CN113238300A

CN113238300A - Intelligent miniature meteorological detection device powered by photovoltaic power generation

Info

Publication number: CN113238300A
Application number: CN202110650398.3A
Authority: CN
Inventors: 梁辰; 李珊
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-06-11
Filing date: 2021-06-11
Publication date: 2021-08-10

Abstract

The invention discloses an intelligent miniature meteorological detection device powered by photovoltaic power generation, which comprises a host collector and a solar cell panel, wherein a main support is fixed at the rear part of the host collector, a top support frame, a middle support frame and an auxiliary support are sequentially arranged on the outer side of the main support from top to bottom, the auxiliary support comprises a plurality of foot support frames, a fixed sleeve rotatably connected with the top ends of the foot support frames, and a plurality of ground supporting sheets which are arranged at the bottom ends of the foot support frames and can be unfolded into round blocks, and the ground supporting sheets can be folded into petal shapes and hidden in the foot sleeves. The foldable and unfoldable rack is provided with the top support frame and the middle support frame, is used for supporting various sensors and can be folded into a ring shape, does not hurt workers, has safety, can be folded upwards and closed during storage through the arranged foot support frame capable of being turned upwards and downwards, reduces the space occupation, is convenient to transport and move, and has practical value.

Description

Intelligent miniature meteorological detection device powered by photovoltaic power generation

Technical Field

The invention relates to the technical field of meteorological detection, in particular to an intelligent miniature meteorological detection device powered by photovoltaic power generation.

Background

With the development of microelectronics, computer technology, satellite technology and material science, many technologies are applied to meteorological observation automation, so that the detection precision and maintainability of meteorological monitoring are greatly improved. Therefore, more and more companies begin to develop intelligent miniaturized meteorological station instruments and equipment, which are integrated into an advanced automatic meteorological station to implement automatic monitoring of comprehensive ecological information of facility weather and automatic control and intelligent management of environment.

The existing meteorological detector mainly comprises a wind direction and wind speed sensor, a rainfall sensor, a temperature and humidity sensor, a meteorological monitoring host collector, a solar cell panel, a communication module and the like. The system can actively observe and transmit conventional meteorological element information such as air pressure, air temperature, relative humidity, wind direction, wind speed, rainfall and the like, and perform ground meteorological monitoring, storage and monitoring data transmission. Each above-mentioned sensor, collection, power supply and communication part all install on a simple and easy support frame to stand and survey in real time in the district that awaits measuring, because be equipped with a plurality of horizontal straight-bars on the support frame and play the effect of supporting, it is more occupation space when wholly accomodating and transporting, and when moving, easily bump the staff, have certain unsafe factor.

Disclosure of Invention

The invention aims to provide an intelligent miniature meteorological detection device powered by photovoltaic power generation to solve the problems in the background technology.

In order to achieve the purpose, the invention provides an intelligent miniature meteorological detection device powered by photovoltaic power generation, which comprises a host collector and a solar cell panel, wherein a main support is fixed at the rear part of the host collector, a top support frame, a middle support frame and an auxiliary support frame are sequentially arranged on the outer side of the main support frame from top to bottom, two sides of the top support frame and the middle support frame are respectively provided with a foldable and expandable frame which can be folded and unfolded in a circular ring shape, the auxiliary support frame can be folded and unfolded upwards and is arranged on the outer side of the main support frame in a downward overturning and expanding manner, the top support frame is in sleeve fit with the top end of the main support frame, the radial two sides of the top support frame are symmetrically provided with extension arms, the foldable and expandable frames are in a semicircular shape, a pair of the foldable and expandable frames are connected with the outer ends of the extension arms in a reverse rotation manner, the total length of the top support frame and the two extension arms is equal to the diameter of the foldable and expandable frames, and the top surfaces of the outer ends of the two foldable and expandable frames are respectively provided with a wind speed sensor and a wind speed sensor, the middle support frame is in sleeve joint with the outer side of the main support frame, connecting arms are symmetrically arranged on two radial sides of the middle support frame, the outer ends of the connecting arms rotate reversely to be connected with folding and unfolding frames, and a rainfall sensor and a storage box are respectively mounted on the top surfaces of the outer ends of the two folding and unfolding frames.

As a further improvement of this technical scheme, the inside of extension arm is hollow structure and is linked together with the bracing frame is inside, the bottom opening of bracing frame, the vertical symmetry in outer end of extension arm is equipped with the spliced pole, the one end of folding and unfolding the frame is equipped with and cup joints rotatory bulge loop with the spliced pole, this end of folding and unfolding the frame is seted up and is extended to putting the line chamber of its other end.

As a further improvement of the technical scheme, wherein the connecting column is located above the locking hole, the locking hole is formed in the outer side of the connecting column and faces the length direction of the extension arm, a positioning rod inserted into the locking hole is arranged above the extension arm, an inclined platform is arranged on the bottom surface of one end of the positioning rod, and the height from the bottom surface of the locking hole to the extension arm is smaller than the height of the convex ring.

As a further improvement of this technical scheme, be equipped with the guide block of pegging graft with the locating lever on the top surface of extension arm, the locating lever is close to the top strut center side and is equipped with the dog, the outside of locating lever just is located and is equipped with the pressure spring between dog and the guide block by the cover, the top surface center of top strut inlays and is equipped with bearing and bearing top rotation and is connected with the locking block, the constant head tank with locating lever tip joint is seted up to the radial both sides of locking block, the linking arm with the structure of extension arm is the same, be provided with the gag lever post the same with locating lever structure on the linking arm, the top of well strut is provided with the locked loop, the spacing groove with gag lever post tip joint is seted up to the radial both sides of locked loop.

As a further improvement of this technical scheme, the rear side of host computer collector is fixed with the pipe that bears who cup joints with the main support, the protection casing has been cup jointed on the top of bearing the pipe, the outside that bears the pipe and the bottom that is located the host computer collector have cup jointed and prop the ring, the outside that bears the pipe and the upper and lower side that is located solar cell panel is the annular and is equipped with a plurality of go-between, solar cell panel's top back is equipped with and is located top go-between articulated ring, solar cell panel's bottom back articulates has and is located two sections poles of below go-between articulated.

As a further improvement of the technical solution, the auxiliary support includes a plurality of foot supports, a fixed sleeve rotatably connected with the top ends of the foot supports, a plurality of ground supporting pieces which are arranged in the bottom ends of the foot supports and can be flattened into a round block, and a plurality of fixed frame rods which are connected below the fixed sleeve and are used for limiting the supporting angle of the foot supports, the fixed sleeve is in sleeve connection with the bottom end of the main support, the fixed frame rods are annularly distributed, the inner ends of the fixed frame rods are integrally formed to be provided with rotary columns in threaded connection with the fixed sleeve, one side of the top of the foot supports is provided with a slot, the fixed frame rods are L-shaped, the outer ends of the fixed frame rods are bent and are in plug connection with the slot, the bottom ends of the foot supports are provided with horn-shaped foot sleeves, and the ground supporting pieces can be folded into petal-shaped pieces and hidden inside the foot sleeves.

As a further improvement of the technical scheme, a guide pillar is arranged on the central axis of the foot sleeve, a guide groove is formed in one radial side of the guide pillar in a penetrating mode, an annular guide sleeve is sleeved on the outer side of the guide pillar, vertical pieces are symmetrically arranged on the top surface of the guide sleeve, and sliding columns in sliding connection with the guide groove are inserted between the top ends of the vertical pieces.

As a further improvement of the technical scheme, the bottom surface of the guide sleeve is annular and is provided with a plurality of card grooves at equal intervals, the symmetry axis of each card groove does not point to the central axis of the guide sleeve, the two inner sides of each card groove are provided with rotating holes, the ground supporting pieces are fan-shaped blocks, and the two sides of the narrow ends of the ground supporting pieces are provided with protruding columns which are connected with the rotating holes in an inserting mode.

As a further improvement of the technical scheme, a plurality of double-lug hinge rings correspondingly hinged with the foot support frame are arranged on the outer side of the top end of the fixed sleeve at equal intervals, and the bottom end opening of the foot sleeve and the ground supporting sheet in a flattening state can be in lap joint fit.

As a further improvement of the technical scheme, the bottom end of the bearing pipe is sleeved with a foot sleeve ring, the outer side of the bearing pipe is sleeved with a spring above the middle of the foot sleeve ring, and the foot sleeve ring is in sleeved fit with foot sleeves of a plurality of foot supports in an upturned state.

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

1. among this utilize miniature meteorological detection device of intelligence of photovoltaic power generation energy supply, be used for propping up all kinds of sensors through the top strut frame and the medium strut frame that have set up the collapsible exhibition, be provided with the collapsible exhibition frame that synthesizes the ring type on top strut frame and the medium strut frame, do benefit to and reduce the space, and can not injure the staff, have the security.

2. Among this utilize miniature meteorological detection device of intelligence of photovoltaic power generation energy supply, through the heel brace frame that can overturn from top to bottom that sets up for can upturning when accomodating and draw close, and reduce occuping of space, be convenient for transport and remove, practical value has.

3. Among this utilize miniature meteorological detection device of intelligence of photovoltaic power generation energy supply, through all set up the locating lever and the gag lever post that the locking was received and is opened up the frame on top strut frame and medium strut frame for receive and open up the expansion of the frame arbitrary angle and stabilize, make each sensor suspension stable.

4. Among this utilize miniature meteorological detection device of intelligence of photovoltaic power generation energy supply, set up a plurality of pieces that prop ground that can expand to pave in ground through the bottom at the heel brace frame, and obtain large tracts of land supporting effect, be unlikely to be absorbed in earth, its a plurality of pieces that prop ground can be petal formula rolling and hide and accomodate in the podotheca, have practical value.

Drawings

FIG. 1 is a structural view showing an overall developed state in embodiment 1;

fig. 2 is a schematic structural view of an overall folded state in embodiment 1;

FIG. 3 is a schematic structural view of the top stay in the expanded state in accordance with embodiment 1;

fig. 4 is a schematic structural view of a collapsed state of the top brace in embodiment 1;

FIG. 5 is a schematic structural view of the middle support in the expanded state according to embodiment 1;

fig. 6 is a schematic structural view of a collapsed state of the middle support frame in embodiment 1;

FIG. 7 is a schematic view of the structure of the foldable frame according to embodiment 1;

FIG. 8 is an exploded view of a head stay of embodiment 1;

FIG. 9 is an exploded view of the middle stay of embodiment 1;

FIG. 10 is a schematic view showing an assembling structure of a sub-mount according to embodiment 1;

FIG. 11 is a partially disassembled view of the sub-mount of embodiment 1;

FIG. 12 is a disassembled view of the temple frame of embodiment 1;

FIG. 13 is a disassembled view of the stay plate of the embodiment 1;

fig. 14 is a schematic view of a bottom view of the guide sleeve in embodiment 1;

fig. 15 is a bottom view of the guide bush and the stay of embodiment 1 in a disassembled state;

FIG. 16 is a schematic view of a carrier tube structure according to example 1;

FIG. 17 is a side view of the carrier tube of embodiment 1;

FIG. 18 is a disassembled view of the carrier tube of the embodiment 1.

The various reference numbers in the figures mean:

100. a host collector;

110. a solar panel; 120. a carrier tube; 121. a protective cover; 122. a support ring; 123. a connecting ring; 130. sleeving a foot ring; 131. a spring; 140. two sections of rods; 150. a main support;

200. a top bracing frame; 201. an extension arm; 202. a lock hole; 203. connecting columns; 204. a guide block;

210. a folding and unfolding frame; 211. a convex ring; 212. a wire placing cavity; 220. positioning a rod; 221. a sloping table; 222. a stopper; 230. a pressure spring; 240. a locking block; 241. positioning a groove; 250. a wind direction sensor; 260. a wind speed sensor;

300. a middle support frame; 301. a connecting arm;

310. a limiting rod; 320. a locking ring; 321. a limiting groove; 340. a rainfall sensor; 350. a storage box;

400. a sub-mount;

410. fixing a sleeve; 411. a double-lug hinge ring; 420. a foot support frame; 421. a foot cover; 422. a guide post; 423. a guide groove; 424. a slot; 430. a fixed frame rod; 431. rotating the column; 440. a ground supporting sheet; 441. a convex column; 450. a guide sleeve; 451. a card slot; 452. hole turning; 453. a slide column.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "central axis", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Example 1

Referring to fig. 1 to 9, 17 and 18, the present invention provides an intelligent miniature weather detecting device powered by photovoltaic power generation, which includes a host collector 100 and a solar panel 110, wherein the host collector 100 further includes weather analysis software and a GPRS wireless transmission module, and the principle of operation is as known to those skilled in the art, wherein the weather information is collected by a collection system, and then the collected weather information is analyzed and transmitted to a weather station cloud service end by the GPRS wireless transmission module. The solar panel 110 can receive light, and then the light energy is converted into electric energy by the photoelectric converter matched with the solar panel and stored in the storage battery, so that the host collector 100 and all the electric appliances are powered on. The main bracket 150 is fixed at the rear of the main collector 100, the top bracket 200 and the middle bracket 300 are sequentially installed on the outer side of the main bracket 150 from top to bottom, and the foldable and ring-shaped foldable and expandable frame 210 is arranged on both sides of the top bracket 200 and the middle bracket 300, so that the space of the main collector can be reduced when the main collector is stored. The top bracing frame 200 cup joints the cooperation with main support 150 top, the radial bilateral symmetry of top bracing frame 200 is equipped with extension arm 201, it is the semicircle ring type and a pair of receipts exhibition frame 210 is connected with the outer end of extension arm 201 to receive and unfold the frame 210, the total length of top bracing frame 200 and two extension arms 201 equals with the diameter of receiving and unfolding the frame 210, can be located the both sides of top bracing frame 200 and wholly be the ring structure when making two receipts exhibition frame 210 revolve, thereby eliminate the most advanced of traditional vaulting pole and expose and cause the bruise. Wind direction sensor 250 and wind speed sensor 260 are installed respectively to the outer end top surface of two exhibition frame 210, and both all are connected with host computer collector 100 electric, are used for monitoring wind direction and wind speed respectively. The middle support frame 300 is in sleeve joint with the outer side of the main support 150, the connecting arms 301 are symmetrically arranged on two radial sides of the middle support frame 300, the outer ends of the connecting arms 301 rotate reversely to be connected with the folding and unfolding frames 210, the rainfall sensor 340 and the storage box 350 are respectively installed on the top surfaces of the outer ends of the two folding and unfolding frames 210, the temperature and humidity sensor is installed inside the storage box 350, and the temperature and humidity sensor and the host collector 100 are electrically connected and are respectively used for monitoring rainfall, temperature and humidity.

Specifically, the inside of the extension arm 201 is a hollow structure and is communicated with the inside of the top brace 200, and the bottom end of the top brace 200 is opened for passing through the wires, so that the wires are hidden inside the top brace 200 and the main bracket 150. The outer end of extension arm 201 is vertical symmetry to be equipped with spliced pole 203, and the one end of taking up and exhibition frame 210 is equipped with the bulge loop 211 that cup joints the rotation with spliced pole 203 for take up and exhibition frame 210 can rotate, and this end of taking up and exhibition frame 210 is seted up and is extended to putting the line chamber 212 of its other end, and it is used for passing the wire and extends to sensor position.

Specifically, wherein the outside that is located the spliced pole 203 of top and has seted up lockhole 202 towards extension arm 201 length direction, the top of extension arm 201 is provided with the locating lever 220 of pegging graft with lockhole 202, the one end bottom surface of locating lever 220 is equipped with the sloping platform 221, lockhole 202 bottom surface is less than the height of bulge loop 211 to the height of extension arm 201, when locating lever 220 removes to extension arm 201 outer end, along with sloping platform 221 inserts in the lockhole 202, the sloping platform 221 can slowly compress tightly bulge loop 211, make the receipts exhibition frame 210 hover wantonly, guarantee receipts of receipts exhibition frame 210 and expansion stability.

Furthermore, a guide block 204 inserted with the positioning rod 220 is disposed on the top surface of the extension arm 201, so that the positioning rod 220 can be guided to move. The positioning rod 220 is provided with a stop block 222 near the center of the top support frame 200, a pressure spring 230 is sleeved outside the positioning rod 220 and between the stop block 222 and the guide block 204, and when the positioning rod 220 moves towards the outer end of the extension arm 201, the pressure spring 230 can be squeezed to store elastic potential energy so as to restore the positioning rod 220 after being restored, and the folding and unfolding frame 210 can be rotated well. The top surface center of top strut 200 inlays and is equipped with the bearing and the bearing top is rotated and is connected with locking block 240, the constant head tank 241 with the tip joint of locating lever 220 is seted up to the radial both sides of locking block 240, when the circular arc end of locating lever 220 is located constant head tank 241, receive and unfold the frame 210 and can freely rotate, when rotatory locking block 240 makes the circular arc end of locating lever 220 break away from constant head tank 241, pushed towards extension arm 201 outer end promptly, and then insert in the lockhole 202, to receiving and unfolding the radial latched position of frame 210. The connecting arm 301 is the same with the structure of extension arm 201, be provided with the gag lever post 310 the same with locating lever 220 structure on the connecting arm 301, the top of well bracing frame 300 is provided with locking ring 320, because the external diameter of locking ring 320 is greater than locking piece 240, gag lever post 310 reduces for the circular arc end length of locating lever 220, all the other partial structures are the same, the spacing groove 321 with gag lever post 310 tip joint is seted up to the radial both sides of locking ring 320, spacing groove 321 is the same with the effect of constant head tank 241, let gag lever post 310 can move back along its length direction, and realize the locking and the unblock state to taking up exhibition frame 210.

In addition, a bearing tube 120 sleeved with the main bracket 150 is fixed at the rear side of the main frame collector 100 and is fixedly connected with the main bracket 150 through a bolt to play a role of supporting. The top end of the bearing tube 120 is sleeved with a protective cover 121 for preventing rain from immersing into the main collector 100. A support ring 122 is sleeved outside the carrying tube 120 and at the bottom of the host collector 100 for supporting the host collector 100. The outer side of the carrier tube 120 and the upper and lower sides of the solar cell panel 110 are annularly provided with a plurality of connecting rings 123 so as to be connected with a plurality of solar cell panels 110, the top back of the solar cell panel 110 is provided with a circular ring hinged with the connecting ring 123 positioned above, and the bottom back of the solar cell panel 110 is hinged with two sections of rods 140 hinged with the connecting ring 123 positioned below, so that the bottom of the solar cell panel 110 can be folded and unfolded, thereby fully utilizing the space.

Referring to fig. 10 to 16, the present invention provides a foldable main stand, which includes a secondary stand 400, wherein the secondary stand 400 can be folded upwards and folded outside the main stand 150, so as to reduce the floor space of the conventional stand. The auxiliary support 400 comprises a plurality of foot supporting frames 420, a fixed sleeve 410 rotatably connected with the top ends of the foot supporting frames 420, a plurality of ground supporting pieces 440 arranged in the bottom ends of the foot supporting frames 420 and capable of being flattened into round blocks, and a plurality of fixed frame rods 430 connected below the fixed sleeve 410 and used for limiting the supporting angle of the foot supporting frames 420, wherein the plurality of ground supporting pieces 440 can make the auxiliary support 400 stable on the earth ground without sinking into the earth ground by utilizing the characteristic of self enlarged area. The number of foot brackets 420 is at least three. The fixing sleeve 410 is sleeved and matched with the bottom end of the main bracket 150, so that the fixing sleeve is convenient to disassemble and assemble. The plurality of fixed frame rods 430 are distributed annularly, the inner ends of the fixed frame rods 430 are integrally formed with rotary columns 431 in threaded connection with the fixed sleeve 410, slots 424 are formed in one side of the top of the foot support frame 420, the fixed frame rods 430 are L-shaped, the outer end bending sections of the fixed frame rods are in plug-in fit with the slots 424, the front end bending sections of the foot support frame 420 are inserted into the slots 424 through the rotary columns 431, and the foot support frame 420 is guaranteed to be in an outer supporting state, so that the main support 150 is stable. The bottom end of the foot support frame 420 is provided with a trumpet-shaped foot sleeve 421, and the plurality of ground supporting pieces 440 can be folded into petal shapes and hidden in the foot sleeve 421, so that the plurality of ground supporting pieces 440 do not occupy space after the foot support frame 420 is turned upwards.

Specifically, be equipped with guide pillar 422 on the axis of podotheca 421, guide pillar 422's radial one side is run through and has been seted up guide slot 423, guide pillar 422's outside cover is equipped with and is annular guide pin bushing 450, the top surface symmetry of guide pin bushing 450 is equipped with peg graft between the top of riser and riser have with guide slot 423 sliding connection's traveller 453, when traveller 453 slides to the bottom of guide slot 423, can rotate and make a plurality of pieces 440 of propping ground expand the laminating ground.

Specifically, the bottom surface of the guide sleeve 450 is provided with a plurality of card grooves 451 at equal intervals in an annular shape, and the symmetry axes of the card grooves 451 are not directed to the central axis of the guide sleeve 450, so that when the plurality of ground supporting pieces 440 are drawn close to the central axis of the guide sleeve 450, the ground supporting pieces can be alternately pressed and contracted like petals to form a roll shape, and then the ground supporting pieces are hidden in the foot sleeve 421 along with the retraction of the guide sleeve 450 to the inner end of the guide post 422. The card slot 451 is provided with rotation holes 452 at two inner sides thereof, the ground supporting piece 440 is a sector block and the two sides of the narrow end thereof are provided with protruding columns 441 inserted with the rotation holes 452, so that the ground supporting piece 440 can freely rotate, and the card slot 451 does not penetrate through the top surface of the guide sleeve 450, so that the ground supporting piece 440 is limited to be pressed on the ground without being turned upwards.

Furthermore, a plurality of double-lug hinge rings 411 which are correspondingly hinged with the foot support frame 420 are arranged on the outer side of the top end of the fixed sleeve 410 at equal intervals, and the bottom end opening of the foot support 421 and the ground supporting sheet 440 in a flattening state can be in lap joint fit, so that most of the weight on the main support 150 is transmitted to the ground supporting sheet 440 through the foot support frame 420 and the foot support 421 and is pressed on the ground, and therefore the reaction force of the guide pillar 422 on the ground is reduced, and the bending of the guide pillar is avoided.

In addition, the bottom end of the carrying tube 120 is sleeved with the foot-covering ring 130, the spring 131 is sleeved on the outer side of the carrying tube 120 and the middle upper part of the foot-covering ring 130, the foot-covering ring 130 is sleeved and matched with the foot-covering 421 of the plurality of foot-covering frames 420 in an upturned state, and because the top end of the spring 131 is positioned at the bottom of the double-ear hinge ring 411 below the carrying tube 120, the foot-covering ring 130 can be pushed to be always sleeved on the outer side of the folded foot-covering 421 by force, so that the foot-covering frames 420 are prevented from being turned outwards when the main support 150 is transferred.

During the weather monitoring, the main bracket 150 is moved to the area to be detected, the foot ring 130 is lifted to turn over the plurality of foot supporting frames 420, then the plurality of coiled ground supporting pieces 440 drop to the outside of the foot sleeves 421, the coiled ground supporting pieces are broken and flattened and are attached to the ground, then the rotary columns 431 are rotated to enable the front end bending sections of the foot supporting frames 420 to be inserted into the slots 424, the foot supporting frames 420 are enabled to be in an outward-supporting state, the main bracket 150 is enabled to be stable, then the bottom of the solar cell panel 110 is turned outwards to be in an inclined state, sufficient illumination is received, the folding and unfolding frames 210 are rotated outwards to expand the distance as far as possible, then the positioning rods 220 and the limiting rods 310 are respectively enabled to move forwards to press the folding and unfolding frames 210 in contact with the positioning rods by rotating the locking blocks 240 and the locking rings 320, and the stability of the folding and unfolding frames 210 is ensured so that the sensors on the folding and unfolding frames can work stably.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides an utilize miniature meteorological detection device of intelligence of photovoltaic power generation energy supply, includes host computer collector (100) and solar cell panel (110), its characterized in that: the rear of the main machine collector (100) is fixed with a main support (150), the outer side of the main support (150) is sequentially provided with a top support frame (200), a middle support frame (300) and an auxiliary support frame (400) from top to bottom, both sides of the top support frame (200) and the middle support frame (300) are respectively provided with a foldable and circular foldable frame (210), the auxiliary support frame (400) can be downwards overturned and supported and can be upwards folded and folded outside the main support (150), the top support frame (200) is in sleeve fit with the top end of the main support frame (150), extension arms (201) are symmetrically arranged on both radial sides of the top support frame (200), the foldable and foldable frames (210) are semicircular, a pair of the foldable and foldable frames (210) are connected with the outer ends of the extension arms (201) in a reverse rotating manner, the total length of the top support frame (200) and the two extension arms (201) is equal to the diameter of the foldable and foldable frames (210), two wind direction sensor (250) and air velocity transducer (260) are installed respectively to the outer end top surface of exhibition frame (210), well strut (300) cup joints the cooperation with main support (150) outside, the radial bilateral symmetry of well strut (300) is equipped with linking arm (301), and is a pair of the outer end antiport of linking arm (301) is connected with exhibition frame (210), and here two rainfall sensor (340) and storage box (350) are installed respectively to the outer end top surface of exhibition frame (210).

2. The intelligent miniature weather detection device powered by photovoltaic power generation as claimed in claim 1, wherein: the inside of extension arm (201) is hollow structure and is linked together with shore frame (200) is inside, the bottom opening of shore frame (200), the vertical symmetry in outer end of extension arm (201) is equipped with spliced pole (203), the one end of receipts exhibition frame (210) is equipped with and cup joints rotatory bulge loop (211) with spliced pole (203), just this end of receipts exhibition frame (210) is seted up and is extended to putting line chamber (212) of its other end.

3. The intelligent miniature weather detection device powered by photovoltaic power generation as claimed in claim 2, wherein: wherein be located the top the outside of spliced pole (203) just has seted up lockhole (202) towards extension arm (201) length direction, the top of extension arm (201) is provided with locating lever (220) of pegging graft with lockhole (202), the one end bottom surface of locating lever (220) is equipped with ramp (221), the height that highly is less than bulge loop (211) of lockhole (202) bottom surface to extension arm (201).

4. The intelligent miniature weather detection device powered by photovoltaic power generation as claimed in claim 3, wherein: the top surface of the extension arm (201) is provided with a guide block (204) inserted with the positioning rod (220), a stop block (222) is arranged on the side of the positioning rod (220) close to the center of the top support frame (200), a pressure spring (230) is sleeved outside the positioning rod (220) and between the stop block (222) and the guide block (204), a bearing is embedded in the center of the top surface of the top support frame (200), a locking block (240) is rotatably connected above the bearing, positioning grooves (241) clamped with the end parts of the positioning rods (220) are formed in the radial two sides of the locking block (240), the connecting arm (301) has the same structure as the extension arm (201), a limiting rod (310) with the same structure as the positioning rod (220) is arranged on the connecting arm (301), a locking ring (320) is arranged above the middle support frame (300), and limiting grooves (321) clamped with the end parts of the limiting rods (310) are formed in the radial two sides of the locking ring (320).

5. The intelligent miniature weather detection device powered by photovoltaic power generation as claimed in claim 1, wherein: the rear side of host computer collector (100) is fixed with bears pipe (120) that cup joints with main support (150), the top of bearing pipe (120) has cup jointed protection casing (121), the outside that bears pipe (120) and the bottom that is located host computer collector (100) has cup jointed brace ring (122), the outside that bears pipe (120) and the upper and lower below that is located solar cell panel (110) is the annular and is equipped with a plurality of go-between (123), the top back of solar cell panel (110) is equipped with and is located top go-between (123) articulated ring, the bottom back of solar cell panel (110) articulates has and is located below go-between (123) articulated two sections pole (140).

6. The intelligent miniature weather detection device powered by photovoltaic power generation as claimed in claim 1, wherein: the auxiliary bracket (400) comprises a plurality of foot supporting frames (420), a fixed sleeve (410) rotationally connected with the top ends of the foot supporting frames (420), a plurality of ground supporting sheets (440) which are arranged in the bottom ends of the foot supporting frames (420) and can be flattened into round blocks, and a plurality of fixed frame rods (430) which are connected below the fixed sleeve (410) and are used for limiting the supporting angle of the foot supporting frames (420), the fixed sleeve (410) is in sleeve fit with the bottom end of the main bracket (150), a plurality of fixed frame rods (430) are distributed annularly, the inner ends of the fixed frame rods are integrally formed with rotary columns (431) in threaded connection with the fixed sleeve (410), a slot (424) is arranged at one side of the top of the foot support frame (420), the fixed frame rod (430) is L-shaped, the bent section at the outer end of the fixed frame rod is in inserting fit with the slot (424), the bottom end of the foot support frame (420) is provided with a horn-shaped foot sleeve (421), and the plurality of the ground supporting sheets (440) can be folded into petal shapes and hidden in the foot sleeve (421).

7. The intelligent miniature weather detection device powered by photovoltaic power generation as claimed in claim 6, wherein: the novel shoe rack is characterized in that a guide pillar (422) is arranged on the central axis of the foot sleeve (421), a guide groove (423) is formed in one radial side of the guide pillar (422) in a penetrating mode, an annular guide sleeve (450) is sleeved on the outer side of the guide pillar (422), vertical pieces are symmetrically arranged on the top surface of the guide sleeve (450), and sliding columns (453) connected with the guide groove (423) in a sliding mode are inserted between the top ends of the vertical pieces.

8. The intelligent miniature weather detection device powered by photovoltaic power generation as claimed in claim 7, wherein: the bottom surface of the guide sleeve (450) is annular and is provided with a plurality of card grooves (451) at equal intervals, the symmetry axis of the card grooves (451) does not point to the central axis of the guide sleeve (450), the two inner sides of the card grooves (451) are provided with rotating holes (452), the ground supporting sheet (440) is a fan-shaped block, and the two sides of the narrow end of the ground supporting sheet are provided with convex columns (441) which are connected with the rotating holes (452) in an inserting mode.

9. The intelligent miniature weather detection device powered by photovoltaic power generation as claimed in claim 8, wherein: a plurality of double-lug hinge rings (411) which are correspondingly hinged with the foot support frame (420) are arranged on the outer side of the top end of the fixed sleeve (410) at equal intervals, and the bottom end opening of the foot sleeve (421) can be in lap joint with the ground supporting sheet (440) in a flattening state.

10. The intelligent miniature weather detection device powered by photovoltaic power generation as claimed in claim 5, wherein: the bottom end of the bearing pipe (120) is sleeved with a foot sleeving ring (130), the outer side of the bearing pipe (120) is positioned above the middle of the foot sleeving ring (130) in a sleeved mode and provided with a spring (131), and the foot sleeving ring (130) is matched with foot sleeves (421) of a plurality of foot support frames (420) in an upturned state in a sleeved mode.