CN115549560B

CN115549560B - Solar power supply device of Internet of things equipment

Info

Publication number: CN115549560B
Application number: CN202211221254.7A
Authority: CN
Inventors: 李富; 刘丽娟; 王泉; 孙家栋; 付璇; 喻丛兵
Original assignee: Wuxi University
Current assignee: Wuxi Huasheng Yunlian Technology Co ltd
Priority date: 2022-10-08
Filing date: 2022-10-08
Publication date: 2023-06-27
Anticipated expiration: 2042-10-08
Also published as: CN115549560A

Abstract

The invention relates to the technical field of power supply devices, and provides a solar power supply device of internet of things equipment, which is ingenious in structure, good in portability, capable of better realizing solar energy absorption, convenient to operate between folding and unfolding, strong in operability, multifunctional, rich in functions and strong in practicability, and comprises a plurality of solar panels, a cylinder seat, an inner vertical frame fixedly connected with the top end of the cylinder seat, a plurality of inner side wall grooves arranged on the side wall of the inner vertical frame, inner lug seats fixedly connected with the inner side wall grooves, inner wing plates arranged in the inner lug seats and driven by an inner linkage structure, two inner side plates rotatably connected in the inner wing plates, a lifting frame matched with the inner vertical frame, an outer vertical frame matched with the inner side wall grooves in a sliding manner, a top cover frame arranged in the top cover frame, a telescopic tube arranged in the cylinder seat, and a plurality of outer side wall grooves arranged on the outer vertical frame.

Description

Solar power supply device of Internet of things equipment

Technical Field

The invention relates to the technical field of power supply devices, in particular to a solar power supply device of internet of things equipment.

Background

As is well known, the internet of things device is a nonstandard computing device, which can be wirelessly connected to a network and has the capability of transmitting data, and consumer connected devices comprise smart televisions, smart speakers, toys, wearable devices, smart appliances and other products, while especially for mobile portable internet of things devices such as wearable devices, due to the limitation of volume and the requirement of mobile portability, the storage capacity of a battery matched with the internet of things device is limited, and the power supply is limited, so a solar power supply device of the internet of things device is provided to assist in realizing the power supply.

Through retrieving, 26 days of 2 months in 2021 authorize bulletins, the Chinese patent of bulletin number CN111165178B discloses a solar powered fruit Lin Guanshi picker, it roughly describes, including solar powered collection car, solar powered collection car is including collecting the automobile body, collect automobile body left front end top and be provided with the charging seat, collect automobile body left front end and be provided with L type baffle, and the top is connected with the charging seat before the L type baffle, middle part is connected with first telescopic link overturns in the L type baffle, first telescopic link top and first transfer axostylus axostyle are welded, first transfer axostylus axostyle top and second slider rotate to be connected, second slider surface bottom and surface top all carry out sliding connection with the second slide rail, second slide rail surface rear side and solar panel pour the fusion, it is when using, can the first telescopic link of manual upset rise a short section after, the solar panel overturns, the terminal surface of its light source department of receiving is the upset solar energy collection car left end face, can play the effect of protecting solar panel, the solar panel overturns, the middle part is rotated and is connected with first telescopic link, simultaneously, the first transfer axostylus axostyle is rotated to the first and is connected with the second slide rail is rotated, the first and is connected with the first slide rail is connected, the first side is connected with the first slide rail is rotated, the electric energy is connected to the top, the first slide is connected with the solar panel, the electric energy is improved, the electric energy is stored to the top is connected to the top, and is recovered to the electric energy is recovered.

Although the solar panel in the above prior art solution can assist in converting solar energy into electric energy, it is laborious to carry about due to the limitation of its structure and size and shape, and is difficult to be applied to mobile and portable internet of things devices such as wearable devices.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the solar power supply device of the Internet of things equipment is ingenious in structure, can be divided into a folding state and an extending state, is small in overall size after folding, good in portability, large in surface area after extending, and capable of better realizing solar energy absorption, so that the conversion of solar energy to electric energy is improved in an auxiliary mode, the solar power supply device is better applicable to power supply of mobile portable Internet of things equipment such as wearable equipment, meanwhile, operation between folding and extending is more convenient, operability is stronger, multiple functions are achieved, functions are rich, and practicability is stronger.

(II) technical scheme

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a solar power supply unit of thing networking equipment, includes multiple solar panel, still includes the stack holder, the top fixedly connected with of stack holder is interior erects the frame, is provided with a plurality of inside wall grooves on the lateral wall of interior erects the frame, and is a plurality of equal fixedly connected with inner ear seat in the inside wall groove, all install interior pterygoid lamina through interior linkage structure in the plurality of inner ear seat, a plurality of all rotate in the interior pterygoid lamina and be connected with two interior sideboards, interior sideboard all can drive through interior linkage structure, sliding fit has the crane in the interior erects the frame, the top fixedly connected with of crane erects the frame outward, sliding fit has the top cap frame on the outer erects the frame, install flexible pipe in the top cap frame, flexible pipe installs in the stack holder, is provided with a plurality of lateral wall grooves on the lateral wall of outer erects the frame, a plurality of outer ear seats in the outer ear seat all installs the pterygoid lamina through outer linkage structure, a plurality of all rotate in the outer pterygoid lamina and be connected with two sideboards, can be provided with through the linkage structure outward, the top cap assembly can be dismantled in a plurality of bottom caps, a plurality of cup caps are installed respectively on a plurality of bottom caps, a plurality of top cap assembly.

On the basis of the scheme, a plurality of internal linkage structures all include the interior axle, a plurality of interior axle respectively with a plurality of interior ear seat fixed connection, a plurality of interior wing respectively with a plurality of interior axle rotation connection, the equal fixedly connected with in the both ends of a plurality of interior axles drive gear, a plurality of interior drive gear all meshes interior driven gear, a plurality of interior driven gear respectively with a plurality of interior sideboard fixed connection, a plurality of interior driven gear rotate respectively and connect in a plurality of interior wing board, a plurality of outer linkage structures all include the outer axle, a plurality of outer axle respectively with a plurality of outer ear seat fixed connection, a plurality of outer wing respectively with a plurality of outer axle rotation connection, the equal fixedly connected with external drive gear in both ends of a plurality of outer axle, a plurality of external drive gear all meshes has outer driven gear, a plurality of outer driven gear respectively with a plurality of outer board fixed connection, a plurality of external driven gear rotate respectively and connect in a plurality of outer wing.

On the basis of the scheme, the auxiliary positioning assembly comprises a rotating frame and a connecting column, the rotating frame is rotationally connected in the bottom cavity, an inserting groove and an adjusting groove are formed in the bottom end of the rotating frame, the inserting groove is communicated with the adjusting groove, a connecting ball is arranged on the connecting column, ball grooves matched with the connecting ball are formed in the inserting groove and the adjusting groove, an anchor rod frame is fixedly connected with the bottom end of the connecting column, two anchor rod assemblies are arranged in the anchor rod frame, an end ring is fixedly connected to the bottom end of the anchor rod frame, and external threads and internal threads which are matched with each other are respectively arranged on the outer side wall of the anchor rod frame and the inner side wall of the bottom cavity.

On the basis of the scheme, the anchor rod assembly comprises a rotating rod and an inserting anchor rod, wherein the rotating rod is rotationally connected in the anchor rod frame, the inserting anchor rod is rotationally connected with the rotating rod, and one end of the inserting anchor rod is a pointed end.

On the basis of the scheme, the telescopic tube comprises an outer telescopic tube and an inner telescopic tube, the inner telescopic tube is connected with the outer telescopic tube through a plurality of middle telescopic tubes, the inner telescopic tube is fixedly connected in the top cover frame, and the outer telescopic tube is slidably connected in the inner vertical frame.

On the basis of the scheme, the solar energy storage device is characterized in that a storage battery is arranged in the cylinder seat, a plurality of solar panels are electrically connected with the storage battery, a side opening is formed in the side wall of the cylinder seat, and a quick-connection plug electrically connected with the storage battery is arranged in the side opening.

As a further proposal, the top end of the cylinder seat is provided with a plurality of inner lower grooves, the bottom end of the lifting frame is provided with a plurality of inner protruding blocks, a plurality of inner protruding blocks are respectively matched with the plurality of inner lower grooves, the top end of the lifting frame is provided with a plurality of inner lower grooves, the bottom end of the top cover frame is provided with a plurality of outer protruding blocks, and a plurality of outer protruding blocks are respectively matched with the plurality of outer lower grooves.

As a further proposal, the top end of the cup cover is higher than the highest position of the top end of the top cover frame, and the side wall of the cup cover is provided with a side pattern ring.

As a further proposal, the side wall of the top cover frame is provided with a hole for assisting in carrying the strake.

(III) beneficial effects

Compared with the prior art, the invention provides the solar power supply device of the Internet of things equipment, which has the following beneficial effects:

1. according to the invention, the bearing structure of the solar panel is formed conveniently through the matching of the outer wing plate and the outer side plate and the matching of the inner wing plate and the inner side plate, the structure is ingenious, the solar panel can be divided into a folding state and an extending state, the whole size after folding is smaller, the portability is better, the surface area after extending is larger, and the solar energy can be better absorbed, so that the conversion from solar energy to electric energy is improved in an auxiliary manner, and the solar panel is better suitable for the power supply of mobile portable internet of things equipment such as wearable equipment.

2. According to the invention, the outer wing plate, the outer side plate, the inner wing plate and the inner side plate are mounted and contained through the cooperation of the inner vertical frame, the lifting frame and the outer vertical frame, the positioning effect of the outer wing plate and the outer side plate after being unfolded is good, the positioning effect of the inner wing plate and the inner side plate after being unfolded is also good, the protection effect of the outer wing plate and the outer side plate after being folded and contained and the protection effect of the inner wing plate and the inner side plate after being folded and contained is good, the device is practical, the connection mounting of the inner wing plate relative to the inner vertical frame and the connection mounting of the outer wing plate relative to the outer vertical frame are realized through the design of the inner linkage structure and the design of the outer linkage structure, the linkage unfolding and folding of the inner side plate relative to the inner wing plate and the linkage unfolding and folding of the outer side plate relative to the outer wing plate are convenient, and the operation between the key structure folding and unfolding is high in operability.

3. According to the solar power supply device of the Internet of things equipment, the cup cylinder is provided, so that the solar power supply device of the Internet of things equipment has a closed storage space, the functionality is high, and through the design of the auxiliary positioning assembly, when the solar power supply device of the Internet of things equipment needs to be temporarily installed and fixed, the auxiliary positioning can be performed relative to a contact surface, and meanwhile, the solar power supply device can be stored into a bottom cavity after being used, and the structure is reasonable.

Drawings

FIG. 1 is a schematic view of a partially sectioned perspective structure of the present invention;

FIG. 2 is a schematic view of a partial enlarged structure of the present invention at A in FIG. 1;

FIG. 3 is a schematic view of a partially enlarged structure of the present invention at B in FIG. 1;

FIG. 4 is a schematic view of a partially enlarged structure of the present invention at C in FIG. 1;

FIG. 5 is a schematic perspective view of the whole structure of the present invention;

FIG. 6 is a schematic view showing an unfolded three-dimensional structure of the solar panel according to the present invention;

FIG. 7 is a schematic view of a partially enlarged structure of the present invention at D in FIG. 6;

FIG. 8 is a schematic exploded perspective view of the cooperation of the external ear mount, external wing plate and external side plate of the present invention;

FIG. 9 is a schematic exploded perspective view of the inner ear, inner wing and inner side panel of the present invention;

fig. 10 is a schematic exploded perspective view of the turret, connection post, connection ball, etc. of the present invention.

In the figure: 1. a solar panel; 2. a cylinder seat; 3. an inner vertical frame; 4. an inner sidewall groove; 5. an inner ear seat; 6. an inner wing plate; 7. an inner edge plate; 8. a lifting frame; 9. an outer vertical frame; 10. a top cover frame; 11. an outer sidewall groove; 12. an outer ear seat; 13. an outer wing plate; 14. an outer edge plate; 15. a cup cylinder; 16. a cup cover; 17. an inner shaft; 18. an inner drive gear; 19. an inner driven gear; 20. an outer shaft; 21. an external drive gear; 22. an outer driven gear; 23. a rotating frame; 24. a connecting column; 25. a connecting ball; 26. a ball groove; 27. an anchor rod frame; 28. an end ring; 29. a rotating lever; 30. inserting an anchor rod; 31. an outer shrinkage tube; 32. an inner telescopic tube; 33. a middle telescopic tube; 34. an inner protruding block; 35. an outer protruding block; 36. and a strake hole.

Detailed Description

Examples

Referring to fig. 1-10, a solar power supply device of an internet of things device comprises a plurality of solar panels 1, a cylinder seat 2, an inner vertical frame 3 fixedly connected to the top end of the cylinder seat 2, a plurality of inner side wall grooves 4 arranged on the side wall of the inner vertical frame 3, inner ear seats 5 fixedly connected to the inner side wall grooves 4, inner wing plates 6 arranged in the inner ear seats 5 through inner linkage structures, two inner side plates 7 rotatably connected to the inner wing plates 6, the inner side plates 7 driven through the inner linkage structures, a lifting frame 8 slidably matched with the inner vertical frame 3, an outer vertical frame 9 fixedly connected to the top end of the lifting frame 8, and an outer wing plate 13, an outer side plate 14, an inner wing plate 6 and an inner side plate 7 mounting and accommodating structure formed by the cooperation of the inner vertical frame 3, the lifting frame 8 and the outer vertical frame 9, and the outer wing plate 13 and the outer side plate 14 having good positioning effect after being unfolded, the positioning effect of the inner wing plate 6 and the inner side plate 7 after being unfolded is better, the protection effect of the outer wing plate 13 and the outer side plate 14 after being folded and stored and the protection effect of the inner wing plate 6 and the inner side plate 7 after being folded and stored is better, the telescopic tube is arranged in the top cover frame 10, the telescopic tube comprises an outer telescopic tube 31 and an inner telescopic tube 32, the inner telescopic tube 32 and the outer telescopic tube 31 are connected through a plurality of middle telescopic tubes 33, the inner telescopic tube 32 is fixedly connected in the top cover frame 10, the outer telescopic tube 31 is slidingly connected in the inner vertical frame 3, a relative connection relation is formed among the cylinder seat 2, the lifting frame 8 and the top cover frame 10, a space for adjusting the relative positions among the cylinder seat 2 is ensured, a plurality of inner lower grooves are formed at the top end of the cylinder seat 2, the bottom of crane 8 is provided with a plurality of interior protruding piece 34, a plurality of interior protruding piece 34 match with a plurality of interior lower grooves respectively, a plurality of interior lower grooves have been seted up on the top of crane 8, the bottom of top cover frame 10 is provided with a plurality of outer protruding piece 35, a plurality of outer protruding piece 35 match with a plurality of outer lower grooves respectively, on the one hand, the restriction of both relative rotational degrees of freedom after crane 8 and seat 2 contact each other, and the restriction of both relative rotational degrees of freedom after top cover frame 10 and crane 8 contact each other, and through the setting of interior lower groove and the setting of outer lower groove, can carry out auxiliary support and spacing for the interior wing plate 6 of expansion and the outer wing plate 13 of expansion respectively.

It should be further noted that, the side wall of the outer vertical frame 9 is provided with a plurality of outer side wall grooves 11, the outer ear seats 12 are fixedly connected in the outer side wall grooves 11, the outer wing plates 13 are installed in the outer ear seats 12 through the outer linkage structure, two outer side plates 14 are rotatably connected in the outer wing plates 13, the bearing structure of the solar panel 1 is conveniently formed through the cooperation of the outer wing plates 13 and the outer side plates 14 and the cooperation of the inner wing plates 6 and the inner side plates 7, the structure is ingenious, the structure can be divided into a folded state and an extended state, the whole size after folding is smaller, the portability is better, the surface area after extension is larger, the solar energy absorption can be better realized, thereby assisting in improving the conversion from solar energy to electric energy, the outer side plates 14 can be better suitable for the power supply of mobile portable internet of things equipment such as wearable equipment and the like, the outer side plates 14 can be driven through the outer linkage structure, the inner linkage structures comprise inner shafts 17, the inner shafts 17 are fixedly connected with the inner lugs 5, the inner wing plates 6 are rotatably connected with the inner shafts 17, the inner driving gears 18 are fixedly connected with the two ends of the inner shafts 17, the inner driven gears 19 are meshed with the inner driven gears 18, the inner driven gears 19 are fixedly connected with the inner side plates 7, the inner driven gears 19 are rotatably connected with the inner wing plates 6, the outer linkage structures comprise outer shafts 20, the outer shafts 20 are fixedly connected with the outer lugs 12, the outer wing plates 13 are rotatably connected with the outer shafts 20, the outer driving gears 21 are fixedly connected with the two ends of the outer shafts 20, the outer driving gears 21 are meshed with outer driven gears 22, the outer driven gears 22 are fixedly connected with the outer side plates 14, the plurality of outer driven gears 22 are respectively and rotatably connected in the plurality of outer wing plates 13, through the design of the inner linkage structure and the design of the outer linkage structure, the connection installation of the inner wing plates 6 relative to the inner vertical frame 3 and the connection installation of the outer wing plates 13 relative to the outer vertical frame 9 are realized, and the linkage unfolding and folding of the inner side plates 7 relative to the inner wing plates 6 and the linkage unfolding and folding of the outer side plates 14 relative to the outer wing plates 13 are realized, so that the operation between the folding and the unfolding of the key structure is more convenient, and the operability is stronger.

It should be further noted that, the bottom end of the cylinder seat 2 is provided with a bottom cavity, an auxiliary positioning component is provided in the bottom cavity, the auxiliary positioning component comprises a rotating frame 23 and a connecting column 24, the rotating frame 23 is rotationally connected in the bottom cavity, the bottom end of the rotating frame 23 is provided with an inserting groove and an adjusting groove, the inserting groove is mutually communicated with the adjusting groove, the connecting column 24 is provided with a connecting ball 25, the inserting groove and the adjusting groove are provided with ball grooves 26 matched with the connecting ball 25, the bottom end of the connecting column 24 is fixedly connected with an anchor rod frame 27, two anchor rod components are installed in the anchor rod frame 27, the anchor rod components comprise a rotating rod 29 and an inserting anchor rod 30, the rotating rod 29 is rotationally connected in the anchor rod frame 27, the inserting anchor rod 30 is rotationally connected with the rotating rod 29, one end of the inserting anchor rod 30 is a pointed end, which is convenient for inserting relative to a contact surface, the bottom end ring 28 of the anchor rod frame 27 is fixedly connected with the end ring 28, external threads and internal threads which are matched with each other are respectively arranged on the outer side wall of the anchor rod frame 27 and the inner side wall of the bottom cavity, through the design of an auxiliary positioning component, when a solar power supply device of the Internet of things equipment needs to be temporarily installed and fixed, the solar power supply device can be positioned in an auxiliary manner relative to a contact surface, and can be stored into the bottom cavity after being used, the structure is reasonable, a cup barrel 15 is arranged in the top cover frame 10, a cup cover 16 is detachably arranged at the top end of the cup barrel 15, through the arrangement of the cup barrel 15, the solar power supply device of the Internet of things equipment is provided with a closed storage space, the functionality is strong, the top end of the cup cover 16 is higher than the highest position at the top end of the top cover frame 10, and a side pattern ring is arranged on the side wall of the cup cover 16, so that the rotation and twisting of the cup cover 16 are facilitated, and therefore, the cup cover 16 is convenient to install and detach relative to the cup barrel 15, and various solar panels 1 are respectively arranged on a plurality of inner wing plates 6 The storage batteries are arranged on the inner side plates 7, the outer wing plates 13 and the outer side plates 14, the barrel seat 2 is internally provided with the storage batteries, the solar panels 1 are electrically connected with the storage batteries, the side wall of the barrel seat 2 is provided with a side opening, the side opening is internally provided with a quick-connection plug electrically connected with the storage batteries, and the quick-connection plug is convenient to be quickly connected with mobile portable Internet of things equipment such as wearable equipment and the like outside, so that power supply is realized.

The solar panel 1, the storage battery and the quick connector in this embodiment are all conventional devices known to those skilled in the art purchased in the market, and can be customized according to actual needs, in this patent, only the solar panel 1 is used, the structure and the function of the solar panel are not improved, the setting mode, the installation mode and the electric connection mode of the solar panel are only required to be debugged according to the requirements of the application specification of the solar panel, the solar panel 1 is not repeated herein, and the solar panel 1 is matched with corresponding inversion and voltage stabilization auxiliary processing devices so as to be stored in the storage battery.

In summary, the solar power supply device of the internet of things equipment works in a daily condition, the auxiliary carrying of the solar power supply device of the internet of things equipment can be realized by passing the rope through the strake hole 36, and the solar power supply device of the internet of things equipment can be imitated to the size of the cup, so that the solar power supply device of the internet of things equipment can be integrally put into the pocket or the carry-on bag in the carrying process, meanwhile, for the structure between the cup cylinder 15 and the lifting frame 8, the display of the part of structure is convenient, the space occupation proportion of the part of structure in the drawing is obviously larger than the space occupied by the structure of the cup cylinder 15, the drawing only plays a schematic role, and the limitation of the corresponding size is not caused, so that the cup cylinder 15 in the actual product has enough use space to a certain extent, when a plurality of solar panels 1 are required to be unfolded to convert solar energy into electric energy, firstly, the lifting frame 8 is pulled relative to the cylinder seat 2, the inner wing plates 6 folded in the inner side wall grooves 4 are completely exposed, then the inner wing plates 6 are rotated and unfolded in the inner side wall grooves 4, when the inner wing plates 6 rotate, the inner wing plates 6 rotate relative to the inner shaft 17, the inner driving gears 18 also rotate relative to the inner wing plates 6, due to the meshing between the inner driving gears 18 and the inner driven gears 19, when the inner wing plates 6 rotate and unfold, the inner side plates 7 also rotate and unfold relative to the inner wing plates 6, and similarly, the other inner wing plates 6 also unfold, then the top cover frame 10 is pulled relative to the lifting frame 8, a plurality of outer wing plates 13 are exposed, a plurality of outer wing plates 13 rotate and unfold, under the action of the outer linkage structure, the outer side plates 14 also unfold in a follow-up manner when the outer wing plates 13 rotate, after the unfolding operation is finished, the unfolded solar power supply device of the Internet of things equipment is placed in a place irradiated by the sun, solar energy is converted into electric energy by the solar panel 1 and stored in the storage battery, and when the Internet of things equipment is required to be powered, the Internet of things equipment is communicated with the quick plug only through an external power line.

Further, when the solar power supply device of the internet of things equipment needs to be fixed on the placement surface, the end ring 28 is rotated, so that the connection effect of the anchor rod frame 27 in the bottom cavity is disabled, at the moment, the connecting ball 25 can be adjusted in the ball groove 26, in the adjusting process, the connecting ball 25 is pulled out in the ball groove 26 communicated with the insertion groove, then the connecting ball 25 is slid into the ball groove 26 matched with the adjusting groove through adjustment, at the moment, the connecting column 24 can form an auxiliary support for the rotating frame 23, finally the insertion anchor rod 30 is rotated and expanded, and is inserted into the placement surface, thereby forming the positioning of the end ring 28 relative to the placement surface, and meanwhile, the end ring 28 can be prepared to be magnetically attracted or embedded into the installation magnet according to whether the installation surface can be damaged or not, so that the auxiliary positioning on the placement surface with magnetism or the magnetic attraction can be achieved, after the positioning is finished, the cylinder seat 2 can form a certain inclination relative to the placement surface through the support of the connecting column 24, and the purpose of better receiving solar panel 1 can be achieved.

Claims

1. The utility model provides a solar power supply device of thing networking equipment, includes barrel holder (2), the top fixedly connected with of barrel holder (2) is interior erects frame (3), is provided with a plurality of inside wall grooves (4) on the lateral wall of interior erects frame (3), a plurality of equal fixedly connected with inner ear seat (5) in inside wall groove (4), all install interior pterygoid lamina (6) through interior linkage structure in a plurality of inner ear seat (5), a plurality of all rotate in interior pterygoid lamina (6) and be connected with two interior pterygoid lamina (7), interior pterygoid lamina (7) all can be through interior linkage structure drive, sliding fit has crane (8) on interior erects frame (3), the top fixedly connected with outer erects frame (9) of crane (8), sliding fit has top cover frame (10) on outer erects frame (9), install flexible pipe in top cover frame (10), be provided with a plurality of lateral wall grooves (11) on the lateral wall of outer ear seat (2), a plurality of interior pterygoid lamina (12) all rotate in the interior pterygoid lamina (12) and be connected with outer pterygoid lamina (13) through interior pterygoid lamina (13), the inner shafts (17) are fixedly connected with the inner ear seats (5) respectively, the inner wing plates (6) are fixedly connected with the inner shafts (17) respectively, the inner driving gears (18) are fixedly connected to the two ends of the inner shafts (17), the inner driving gears (18) are meshed with the inner driven gears (19), the inner driven gears (19) are fixedly connected with the inner side plates (7) respectively, the inner driven gears (19) are rotatably connected in the inner wing plates (6) respectively, the outer linkage structures comprise outer shafts (20), the outer shafts (20) are fixedly connected with the outer ear seats (12) respectively, the outer wing plates (13) are rotatably connected with the outer shaft (20) respectively, the outer driving gears (21) are fixedly connected to the two ends of the outer shaft (20), the outer driven gears (21) are meshed with the outer driven gears (22), the outer driven gears (22) are rotatably connected with the outer wing plates (14) respectively, the outer wing plates (22) are rotatably connected with the outer shaft seat (23) respectively, the outer wing plates (23) are rotatably connected with the outer shaft seat (23) respectively, the outer shaft seat (23) is rotatably connected with the outer shaft seat (23), the bottom of the rotating frame (23) is provided with an inserting groove and an adjusting groove, the inserting groove is communicated with the adjusting groove, the connecting column (24) is provided with a connecting ball (25), the inserting groove and the adjusting groove are provided with ball grooves (26) matched with the connecting ball (25), the bottom of the connecting column (24) is fixedly connected with an anchor rod frame (27), two anchor rod assemblies are arranged in the anchor rod frame (27), each anchor rod assembly comprises a rotating rod (29) and an inserting anchor rod (30), the rotating rod (29) is rotationally connected in the anchor rod frame (27), the inserting anchor rod (30) is rotationally connected with the rotating rod (29), the one end of inserting stock (30) is the tip, and the bottom fixedly connected with end ring (28) of stock frame (27), be provided with external screw thread and the internal screw thread of mutually supporting on the lateral wall of stock frame (27) and the inside wall in end chamber respectively, be provided with a bowl (15) in top hood frame (10), bowl cover (16) are installed in the top of a bowl (15) demountable installation for receiving sun illumination, multiple solar panel (1) for realize photoelectric conversion, multiple solar panel (1) are installed respectively on a plurality of interior pterygoid lamina (6), on a plurality of interior sideboard (7), on a plurality of outer pterygoid lamina (13) and on a plurality of exterior sideboard (14).

2. Solar power supply device of an internet of things device according to claim 1, characterized in that the telescopic tube comprises an outer telescopic tube (31) and an inner telescopic tube (32), the inner telescopic tube (32) and the outer telescopic tube (31) are connected through a plurality of middle telescopic tubes (33), the inner telescopic tube (32) is fixedly connected in the top cover frame (10), and the outer telescopic tube (31) is slidingly connected in the inner vertical frame (3).

3. The solar power supply device of the internet of things equipment according to claim 2, wherein，The solar energy storage device is characterized in that a storage battery is arranged in the cylinder seat (2), a plurality of solar panels (1) are electrically connected with the storage battery, a side opening is formed in the side wall of the cylinder seat (2), and a quick plug electrically connected with the storage battery is arranged in the side opening.

4. A solar power supply device of an internet of things device according to claim 3, wherein a plurality of inner lower grooves are formed in the top end of the cylinder seat (2), a plurality of inner protruding blocks (34) are arranged at the bottom end of the lifting frame (8), the inner protruding blocks (34) are respectively matched with the inner lower grooves, a plurality of inner lower grooves are formed in the top end of the lifting frame (8), a plurality of outer protruding blocks (35) are arranged at the bottom end of the top cover frame (10), and the outer protruding blocks (35) are respectively matched with the outer lower grooves.

5. The solar power supply device of the internet of things equipment according to claim 4, wherein the top end of the cup cover (16) is higher than the highest position of the top end of the top cover frame (10), and a side pattern ring is arranged on the side wall of the cup cover (16).

6. Solar power supply device of an internet of things device according to claim 5, characterized in that the side wall of the top cover frame (10) is provided with a hole (36) for auxiliary carrying of a side strip.