is fixedly connected with the induced draft plate 107.

The heating rod 104 is provided with a plurality of ring pieces, and the heat transmitted by the first pipeline 102 is dispersed by the ring pieces, so that the heating range of the heating rod 104 is enlarged, and the dehumidifying effect on the sucked air is improved.

Be provided with a plurality of rotatable ring pieces on the beam device 105, and be provided with a plurality of snap rings on every ring piece, clamp the pencil through the snap ring fixedly, rotatable ring piece simultaneously for interval between every group pencil is adjustable, when reducing pencil occupation space, makes things convenient for the manual work to adjust the pencil interval, and is convenient for maintain the pencil.

The wire protection plate 106 is arranged to be hollow inside, wire outlet holes are formed in the left side and the right side, the wire harness passes through the wire outlet holes through the hollow inside, and air is isolated from entering the junction of the end part of the wire harness and the monitoring box 1 by the wire protection plate 106, so that the air is conveyed by the fan 4 in the process, the phenomenon of weathering is prevented from occurring at the junction of the end part of the wire harness and the monitoring box 1, the damage is caused, and the service life is prolonged.

The wind deflector 107 is arranged into a door-shaped structure, wire outlet holes are formed in the left side and the right side, wire harnesses pass through the wire outlet holes in the two sides, wind directions conveyed by the fan 4 are dispersed in the two sides by utilizing the door-shaped structure of the wind deflector 107, wind is led into the wire harnesses in the two sides, and the junction of the wire harnesses and the device is protected while the heat dissipation effect of the wire harnesses is improved.

The dehumidifying system works specifically as follows:

because there is moisture in the air when fan 4 carries outside air to monitor case 1 inside, moisture gets into monitor case 1 inside and can corrode casing and circuit, need dehumidify the air, before fan 4 works, detect outside air's humidity through the temperature and humidity detector in the first temperature-sensing heater 101, when humidity is too big in the air, utilize first temperature-sensing heater 101 to heat, carry heat to the heating rod 104 through first pipeline 102 in, dehumidify the air of fan 4 suction through the heating rod 104, heat and dry in the air, at the same time, when the moisture of heat and dry passes through shunt 5, because there is the difference in temperature between shunt 5 and the air for moisture in the air condenses on shunt 5, finally follow the drain bar of shunt 5 downside and discharge monitor case 1.

Example 3

Based on embodiment 2, as shown in fig. 12-14, a constant temperature system is further included, and the constant temperature system includes a second temperature-sensing heater 201, a second pipe 202, a second fixed block 203, a third pipe 204 and a third fixed block 205; a second temperature-sensing heater 201 is fixedly connected to the left side of the monitoring box 1; a second pipeline 202 is fixedly connected to the second temperature-sensing heater 201; a second fixed block 203 is fixedly connected to the left side of the monitoring box 1; the second fixed block 203 is fixedly connected with the second pipeline 202; a third pipeline 204 is fixedly connected to the first temperature-sensing heater 101; a third fixed block 205 is fixedly connected to the right side of the monitoring box 1; the third fixed block 205 is fixedly connected with the third pipeline 204; through first temperature sense heater 101 and second temperature sense heater 201 cooperation, monitor control case 1 inside temperature utilizes second pipeline 202 and third pipeline 204 cooperation for control case 1 inside temperature can not be less than ambient temperature, and then the unable condensation of moisture in the air is at control case 1 surface, prevents that moisture from attaching the corrosion casing phenomenon that arouses at control case 1 surface.

The constant temperature system works specifically as follows:

because the monitoring box 1 temperature is lower than the outside temperature state, the moisture condensation phenomenon can appear in the monitoring box 1 casing, the long-time liquid water that adheres to can corrode the monitoring box 1 casing, arouse the casing and rust, the protective effect reduces, in order to prevent that moisture from condensing on the monitoring box 1 casing, detect through the humiture detector in the first temperature-sensing heater 101, when the temperature in the monitoring box 1 is lower than the outside temperature, first temperature-sensing heater 101 and second temperature-sensing heater 201 heat, first temperature-sensing heater 101 and second temperature-sensing heater 201 carry the heat to third pipeline 204 and second pipeline 202 respectively, make the inside temperature of monitoring box 1 rise, when the humiture detector in the first temperature-sensing heater 101 detects that the inside temperature of monitoring box 1 is the same with the outside temperature, first temperature-sensing heater 101 and second temperature-sensing heater 201 stop heating, through the state that the temperature is invariable, make the moisture unable condense on the monitoring box 1 casing, prevent that liquid water adheres to the casing and lead to the corruption.

Example 4

On the basis of the

embodiments

1 and 2, as shown in fig. 1, 2 and 15, the insect repellent is further included, and the insect repellent includes a liquid storage box 301 and an atomizing head 302; one end of the second pipeline 202 far away from the second temperature-sensing heater 201 is fixedly connected with a liquid storage box 301; an atomizing head 302 is fixedly connected to the liquid storage box 301; one end of the third pipeline 204 far away from the first temperature-sensing heater 101 is fixedly connected with another liquid storage box 301; the liquid storage box 301 is fixedly connected with the atomizing head 302; through the cooperation of second pipeline 202 and third pipeline 204, with the insect repellent liquid heating atomizing in two liquid storage boxes 301, utilize atomising head 302 to disperse the fog in monitor box 1, and then to monitor box 1 expelling parasite.

The insect repellent is installed in monitor box 1 downside for the insect repellent liquid after the atomizing rises to monitor box 1 top from monitor box 1 downside through expend with heat and contract with cold phenomenon, makes insect repellent liquid be full of monitor box 1, improves the insect repellent effect.

It will be appreciated by persons skilled in the art that the above embodiments are not intended to limit the invention in any way, and that all technical solutions obtained by means of equivalent substitutions or equivalent transformations fall within the scope of the invention.

Claims

1. A real-time monitoring box based on the Internet of things comprises a monitoring box (1), a guide plate (2) and a power supply (3); a wire inlet hole (1001) for connecting an external wire harness is formed in the monitoring box (1); a wire-arranging groove (1002) for arranging the device wire harness is formed in the monitoring box (1); a guide plate (2) for guiding the deposited rainwater is arranged on the monitoring box (1); a power supply (3) is arranged on the monitoring box (1); the method is characterized in that: the device also comprises a fan (4), a flow divider (5), an isolation plate (6) and a dehumidification system; a fan (4) for cooling the inside of the monitoring box (1) is arranged on the upper side of the monitoring box (1); an air inlet hole (5001) for enabling the fan (4) to pump air is formed in the rear side of the monitoring box (1); a diverter (5) for dispersing wind is arranged at the lower side of the monitoring box (1); the upper end of the diverter (5) is provided with a plurality of V-shaped sloping plates, the lower end of the diverter is provided with a drain board, and the sloping plates are sequentially fixed at equal intervals from top to bottom; an isolation plate (6) for isolating outside air is arranged on the monitoring box (1); a cooling groove (4001) is arranged between the isolation plate (6) and the monitoring box (1); the monitoring box (1) is provided with a dehumidifying system for dehumidifying air.

2. The real-time monitoring box based on the internet of things according to claim 1, wherein: the flow divider (5) is composed of a plurality of V-shaped inclined plates which are sequentially and equidistantly arranged from top to bottom.

3. The real-time monitoring box based on the internet of things according to claim 2, wherein: the dehumidification system comprises a first temperature-sensitive heater (101), a first pipeline (102), a first fixed block (103), a heating rod (104), a wire binding device (105), a wire protection plate (106) and an air guide plate (107); the right side of the monitoring box (1) is fixedly connected with a first temperature-sensing heater (101) for controlling the temperature in the monitoring box (1); a detector for detecting the outside temperature and the air humidity is arranged on the first temperature-sensing heater (101); a first pipeline (102) for transmitting the heat of the first temperature-sensing heater (101) is fixedly connected to the lower side of the first temperature-sensing heater (101); a plurality of first fixing blocks (103) are fixedly connected on the isolation plate (6); the first pipeline (102) is fixedly connected with a plurality of first fixing blocks (103); a plurality of heating rods (104) for dehumidifying air are fixedly connected to the lower side of the first pipeline (102); the flow divider (5) is positioned among the heating rods (104); a drain board is arranged at the lower side of the V-shaped sloping plate at the lowest part of the diverter (5); a plurality of ring sheets are arranged on the heating rod (104); a plurality of wire bunchers (105) for arranging wire bundles are fixedly connected to the rear side of the monitoring box (1); the wire harness device (105) is provided with a plurality of rotatable ring pieces, and each ring piece is provided with a plurality of clamping rings; a wire protection plate (106) for preventing the wire harness from being wet is fixedly connected to the rear side of the monitoring box (1); the wire protection plate (106) is hollow in the inside, and the left side and the right side of the wire protection plate are provided with adaptive wire outlet holes; an induced air plate (107) for converging the wind introduced by the fan (4) is fixedly connected to the rear side of the monitoring box (1); the wind guiding plate (107) is arranged in a door shape, and the left side and the right side of the wind guiding plate are provided with wire outlet holes; the wire protection plate (106) is fixedly connected with the air guiding plate (107).

4. The real-time monitoring box based on the internet of things according to claim 3, wherein: the heating rod (104) is provided with a plurality of ring pieces.

5. The real-time monitoring box based on the internet of things according to claim 3, wherein: a plurality of rotatable ring pieces are arranged on the wire harness device (105), and a plurality of clamping rings are arranged on each ring piece.

6. The real-time monitoring box based on the internet of things according to claim 3, wherein: the wire protection plate (106) is hollow in the inside, and wire outlet holes are formed in the left side and the right side.

7. The real-time monitoring box based on the internet of things according to claim 3, wherein: the wind guiding plate (107) is arranged into a door-shaped structure, and the left side and the right side of the wind guiding plate are provided with wire outlet holes.

8. The real-time monitoring box based on the internet of things according to claim 1, wherein: the constant temperature system comprises a second temperature-sensing heater (201), a second pipeline (202), a second fixed block (203), a third pipeline (204) and a third fixed block (205); the left side of the monitoring box (1) is fixedly connected with a second temperature-sensing heater (201) for monitoring the temperature in the monitoring box (1) in real time; a second pipeline (202) for heating the monitoring box (1) is fixedly connected to the second temperature-sensing heater (201); a second fixed block (203) is fixedly connected to the left side of the monitoring box (1); the second fixed block (203) is fixedly connected with the second pipeline (202); a third pipeline (204) is fixedly connected to the first temperature-sensing heater (101); a third fixed block (205) is fixedly connected to the right side of the monitoring box (1); the third fixed block (205) is fixedly connected with the third pipeline (204).

9. The real-time monitoring box based on the internet of things according to claim 8, wherein: the insect repellent is characterized by further comprising an insect repellent, wherein the insect repellent comprises a liquid storage box (301) and an atomizing head (302); one end of the second pipeline (202) far away from the second temperature-sensing heater (201) is fixedly connected with a liquid storage box (301) for storing insect repellent liquid; an atomizing head (302) for dispersing the atomized insect repellent liquid is fixedly connected to the liquid storage box (301); one end of the third pipeline (204) far away from the first temperature-sensing heater (101) is fixedly connected with another liquid storage box (301); the liquid storage box (301) is fixedly connected with the atomizing head (302).

10. The real-time monitoring box based on the internet of things according to claim 9, wherein: the insect repeller is arranged at the lower side of the monitoring box (1).