CN212676667U - Power distribution cabinet intelligently adjusted along with environment - Google Patents

Abstract

The utility model provides a power distribution cabinet intelligently adjusted along with environment, which comprises a main body frame, a heat dissipation protection adjusting part, an energy auxiliary part, an environment information acquisition part and an intelligent regulation and control part; the main body frame comprises a base and a power distribution cabinet frame. The base comprises a base and a bearing seat. The base is a cuboid hollow container I, a rectangular through hole III is formed in the left side plate of the cuboid hollow container I, and two circular through holes I are formed in the upper bottom plate of the cuboid hollow container I; the upper bottom plate of the base is provided with a bearing seat which is a cuboid hollow container II, and the right side plate of the bearing seat is provided with two circular through holes II. The intelligent adjustment of the distribution cabinet in a changeable environment can be realized, so that the heat dissipation and moisture prevention of the power distribution cabinet can be realized; meanwhile, partial energy self-sufficiency can be realized, and the service life of the power distribution cabinet is obviously prolonged.

Description

Power distribution cabinet intelligently adjusted along with environment

Technical Field

The utility model relates to a distribution field especially relates to a switch board along with environment intelligent regulation.

Background

At present, power distribution cabinets are widely applied to the field of power distribution, but the dryness of the power distribution cabinet with good fan thermal performance is difficult to guarantee, and electronic elements in the power distribution cabinet are easy to be wet and damaged particularly in outdoor environment under partial severe weather (such as thunderstorm, strong wind and the like); the drying performance is excellent, and most fan heating effects are not good; especially under the changeable environment, the switch board is difficult to satisfy the demand on the world, has to satisfy the demand with the mode of frequent change electronic component, causes circuit maintenance cost to rise. In addition, it still has great potential safety hazard problem.

SUMMERY OF THE UTILITY MODEL

The utility model provides a switch board along with environment intelligent regulation has solved the world and has gone up the switch board and be difficult to adapt to changeable environment, and heat dissipation and moisture resistance can not compromise to and the maintenance cost of maintenance height that leads to from this and the security is difficult to the problem of guarantee.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a switch board along with environment intelligent regulation, includes main body frame, heat dissipation protection adjustment part, energy auxiliary part, environmental information acquisition part and intelligent control part.

The main body frame comprises a base and a power distribution cabinet frame.

The base comprises a base and a bearing seat.

The base is a cuboid hollow container I, a rectangular through hole III is formed in a left side plate of the cuboid hollow container I, and two circular through holes I are formed in an upper base plate of the cuboid hollow container I.

The upper base plate of the base is provided with a bearing seat which is a cuboid hollow container II, and the right side plate of the bearing seat is provided with two circular through holes II.

The power distribution cabinet frame is a cuboid hollow container III, a rectangular through hole I is formed in the front side plate of the cuboid hollow container III, and a rectangular through hole II is formed in the upper bottom plate of the cuboid hollow container III; three left side plates and three right side plates of the cuboid hollow container are respectively provided with a square connecting block; and a rectangular through hole IV is formed in each of the three left side plates and the right side plate of the cuboid hollow container and is positioned below the square connecting block.

The heat dissipation protection adjusting part comprises a passive heat dissipation device, an active heat dissipation device and a protection adjusting device.

The passive heat dissipation device main body is a square thin plate, a long strip-shaped through hole is formed in the square thin plate, a rain-proof edge inclining downwards is arranged on the square thin plate, and the rain-proof edge is located above the long strip-shaped through hole; the passive heat dissipation device is arranged in the rectangular through hole IV.

The active heat sink includes a device deployment mechanism and a device enhancement assist mechanism.

The device unfolding mechanism comprises a protective cover, a first push rod motor, a first micro exhaust fan and a second micro exhaust fan; the protective cover is an inverted rectangular container, a square open slot is arranged on the front side plate of the inverted rectangular container, two heat insulation plates are arranged at the top end of the inverted rectangular container, and an arched ridge is formed by fixedly connecting the heat insulation plates; the first miniature exhaust fan is arranged in a rectangular through hole II in a rectangular hollow container III, four first push rod motors are arranged below the inverted rectangular container, and bases of the first push rod motors are arranged on square connecting blocks; the middle parts of the left side plate, the right side plate and the rear side plate of the inverted rectangular container are respectively provided with a miniature exhaust fan II.

The device enhancement aid mechanism includes a left device enhancement aid region and a right device enhancement aid region.

The left side device reinforcing auxiliary area comprises a screw motor I and a waterproof breathable film (such as jacket cloth); the first screw rod motor is arranged in the base, the first screw rod of the first screw rod motor penetrates through the first circular through hole, the rotor of the first screw rod motor is fixedly connected to the waterproof breathable film, the other end of the waterproof breathable film is arranged on the upper base plate of the base through a reel, and a coil spring is arranged in the reel.

And the right device enhancement auxiliary area comprises a movable frame, a push rod motor II and a waterproof breathable film.

The movable frame comprises a push rod motor III, a cuboid hollow container IV, a cuboid hollow container V and a cuboid hollow container VI; a third push rod motor is arranged in the bearing seat, the movable end of the third push rod motor penetrates through the second circular through hole and then is fixedly connected to the fourth left side plate of the rectangular hollow container, the fourth upper base plate of the rectangular hollow container is provided with the third circular through hole, and the left side and the right side of the fourth upper base plate of the rectangular hollow container are respectively provided with a fifth rectangular hollow container and a sixth rectangular hollow container; and the upper bottom plates of the cuboid hollow container five and the cuboid hollow container six are respectively provided with a circular through hole five.

Two screw motor two set up in cuboid hollow container four, and screw motor two screw rods pass circular through-hole three, and screw motor two's active cell links firmly on waterproof ventilated membrane, and the waterproof ventilated membrane other end passes through the spool and sets up the wind spring in the spool on cuboid hollow container four.

The energy auxiliary part comprises a light energy collecting device, a wind energy collecting device and an energy storage device.

The light energy collecting device comprises a solar photoelectric plate, a mounting frame and an auxiliary hook; the outer end of the square connecting block is provided with a pin column, one end of the connecting rod is connected to the pin column through a pin shaft, the other end of the connecting rod is connected to the mounting frame through a pin shaft, the outer wall of the mounting frame is provided with a fixing ring, the solar photovoltaic panel is arranged in the mounting frame, and the auxiliary hook is arranged on the power distribution cabinet frame.

The wind energy collecting device comprises a wind cup rod and a generator, the wind cup rod penetrates through the five circular through holes and then is fixedly connected to a rotating shaft of the generator, a base of the generator is fixedly connected to the four push rod motors, and the four push rod motors are located on the lower base plate of the six cuboid hollow containers.

The energy storage device is arranged in the base.

The environment information acquisition part comprises an instantaneous rainfall information acquisition device, an air speed sensor, a humidity sensor, a temperature sensor and a microprocessor.

Instantaneous rainfall information collection device is a circular light collection dish, and circular light collection dish below sets up optical rainfall sensor module, and optical rainfall sensor module sets up unable adjustment base down, sets up the telescopic link on the unable adjustment base right side wall, and the telescopic link other end links firmly on a balancing weight after passing rectangular through-hole two.

The wind speed sensor is arranged in the cuboid hollow container five, and an induction head of the wind speed sensor penetrates through the circular through hole five and is located above an upper bottom plate of the cuboid hollow container five.

The humidity sensor and the temperature sensor are arranged on the power distribution cabinet frame.

The microprocessor is arranged in the base.

Furthermore, a rectangular through hole V is additionally arranged on the rear side plate of the cuboid hollow container III, and a passive heat dissipation device is arranged.

Further, the rainfall information acquisition device is additionally provided with a funnel support.

Furthermore, a wind speed sensor is additionally arranged on one side of the second micro exhaust fan and is electrically connected with the microprocessor.

Preferably, the combination of the optical rainfall sensor module and the circular light ray collecting disc is replaced by a cylindrical rainwater collecting disc and a pressure sensor; a drainage hole is formed in the position, 1cm away from the lower bottom surface, of the cylindrical rainwater collection disc, a drip funnel hole is formed in the bottom of the cylindrical rainwater collection disc, a pressure sensor is arranged on the lower bottom of the collection disc, and the lower bottom surface of the pressure sensor is arranged on the fixed base; the pressure sensor is electrically connected with the microprocessor.

Compared with the prior art, the method has the beneficial effects that:

in the utility model, through the integrated arrangement of the main body frame, the heat dissipation protection adjusting part, the energy auxiliary part, the environment information collecting part and the intelligent adjusting and controlling part, the intelligent adjustment of the cabinet under the changeable environment can be realized, so that the heat dissipation and moisture prevention of the power distribution cabinet can be realized; meanwhile, partial energy self-sufficiency can be realized, and the service life of the power distribution cabinet is obviously prolonged.

Drawings

FIG. 1 is a schematic view of a non-working front view partial section structure of the present invention;

FIG. 2 is a schematic view of the front view of the partial cross-section structure of the present invention;

fig. 3 is a schematic view of the top view of the partial cross-sectional structure of the present invention.

In the figure: 101. the solar energy power distribution cabinet comprises a base 102, a rectangular through hole III, a rectangular through hole I, a rectangular through hole II, a rectangular connecting block 109, a protective cover 201, a protective cover 202, a thermal baffle 203, a miniature exhaust fan I, a miniature exhaust fan 204, a push rod motor I, a miniature exhaust fan II, a screw rod motor I, a scroll shaft 207, a push rod motor III, a rectangular hollow container IV, a rectangular hollow container V, a rectangular hollow container 211, a rectangular hollow container VI, a circular through hole V, a circular through hole 301, a solar photoelectric plate 302, a mounting frame 303, a pin column 304, a wind cup rod 305, an energy storage device 401, a circular light collecting disc 403 and a fixed base.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Embodiment 1, refer to fig. 1-3, a power distribution cabinet intelligently adjusted according to environment includes a main body frame, a heat dissipation protection adjusting portion, an energy auxiliary portion, an environmental information collecting portion, and an intelligent control portion.

The body frame includes a base and a cabinet frame 106.

The base comprises a base 101 and a socket 104.

The base 101 is a cuboid hollow container I, a rectangular through hole III 102 is formed in a left side plate of the cuboid hollow container I, and two circular through holes I103 are formed in an upper bottom plate of the cuboid hollow container I.

The upper bottom plate of the base 101 is provided with a bearing seat 104, the bearing seat 104 is a second cuboid hollow container, and the right side plate of the bearing seat 104 is provided with two second circular through holes 105.

The power distribution cabinet frame 106 is a cuboid hollow container III, a rectangular through hole I107 is formed in the front side plate of the cuboid hollow container III, and a rectangular through hole II 108 is formed in the upper bottom plate of the cuboid hollow container III; a square connecting block 109 is respectively arranged on the three left side plates and the right side plates of the cuboid hollow container; and a rectangular through hole IV is formed in each of the three left side plates and the right side plate of the cuboid hollow container and is positioned below the square connecting block 109.

The heat dissipation protection adjusting part comprises a passive heat dissipation device, an active heat dissipation device and a protection adjusting device.

The passive heat dissipation device main body is a square thin plate, a long strip-shaped through hole is formed in the square thin plate, a rain-proof edge inclining downwards is arranged on the square thin plate, and the rain-proof edge is located above the long strip-shaped through hole; the passive heat dissipation device is arranged in the rectangular through hole IV.

The active heat sink includes a device deployment mechanism and a device enhancement assist mechanism (screw motor).

The device unfolding mechanism comprises a protective cover 201, a first push rod motor 204, a first miniature exhaust fan 203 and a second miniature exhaust fan 205; the protective cover 201 is an inverted rectangular container, a square open slot is arranged on the front side plate of the inverted rectangular container, two heat insulation plates 202 are arranged at the top end of the inverted rectangular container, and an arched ridge is formed by fixedly connecting the heat insulation plates 202; the first miniature exhaust fan 203 is arranged in the second rectangular through hole 108 on the third rectangular hollow container, the four first push rod motors 204 are arranged below the inverted rectangular container, and the bases of the first push rod motors 204 are arranged on the square connecting blocks 109; the middle parts of the left side plate, the right side plate and the rear side plate of the inverted rectangular container are respectively provided with a second miniature exhaust fan 205.

The device enhancement aid mechanism includes a left device enhancement aid region and a right device enhancement aid region.

The reinforcing auxiliary area of the left side device comprises a screw motor I206 and a waterproof breathable film (such as a jacket cloth); a screw motor 206 is arranged in the base 101, a screw of the screw motor 206 penetrates through the first circular through hole 103, a rotor of the screw motor 206 is fixedly connected to the waterproof breathable film, the other end of the waterproof breathable film is arranged on an upper base plate of the base 101 through a scroll 207, and a coil spring is arranged in the scroll 207.

And the right device enhancement auxiliary area comprises a movable frame, a push rod motor II and a waterproof breathable film.

The movable frame comprises a third push rod motor 208, a fourth cuboid hollow container 209, a fifth cuboid hollow container 210 and a sixth cuboid hollow container 211; a third push rod motor 208 is arranged in the bearing seat 104, the movable end of the third push rod motor 208 penetrates through the second circular through hole 105 and then is fixedly connected to the left side plate of the fourth cuboid hollow container 209, the upper bottom plate of the fourth cuboid hollow container 209 is provided with a third circular through hole, and the left side and the right side of the upper bottom plate of the fourth cuboid hollow container 209 are respectively provided with a fifth cuboid hollow container 210 and a sixth cuboid hollow container 211; the upper bottom plates of the five cuboid hollow containers 210 and the six cuboid hollow containers 211 are respectively provided with a five circular through hole 212.

Two screw motor two set up in cuboid cavity container four 209, and screw motor two screw rods pass circular through-hole three, and the active cell of screw motor two links firmly on waterproof ventilated membrane, and the waterproof ventilated membrane other end passes through spool 207 and sets up on cuboid cavity container four 209, sets up the wind spring in the spool 207.

The energy auxiliary part comprises a light energy collecting device, a wind energy collecting device and an energy storage device 305.

The light energy collecting device comprises a solar photoelectric plate 301, a mounting frame 302 and an auxiliary hook; the outer end of the square connecting block 109 is provided with a pin column 303, one end of the connecting rod is connected to the pin shaft, the other end of the connecting rod is connected to the mounting frame 302 through the pin shaft, the outer wall of the mounting frame 302 is provided with a fixing ring, the solar photovoltaic panel 301 is arranged in the mounting frame 302, and the auxiliary hook is arranged on the power distribution cabinet frame 106.

The wind energy collecting device comprises a wind cup rod 304 and a generator, the wind cup rod 304 is fixedly connected to a rotating shaft of the generator after penetrating through the five circular through holes 212, a base of the generator is fixedly connected to the fourth push rod motor, and the fourth push rod motor is located on a lower bottom plate of the six cuboid hollow containers 211.

The energy storage device 305 is disposed in the base 101.

The environment information acquisition part comprises an instantaneous rainfall information acquisition device, an air speed sensor, a humidity sensor, a temperature sensor and a microprocessor.

Instantaneous rainfall information collection device is a circular light collection dish 401, and circular light collection dish 401 below sets up optics formula rainfall sensor module, and optics formula rainfall sensor module sets up unable adjustment base 403 to the bottom, sets up the telescopic link on unable adjustment base 403 right side wall, and the telescopic link other end links firmly on a balancing weight after passing two 108 of rectangle through-holes.

The wind speed sensor is arranged in the cuboid hollow container five 210, and an induction head of the wind speed sensor penetrates through the circular through hole five 212 and is located above an upper bottom plate of the cuboid hollow container five 210.

The humidity sensor and the temperature sensor are disposed on the power distribution cabinet frame 106.

The microprocessor is arranged in the base.

The intelligent regulation and control part comprises a reset electrical frequency switch and a work starting electrical frequency switch.

The working principle and the using method are as follows:

presetting: and debugging software and a sensor of the power distribution cabinet, and performing test operation. And installing and debugging the power distribution cabinet. The self-reserve energy of the power distribution cabinet is used in severe environment, such as plum rain, strong wind, extreme cold and the like.

Installation: and opening the light energy collecting device, adjusting the position of the solar photovoltaic panel 301, and finally fixing the solar photovoltaic panel through the hook.

And taking out the instantaneous rainfall information acquisition device, and adjusting the position to ensure that the rainwater is smoothly collected.

Pressing the piezoelectric frequency switch, and outputting signals to a fourth push rod motor and a third push rod motor 208 by the microprocessor; the third push rod motor 208 and the fourth push rod motor extend in sequence, so that the wind cup rod 304 of the wind driven generator is located at a reasonable position (higher than the device main body, and the positions are adjusted by adjusting the extension lengths of the third push rod motor 208 and the fourth push rod motor through software).

When the reset frequency switch is pressed during disassembly, the microprocessor can output signals to the fourth push rod motor and the third push rod motor 208 to carry out reset operation.

And (3) environmental conditioning: temperature adjustment, wherein when the temperature sensor senses that the temperature is higher than the preset temperature, the microprocessor outputs a signal to the first push rod motor 204, and the first push rod motor 204 extends to open the protective cover 201;

if the temperature is higher than the temperature in the normal working range of the instrument (a preset second temperature value), the microprocessor outputs a signal to the first exhaust fan to cool, and when the temperature is continuously measured for many times and cannot be lowered to the normal working temperature, the microprocessor outputs a signal to the second exhaust fan, and the second exhaust fan starts to assist air flow, so that the cooling effect is accelerated; otherwise, the exhaust fans are closed in sequence.

When the temperature sensor senses that the temperature is lower than the preset temperature (the temperature can be set through software), the microprocessor outputs a signal to the first push rod motor 204, and the protective cover 201 is reset.

And (4) judging environmental information, wherein when the humidity or wind speed sensor detects out standard exceeding information, the microprocessor outputs a signal to enable the equipment to be in a reset state, and loss is reduced.

If the data (optical rainfall sensor module) collected by the instantaneous rainfall information acquisition device reaches a preset value, the equipment is also in a reset state, and when the rain stops, the microprocessor outputs a signal to enable the equipment to be in a normal working state.

In embodiment 2, in addition to embodiment 1, a rectangular through hole five is additionally formed in the rear side plate of the rectangular hollow container three, and a passive heat dissipation device is arranged.

Embodiment 3, on the basis of embodiment 1, the rainfall information acquisition device adds the funnel support, improves detection speed, reduces the sensitivity demand to reduce cost.

In embodiment 4, based on embodiment 1, the second air discharge fan 205 is additionally provided with an air speed sensor and electrically connected to the microprocessor, so as to further improve the accuracy, the active cooling effect and the intelligence of the device for determining the environment.

Embodiment 5, on the basis of embodiment 1, the combination of the optical rainfall sensor module and the circular light ray collecting disc is replaced by a cylindrical rainwater collecting disc and a pressure sensor; a drainage hole is formed in the position, 1cm away from the lower bottom surface, of the cylindrical rainwater collection disc, a drip funnel hole is formed in the bottom of the cylindrical rainwater collection disc, a pressure sensor is arranged on the lower bottom of the collection disc, and the lower bottom surface of the pressure sensor is arranged on the fixed base 403; the production cost is reduced. If the data of the instantaneous rainfall information (the weight of the rainwater is measured by the pressure sensor) reaches a preset value, the equipment is also in a reset state, and when the rainwater flows out, the microprocessor outputs a signal to enable the equipment to be in a normal working state.

Above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the design of the present invention, equivalent replacement or change should be covered within the protection scope of the present invention.

The utility model discloses the part that does not relate to all adopts prior art to realize.

Claims (10)

1. The utility model provides a switch board along with environment intelligent regulation which characterized in that: the intelligent heat dissipation protection system comprises a main body frame, a heat dissipation protection adjusting part, an energy auxiliary part, an environmental information acquisition part and an intelligent regulation and control part;

the heat dissipation protection adjusting part comprises a passive heat dissipation device and an active heat dissipation device;

the active heat dissipation device comprises a device unfolding mechanism and a device reinforcing auxiliary mechanism;

the device unfolding mechanism comprises a protective cover, a first push rod motor, a first micro exhaust fan and a second micro exhaust fan;

the device enhancement assist mechanism comprises a left device enhancement assist region and a right device enhancement assist region;

the left side device reinforcing auxiliary area comprises a screw motor I and a waterproof breathable film; the first screw motor is arranged in the base, a screw of the first screw motor penetrates through the first circular through hole, a rotor of the first screw motor is fixedly connected to the waterproof breathable film, and the other end of the waterproof breathable film is arranged on an upper base plate of the base through a scroll;

the right device enhancement auxiliary area comprises a movable frame, a push rod motor II and a waterproof breathable film;

the movable frame comprises a push rod motor III, a cuboid hollow container IV, a cuboid hollow container V and a cuboid hollow container VI; a third push rod motor is arranged in the bearing seat, the movable end of the third push rod motor penetrates through the second circular through hole and then is fixedly connected to the fourth left side plate of the rectangular hollow container, the fourth upper base plate of the rectangular hollow container is provided with the third circular through hole, and the left side and the right side of the fourth upper base plate of the rectangular hollow container are respectively provided with a fifth rectangular hollow container and a sixth rectangular hollow container; the upper bottom plates of the cuboid hollow container five and the cuboid hollow container six are respectively provided with a circular through hole five;

the two screw motors II are arranged in the cuboid hollow container IV, screws of the screw motors II penetrate through the circular through holes III, the rotor of the screw motor II is fixedly connected to the waterproof breathable film, the other end of the waterproof breathable film is arranged on the cuboid hollow container IV through a scroll, and a coil spring is arranged in the scroll;

the energy auxiliary part comprises a light energy collecting device, a wind energy collecting device and an energy storage device;

the intelligent regulation and control part comprises a reset electrical frequency switch and a work starting electrical frequency switch.

2. The power distribution cabinet intelligently adjusted according to the environment is characterized in that: the protective cover is an inverted rectangular container, a square open slot is arranged on the front side plate of the inverted rectangular container, two heat insulation plates are arranged at the top end of the inverted rectangular container, and an arched ridge is formed by fixedly connecting the heat insulation plates; the first miniature exhaust fan is arranged in a rectangular through hole II in a rectangular hollow container III, four first push rod motors are arranged below the inverted rectangular container, and bases of the first push rod motors are arranged on square connecting blocks; the middle parts of the left side plate, the right side plate and the rear side plate of the inverted rectangular container are respectively provided with a miniature exhaust fan II.

3. The power distribution cabinet intelligently adjusted according to the environment is characterized in that: the passive heat dissipation device main body is a square thin plate, a long strip-shaped through hole is formed in the square thin plate, a rain-proof edge inclining downwards is arranged on the square thin plate, and the rain-proof edge is located above the long strip-shaped through hole; the passive heat dissipation device is arranged in the rectangular through hole IV.

4. The power distribution cabinet intelligently adjusted according to the environment is characterized in that: the light energy collecting device comprises a solar photoelectric plate, a mounting frame and an auxiliary hook; the outer end of the square connecting block is provided with a pin post, one end of the connecting rod is connected to the pin shaft in a pin mode, the other end of the connecting rod is connected to the mounting frame in a pin mode, the outer wall of the mounting frame is provided with a fixing ring, the solar photovoltaic panel is arranged in the mounting frame, and the auxiliary hook is arranged on the power distribution cabinet frame;

the wind energy collecting device comprises a wind cup rod and a generator, the wind cup rod penetrates through the circular through hole five and then is fixedly connected to a rotating shaft of the generator, a base of the generator is fixedly connected to a push rod motor four, and the push rod motor four is positioned on a lower bottom plate of the cuboid hollow container six;

the energy storage device is arranged in the base.

5. The power distribution cabinet intelligently adjusted according to the environment is characterized in that: the environment information acquisition part comprises an instantaneous rainfall information acquisition device, an air speed sensor, a humidity sensor, a temperature sensor and a microprocessor;

the instantaneous rainfall information acquisition device is a circular light ray acquisition disc, an optical rainfall sensor module is arranged below the circular light ray acquisition disc, a fixed base is arranged at the lower bottom of the optical rainfall sensor module, a telescopic rod is arranged on the right side wall of the fixed base, and the other end of the telescopic rod penetrates through the rectangular through hole II and then is fixedly connected to a balancing weight;

the wind speed sensor is arranged in the cuboid hollow container five, and an induction head of the wind speed sensor penetrates through the circular through hole five and is positioned above the upper bottom plate of the cuboid hollow container five;

the humidity sensor and the temperature sensor are arranged on the power distribution cabinet frame;

the microprocessor is arranged in the base.

6. The power distribution cabinet intelligently adjusted according to the environment is characterized in that: the main body frame comprises a base and a power distribution cabinet frame;

the base comprises a base and a bearing seat;

the base is a first cuboid hollow container, a third rectangular through hole is formed in the left side plate of the first cuboid hollow container, and a first two circular through holes are formed in the upper bottom plate of the first cuboid hollow container;

the upper bottom plate of the base is provided with a bearing seat which is a second cuboid hollow container, and the right side plate of the bearing seat is provided with two second circular through holes;

the power distribution cabinet frame is a cuboid hollow container III, a rectangular through hole I is formed in the front side plate of the cuboid hollow container III, and a rectangular through hole II is formed in the upper bottom plate of the cuboid hollow container III; three left side plates and three right side plates of the cuboid hollow container are respectively provided with a square connecting block; and a rectangular through hole IV is formed in each of the three left side plates and the right side plate of the cuboid hollow container and is positioned below the square connecting block.

7. The power distribution cabinet intelligently adjusted according to the environment is characterized in that: and a rectangular through hole V is additionally formed in the rear side plate of the cuboid hollow container III, and a passive heat dissipation device is arranged.

8. The power distribution cabinet intelligently adjusted according to the environment is characterized in that: a funnel support is additionally arranged on the rainfall information acquisition device.

9. The power distribution cabinet intelligently adjusted according to the environment is characterized in that: and the wind speed sensor is additionally arranged on one side of the second miniature exhaust fan and is electrically connected with the microprocessor.

10. The power distribution cabinet intelligently adjusted according to the environment is characterized in that: replacing the combination of the optical rainfall sensor module and the circular light ray collecting disc with a cylindrical rainwater collecting disc and a pressure sensor; a drainage hole is formed in the position, 1cm away from the lower bottom surface, of the cylindrical rainwater collection disc, a drip funnel hole is formed in the bottom of the cylindrical rainwater collection disc, a pressure sensor is arranged on the lower bottom of the collection disc, and the lower bottom surface of the pressure sensor is arranged on the fixed base; the pressure sensor is electrically connected with the microprocessor.

Images