阅读说明：本技术 一种智能挂壁式太阳能供电器 (Intelligent wall-mounted solar power supply ) 是由 蒋岱金 于 2021-09-06 设计创作，主要内容包括：本发明公开了一种智能挂壁式太阳能供电器,属于智能家居技术领域,包括收纳防护罩10,所述收纳防护罩10内分别设置有扇叶收纳仓11和伸缩杆收纳仓12,所述收纳防护罩10的底面设置有若干个均匀分布的固定片13,所述固定片13上设置有固定螺丝14,所述固定螺丝14固定在墙壁上；所述伸缩杆收纳仓12的底面从下至上依次固定连接有第一固定盘200、第二固定盘203和第三固定盘207,所述第一固定盘200上活动连接有第一电动伸缩杆201,所述第一电动伸缩杆201上活动连接有第一伸缩杆202,所述第二固定盘203上活动连接有第二电动伸缩杆204。主要目的是为了解决在高楼小区内个体户缺乏一种太阳能供电器而提供一种智能挂壁式太阳能供电器。(The invention discloses an intelligent wall-mounted solar power supply device, which belongs to the technical field of intelligent home furnishing and comprises a storage protective cover 10, wherein a fan blade storage bin 11 and a telescopic rod storage bin 12 are respectively arranged in the storage protective cover 10, a plurality of fixing pieces 13 which are uniformly distributed are arranged on the bottom surface of the storage protective cover 10, fixing screws 14 are arranged on the fixing pieces 13, and the fixing screws 14 are fixed on a wall; supreme first fixed disk 200, second fixed disk 203 and the third fixed disk 207 of fixedly connected with in proper order are followed to the bottom surface of telescopic link collecting chamber 12, swing joint has first electric telescopic handle 201 on the first fixed disk 200, swing joint has first telescopic link 202 on the first electric telescopic handle 201, swing joint has second electric telescopic handle 204 on the second fixed disk 203. The intelligent wall-mounted solar power supply device is mainly used for solving the problem that an individual household in a high-rise community lacks a solar power supply device.)

1. The intelligent wall-mounted solar power supply device comprises a storage protective cover (10), and is characterized in that a fan blade storage bin (11) and an expansion link storage bin (12) are respectively arranged in the storage protective cover (10), a plurality of uniformly distributed fixing pieces (13) are arranged on the bottom surface of the storage protective cover (10), fixing screws (14) are arranged on the fixing pieces (13), and the fixing screws (14) are fixed on a wall; the bottom surface of the telescopic rod storage bin (12) is fixedly connected with a first fixed disk (200), a second fixed disk (203) and a third fixed disk (207) from bottom to top in sequence, the first fixed disk (200) is movably connected with a first electric telescopic rod (201), the first electric telescopic rod (201) is movably connected with a first telescopic rod (202), the second fixed disk (203) is movably connected with a second electric telescopic rod (204), the second electric telescopic rod (204) is movably connected with a second telescopic rod (205), one side of one end of the second electric telescopic rod (204) is fixedly connected with a first connecting disk (206), the first connecting disk (206) is movably connected with the first telescopic rod (202), the third fixed disk (207) is movably connected with a supporting rod (208), and one side of the middle of the supporting rod (208) is fixedly connected with a second connecting disk (209), the second connecting disc (209) is movably connected with the second telescopic rod (205); one end of the supporting rod (208) is fixedly connected with a first supporting disc (210), one side of the first supporting disc (210) is fixedly connected with a plurality of uniformly distributed fourth fixed discs (211), the fourth fixed discs (211) are movably connected with fourth electric telescopic rods (212), the fourth electric telescopic rods (212) are movably connected with fourth telescopic rods (213), one side of the first supporting disc (210) is provided with a fifth fixed disc (215), one side of the fifth fixed disc (215) is fixedly connected with a plurality of fifth fixed discs (214) corresponding to the fourth fixed disc (211), the other end of each fourth telescopic rod (213) is movably connected onto the fifth fixed disc (214), and one side of each fifth fixed disc (215) is fixedly connected with a connecting fixed rod (216); the other end fixedly connected with pivot support column (300) of connecting dead lever (216), the one end of pivot support column (300) is provided with sensor (301), the inside of pivot support column (300) has set gradually first fixed chassis (302), second fixed chassis (309) and third fixed chassis (313) from the extroversion in, first fixed chassis (302), second fixed chassis (309) and one side of third fixed chassis (313) all are provided with motor (303), be provided with pivot (304) on motor (303), the outside of pivot support column (300) has set gradually clockwise quarter opening (305), anticlockwise two-quarter opening (310) and anticlockwise quarter opening (314) from the extroversion in, the one side of pivot support column (300) has set gradually first fan-shaped solar panel (306) from the extroversion in, A second fan-shaped solar panel (311), a third fan-shaped solar panel (315) and a fourth fan-shaped solar panel (317), wherein the first fan-shaped solar panel (306), the second fan-shaped solar panel (311), the third fan-shaped solar panel (315) and the fourth fan-shaped solar panel (317) are respectively provided with an arc groove (307), the first fan-shaped solar panel (306) is fixedly connected with a first fixing rod (308), the first fixing rod (308) penetrates through the clockwise quarter opening (305) and then is fixed on the rotating shaft (304), the second fan-shaped solar panel (311) is fixedly connected with a second fixing rod (312), the second fixing rod (312) penetrates through the anticlockwise quarter opening (310) and then is fixed on the rotating shaft (304), and the third fan-shaped solar panel (315) is fixedly connected with a third fixing rod (316), the third fixing rod (316) penetrates through the counterclockwise quarter opening (314) and then is fixed on the rotating shaft (304), a fourth fixing rod (318) is fixedly connected to the fourth fan-shaped solar panel (317), and the fourth fixing rod (318) is fixed on the rotating shaft supporting column (300); a control panel is arranged in the storage protective cover (10), and the first electric telescopic rod (201), the second telescopic rod (205), the fourth electric telescopic rod (212), the sensor (301) and the motor (303) are electrically connected with the control panel.

2. The intelligent wall-hanging solar power supply device as claimed in claim 1, wherein the first fixed disk (200) and the first electric telescopic rod (201), the second fixed disk (203) and the second electric telescopic rod (204), the third fixed disk (207) and the support rod (208), the first connecting disk (206) and the first telescopic rod (202), and the second connecting disk (209) and the second telescopic rod (205) are in rotating shaft type movable connection and can only longitudinally rotate.

3. The intelligent wall-hanging solar power supply as claimed in claim 1, wherein the sum of the lengths of the first electric telescopic rod (201) and the second electric telescopic rod (204) is approximately equal to the distance from the first fixed disk (200) to the second fixed disk (203).

4. The intelligent wall-hanging solar power supply as claimed in claim 1, wherein the diameter of the first supporting disk (210) is smaller than the diameter of the fifth fixed disk (215).

5. The intelligent wall-hanging solar power supply as claimed in claim 1, wherein the arc groove (307) is used in cooperation with the rotating shaft support column (300), and the first fan-shaped solar panel (306), the second fan-shaped solar panel (311), the third fan-shaped solar panel (315) and the fourth fan-shaped solar panel (317) are not in contact with the rotating shaft support column (300) when rotating.

Technical Field

The invention relates to an intelligent wall-mounted solar power supply, in particular to an intelligent wall-mounted solar power supply, and belongs to the technical field of intelligent home furnishing.

Background

With the increasing of intelligent scientific and technological life, no matter a mobile phone, a router, a television and the like, each household can not be powered on in life, and inconvenience of life can be caused once power failure occurs. Due to the prior art, solar panels can be difficult to install in some high-rise communities, so that standby power cannot be used for supplementing power during large-area power failure, and the problem of saving electricity charges by solar cells is avoided.

Based on the above, in some high-rise residential areas, there is a need for a device that can serve as a household standby power to solve the problems of large-area power outage and saving electricity in daily life.

Disclosure of Invention

The invention mainly aims to solve the problem that an individual household in a high-rise community lacks a solar power supply device and provide an intelligent wall-mounted solar power supply device.

The purpose of the invention can be achieved by adopting the following technical scheme: the fan blade storage and protection device comprises a storage and protection cover 10, wherein a fan blade storage bin 11 and a telescopic rod storage bin 12 are respectively arranged in the storage and protection cover 10, a plurality of fixing pieces 13 which are uniformly distributed are arranged on the bottom surface of the storage and protection cover 10, fixing screws 14 are arranged on the fixing pieces 13, and the fixing screws 14 are fixed on a wall; a first fixed disk 200, a second fixed disk 203 and a third fixed disk 207 are fixedly connected to the bottom surface of the telescopic rod storage bin 12 from bottom to top in sequence, a first electric telescopic rod 201 is movably connected to the first fixed disk 200, a first telescopic rod 202 is movably connected to the first electric telescopic rod 201, a second electric telescopic rod 204 is movably connected to the second fixed disk 203, a second telescopic rod 205 is movably connected to the second electric telescopic rod 204, a first connecting disk 206 is fixedly connected to one side of one end of the second electric telescopic rod 204, the first telescopic rod 202 is movably connected to the first connecting disk 206, a supporting rod 208 is movably connected to the third fixed disk 207, a second connecting disk 209 is fixedly connected to one side of the middle of the supporting rod 208, and the second telescopic rod 205 is movably connected to the second connecting disk 209; one end of the supporting rod 208 is fixedly connected with a first supporting disk 210, one side of the first supporting disk 210 is fixedly connected with a plurality of uniformly distributed fourth fixed disks 211, the fourth fixed disks 211 are movably connected with fourth electric telescopic rods 212, the fourth electric telescopic rods 212 are movably connected with fourth telescopic rods 213, one side of the first supporting disk 210 is provided with a fifth fixed disk 215, one side of the fifth fixed disk 215 is fixedly connected with a plurality of fifth fixed disks 214 corresponding to the fourth fixed disks 211, the other end of the fourth telescopic rods 213 is movably connected with the fifth fixed disks 214, and one side of the fifth fixed disks 215 is fixedly connected with a connecting fixed rod 216; the other end fixedly connected with pivot support column 300 of connection dead lever 216, the one end of pivot support column 300 is provided with sensor 301, the inside of pivot support column 300 has set gradually first fixed chassis 302, the fixed chassis 309 of second and the fixed chassis 313 of third from the extroversion, first fixed chassis 302 the fixed chassis 309 of second with one side of the fixed chassis 313 of third all is provided with motor 303, be provided with pivot 304 on the motor 303, the outside of pivot support column 300 has set gradually clockwise quarter opening 305, anticlockwise quarter opening 310 and anticlockwise quarter opening 314 from the extroversion in, one side of pivot support column 300 has set gradually first fan-shaped solar panel 306, second fan-shaped solar panel 311, third fan-shaped solar panel 315 and fourth fan-shaped solar panel from the extroversion, first fan-shaped solar panel 306, 317, The second fan-shaped solar panel 311, the third fan-shaped solar panel 315 and the fourth fan-shaped solar panel 317 are all provided with arc grooves 307, a first fixing rod 308 is fixedly connected to the first fan-shaped solar panel 306, the first fixing rod 308 is fixed to the rotating shaft 304 after passing through the clockwise quarter opening 305, a second fixing rod 312 is fixedly connected to the second fan-shaped solar panel 311, the second fixing rod 312 passes through the two-quarter counterclockwise opening 310 and then is fixed to the rotating shaft 304, a third fixing rod 316 is fixedly connected to the third fan-shaped solar panel 315, the third fixing rod 316 is fixed to the rotating shaft 304 after passing through the counterclockwise quarter opening 314, a fourth fixing rod 318 is fixedly connected to the fourth fan-shaped solar panel 317, and the fourth fixing rod 318 is fixed to the rotating shaft supporting column 300; a control panel is arranged in the storage protective cover 10, and the first electric telescopic rod 201, the second telescopic rod 205, the fourth electric telescopic rod 212, the sensor 301 and the motor 303 are electrically connected with the control panel.

Preferably, the first fixed disk 200 and the first electric telescopic rod 201, the second fixed disk 203 and the second electric telescopic rod 204, the third fixed disk 207 and the support rod 208, the first connecting disk 206 and the first telescopic rod 202, and the second connecting disk 209 and the second telescopic rod 205 are movably connected in a rotating shaft manner and can only longitudinally rotate.

Preferably, the sum of the lengths of the first electric telescopic rod 201 and the second electric telescopic rod 204 is approximately equal to the distance from the first fixed disk 200 to the second fixed disk 203.

Preferably, the diameter of the first supporting disk 210 is smaller than that of the fifth fixing disk 215.

Preferably, the arc groove 307 is used in cooperation with the rotating shaft supporting column 300, and when the rotating shaft supporting column 300 rotates, the first fan-shaped solar panel 306, the second fan-shaped solar panel 311, the third fan-shaped solar panel 315 and the fourth fan-shaped solar panel 317 are not in contact with each other.

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

1) the fan blade storage bin 11 designed by the invention can be used for storing fan-shaped solar panels when the fan-shaped solar panels are not used, so that the fan-shaped solar panels cannot be damaged even in the weather of strong wind and strong rain.

2) The support rod 208 and the combination thereof designed by the invention can be folded when the fan-shaped solar panel is stored, and can support and extend the fan-shaped solar panel outwards when the fan-shaped solar panel is unfolded, so that the fan-shaped solar panel is prevented from contacting with the storage protective cover 10.

3) The sensor 301 and the fourth electric telescopic rod 212 designed by the invention and the combination thereof can enable the fan-shaped solar panel to track the solar azimuth and carry out steering alignment, so that the absorption efficiency can be greatly improved. According to the data of the sensor 301, the fourth electric telescopic rod 212 and the combination thereof feed back to adjust the correct direction.

4) The rotating shaft supporting column 300 and the combination thereof designed by the invention can fold and unfold the first fan-shaped solar panel 306, the second fan-shaped solar panel 311 and the third fan-shaped solar panel 315, the absorption area can be greatly increased by unfolding the fan-shaped solar panels, and the fan-shaped solar panels can be conveniently stored when being folded.

Drawings

FIG. 1 is an overall perspective view of a preferred embodiment of an intelligent wall-mounted solar power supply according to the present invention;

FIG. 2 is an overall perspective view of a preferred embodiment of the intelligent wall-mounted solar power supply according to the present invention;

FIG. 3 is a perspective view of a fifth fixing disk of a preferred embodiment of the intelligent wall-mounted solar power supply according to the invention;

FIG. 4 is a perspective view of a rotating shaft support column of a preferred embodiment of the intelligent wall-mounted solar power supply according to the invention;

FIG. 5 is a perspective view of a support bar of a preferred embodiment of the intelligent wall-mounted solar power supply according to the invention;

FIG. 6 is a perspective view b of a fifth fixing disk of a preferred embodiment of the intelligent wall-mounted solar power supply according to the invention;

FIG. 7 is a perspective view of a rotating shaft support column of a preferred embodiment of the intelligent wall-mounted solar power supply according to the invention;

fig. 8 is an expanded perspective view of a first fan-shaped solar panel according to a preferred embodiment of the intelligent wall-mounted solar power supply of the present invention.

In the figure: 10. a protective cover is accommodated; 11. a fan blade storage bin; 12. a telescopic rod storage bin; 13. a fixing sheet; 14. fixing screws; 200. a first fixed disk; 201. a first electric telescopic rod; 202. a first telescopic rod; 203. a second fixed disk; 204. a second electric telescopic rod; 205. a second telescopic rod; 206. a first splice tray; 207. a third fixed disk; 208. a support bar; 209. a second connecting disc; 210. a first support tray; 211. a fourth fixed tray; 212. a fourth electric telescopic rod; 213. a fourth telescopic rod; 214. a fifth fixed disk; 215. a second support disc; 216. connecting a fixed rod; 300. a rotating shaft supporting column; 301. a sensor; 302. a first fixed chassis; 303. a motor; 304. a rotating shaft; 305. a quarter opening clockwise; 306. a first fan-shaped solar panel; 307. an arc groove; 308. a first fixing lever; 309. a second fixed chassis; 310. two-quarters open counterclockwise; 311. a second fan-shaped solar panel; 312. a second fixing bar; 313. a third fixed chassis; 314. a counterclockwise quarter opening; 315. a third fan solar panel; 316. a third fixing bar; 317. a fourth sector solar panel; 318. and a fourth fixing rod.

Detailed Description

In order to make the technical solutions of the present invention more clear and definite for those skilled in the art, the present invention is further described in detail below with reference to the examples and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1 to 8, the fan-shaped solar panel designed for the intelligent wall-mounted solar power supply provided by the embodiment can absorb light energy in a large area, and can be automatically retracted into the fan blade storage compartment 11 to prevent strong wind from being damaged when not required to be absorbed, and the designed support rod 208 and the combination thereof can skillfully support or retract the fan-shaped solar panel, so that the fan-shaped solar panel can be more conveniently unfolded or stored. The fan blade storage and protection device comprises a storage and protection cover 10, wherein a fan blade storage bin 11 and a telescopic rod storage bin 12 are respectively arranged in the storage and protection cover 10, a plurality of fixing pieces 13 which are uniformly distributed are arranged on the bottom surface of the storage and protection cover 10, fixing screws 14 are arranged on the fixing pieces 13, and the fixing screws 14 are fixed on a wall; the bottom surface of the telescopic rod storage bin 12 is fixedly connected with a first fixed disk 200, a second fixed disk 203 and a third fixed disk 207 in sequence from bottom to top, a first electric telescopic rod 201 is movably connected onto the first fixed disk 200, a first telescopic rod 202 is movably connected onto the first electric telescopic rod 201, a second electric telescopic rod 204 is movably connected onto the second fixed disk 203, a second telescopic rod 205 is movably connected onto the second electric telescopic rod 204, a first connecting disk 206 is fixedly connected onto one end side of the second electric telescopic rod 204, the first telescopic rod 202 is movably connected onto the first connecting disk 206, a supporting rod 208 is movably connected onto the third fixed disk 207, a second connecting disk 209 is fixedly connected onto one middle side of the supporting rod 208, and a second telescopic rod 205 is movably connected onto the second connecting disk 209; one end of the supporting rod 208 is fixedly connected with a first supporting disk 210, one side of the first supporting disk 210 is fixedly connected with three uniformly distributed fourth fixed disks 211, the fourth fixed disks 211 are movably connected with fourth electric telescopic rods 212, the fourth electric telescopic rods 212 are movably connected with fourth telescopic rods 213, one side of the first supporting disk 210 is provided with a fifth fixed disk 215, one side of the fifth fixed disk 215 is fixedly connected with three fifth fixed disks 214 corresponding to the fourth fixed disks 211, the other end of each fourth telescopic rod 213 is movably connected to the fifth fixed disk 214, and one side of the fifth fixed disk 215 is fixedly connected with a connecting fixed rod 216; a rotating shaft supporting column 300 is fixedly connected to the other end of the connecting fixing rod 216, a sensor 301 is arranged at one end of the rotating shaft supporting column 300, a first fixing chassis 302, a second fixing chassis 309 and a third fixing chassis 313 are sequentially arranged in the rotating shaft supporting column 300 from outside to inside, a motor 303 is arranged on one side of each of the first fixing chassis 302, the second fixing chassis 309 and the third fixing chassis 313, a rotating shaft 304 is arranged on the motor 303, a clockwise quarter opening 305, a counterclockwise quarter opening 310 and a counterclockwise quarter opening 314 are sequentially arranged on the outer side of the rotating shaft supporting column 300 from outside to inside, a first sector solar panel 306, a second sector solar panel 311, a third sector solar panel 315 and a fourth sector solar panel 317 are sequentially arranged beside the rotating shaft supporting column 300 from outside to inside, arc grooves 307 are respectively arranged on the first sector solar panel 306, the second sector solar panel 311, the third sector solar panel 315 and the fourth sector solar panel 317, a first fixing rod 308 is fixedly connected to the first fan-shaped solar panel 306, the first fixing rod 308 passes through the clockwise quarter opening 305 and then is fixed to the rotating shaft 304, a second fixing rod 312 is fixedly connected to the second fan-shaped solar panel 311, the second fixing rod 312 passes through the counterclockwise two-quarter opening 310 and then is fixed to the rotating shaft 304, a third fixing rod 316 is fixedly connected to the third fan-shaped solar panel 315, the third fixing rod 316 passes through the counterclockwise quarter opening 314 and then is fixed to the rotating shaft 304, a fourth fixing rod 318 is fixedly connected to the fourth fan-shaped solar panel 317, and the fourth fixing rod 318 is fixed to the rotating shaft support column 300; accomodate and be provided with control panel in the protection casing 10, first electric telescopic handle 201, second telescopic link 205, fourth electric telescopic handle 212, sensor 301 and motor 303 all are connected with control panel electricity.

The first fixed disk 200 and the first electric telescopic rod 201, the second fixed disk 203 and the second electric telescopic rod 204, the third fixed disk 207 and the support rod 208, the first connecting disk 206 and the first telescopic rod 202, and the second connecting disk 209 and the second telescopic rod 205 are movably connected in a rotating shaft manner and can only longitudinally rotate. The sum of the lengths of the first electric telescopic rod 201 and the second electric telescopic rod 204 is approximately equal to the distance from the first fixed disk 200 to the second fixed disk 203. The diameter of the first supporting disk 210 is smaller than that of the fifth fixing disk 215. The arc groove 307 is used in cooperation with the rotating shaft support column 300, and the first fan-shaped solar panel 306, the second fan-shaped solar panel 311, the third fan-shaped solar panel 315 and the fourth fan-shaped solar panel 317 are not in contact with the rotating shaft support column 300 when the rotating shaft support column rotates.

In this embodiment, as shown in fig. 1, the fan blade storage compartment 11 designed by the present invention can store the fan-shaped solar panel when the fan-shaped solar panel is not used, so that the fan-shaped solar panel is not damaged even in the weather of strong wind and strong rain. Specifically, the housing protection covers 10 are respectively provided with fan blade housing bins 11.

In this embodiment, as shown in fig. 2 and fig. 5, the support rod 208 and the combination thereof designed by the present invention can be folded when the fan-shaped solar panel is received, and can support and extend the fan-shaped solar panel when the fan-shaped solar panel is unfolded, so as to avoid contacting the receiving protective cover 10. Specifically, a first fixed disk 200, a second fixed disk 203 and a third fixed disk 207 are fixedly connected to the bottom surface of the telescopic rod storage bin 12 from bottom to top in sequence, a first electric telescopic rod 201 is movably connected to the first fixed disk 200, a first telescopic rod 202 is movably connected to the first electric telescopic rod 201, a second electric telescopic rod 204 is movably connected to the second fixed disk 203, a second telescopic rod 205 is movably connected to the second electric telescopic rod 204, a first connecting disk 206 is fixedly connected to one end side of the second electric telescopic rod 204, the first telescopic rod 202 is movably connected to the first connecting disk 206, a supporting rod 208 is movably connected to the third fixed disk 207, a second connecting disk 209 is fixedly connected to one middle side of the supporting rod 208, and the second telescopic rod 205 is movably connected to the second connecting disk 209; the first fixed disc 200 and the first electric telescopic rod 201, the second fixed disc 203 and the second electric telescopic rod 204, the third fixed disc 207 and the support rod 208, the first connecting disc 206 and the first telescopic rod 202, and the second connecting disc 209 and the second telescopic rod 205 are in rotary shaft type movable connection and can only longitudinally rotate; the sum of the lengths of the first electric telescopic rod 201 and the second electric telescopic rod 204 is approximately equal to the distance from the first fixed disk 200 to the second fixed disk 203.

In this embodiment, as shown in fig. 3 and fig. 6, the sensor 301 and the fourth electric telescopic rod 212 and the combination thereof designed by the present invention can make the fan-shaped solar panel track the sun direction and perform steering alignment, so that the absorption efficiency can be greatly improved, and the sensor 301 mainly comprises a sensor, an azimuth angle tracking mechanism, an altitude angle tracking mechanism and an automatic control device. According to the data of the sensor 301, the fourth electric telescopic rod 212 and the combination thereof feed back to adjust the correct direction. Specifically, one end of the supporting rod 208 is fixedly connected with a first supporting disk 210, one side of the first supporting disk 210 is fixedly connected with three uniformly distributed fourth fixed disks 211, the fourth fixed disks 211 are movably connected with fourth electric telescopic rods 212, the fourth electric telescopic rods 212 are movably connected with fourth telescopic rods 213, one side of the first supporting disk 210 is provided with a fifth fixed disk 215, one side of the fifth fixed disk 215 is fixedly connected with three fifth fixed disks 214 corresponding to the fourth fixed disks 211, the other end of the fourth telescopic rods 213 is movably connected to the fifth fixed disks 214, and one side of the fifth fixed disks 215 is fixedly connected with a connecting fixed rod 216; one end of the rotating shaft supporting column 300 is provided with a sensor 301; the diameter of the first supporting disk 210 is smaller than that of the fifth fixing disk 215.

In this embodiment, as shown in fig. 3, 4, 7 and 8, the rotating shaft support column 300 and the combination thereof designed by the present invention can fold and unfold the first fan-shaped solar panel 306, the second fan-shaped solar panel 311 and the third fan-shaped solar panel 315, and the unfolded fan-shaped solar panel can greatly increase the absorption area, so that the solar panel can be conveniently stored when being folded. Specifically, the other end of the fixing rod 216 is fixedly connected with a rotating shaft supporting column 300, one end of the rotating shaft supporting column 300 is provided with a sensor 301, the inside of the rotating shaft supporting column 300 is sequentially provided with a first fixed chassis 302, a second fixed chassis 309 and a third fixed chassis 313 from outside to inside, one side of each of the first fixed chassis 302, the second fixed chassis 309 and the third fixed chassis 313 is provided with a motor 303, the motor 303 is provided with a rotating shaft 304, the outside of the rotating shaft supporting column 300 is sequentially provided with a clockwise quarter opening 305, a counterclockwise quarter opening 310 and a counterclockwise quarter opening 314 from outside to inside, one side of the rotating shaft supporting column 300 is sequentially provided with a first fan-shaped solar panel 306, a second fan-shaped solar panel 311, a third fan-shaped solar panel 315 and a fourth fan-shaped solar panel 317 from outside to inside, and the first fan-shaped solar panel 306, the second fan-shaped solar panel 311, the third fan-shaped solar panel 317, Arc grooves 307 are formed in the third fan-shaped solar panel 315 and the fourth fan-shaped solar panel 317, the arc grooves 307 are matched with the rotating shaft supporting column 300 for use, and the first fan-shaped solar panel 306, the second fan-shaped solar panel 311, the third fan-shaped solar panel 315 and the fourth fan-shaped solar panel 317 are not in contact with the rotating shaft supporting column 300 when the rotating shaft is rotated. First fixed rod 308 is fixedly connected to first fan-shaped solar panel 306, first fixed rod 308 passes clockwise quarter opening 305 and then is fixed on pivot 304, second fixed rod 312 is fixedly connected to second fan-shaped solar panel 311, second fixed rod 312 passes anticlockwise two-quarter opening 310 and then is fixed on pivot 304, third fixed rod 316 is fixedly connected to third fan-shaped solar panel 315, third fixed rod 316 passes anticlockwise quarter opening 314 and then is fixed on pivot 304, fourth fan-shaped solar panel 317 is fixedly connected to fourth fixed rod 318, and fourth fixed rod 318 is fixed on pivot support column 300.

In this embodiment, as shown in fig. 1 to fig. 8, the operation process of the intelligent wall-mounted solar power supply provided in this embodiment is as follows:

step 1: the sunlight is captured by the sensor 301, the control panel controls the first electric telescopic rod 201, the first telescopic rod 202 extends and pushes the second electric telescopic rod 204 to rotate upwards, the second electric telescopic rod 204 drives the supporting rod 208 to rotate upwards, then the second electric telescopic rod 204 extends the second telescopic rod 205, and the second telescopic rod 205 continues to enable the supporting rod 208 to rotate upwards.

Step 2: after the support rod 208 stops rotating, the motor 303 below the clockwise quarter opening 305 rotates, and the rotating shaft 304 drives the first fan-shaped solar panel 306 to rotate ninety degrees clockwise; the motor 303 under the two-quarter counterclockwise opening 310 operates, and the rotating shaft 304 drives the second fan-shaped solar panel 311 to rotate counterclockwise by one hundred eighty degrees; the motor 303 under the counterclockwise quarter opening 314 and the opening 310 operates, and the rotating shaft 304 drives the third fan-shaped solar panel 315 to rotate ninety degrees counterclockwise.

And step 3: after the fan-shaped solar panel is unfolded, the fourth electric telescopic rod 212 and the combination thereof enable the fan-shaped solar panel to track the sun direction and perform steering alignment.

And 4, step 4: when the fan-shaped solar panel is folded in cloudy days or at night, the supporting rods 208 and the combination thereof are contracted to enable the fan-shaped solar panel to be retracted into the fan blade storage bin 11.

In summary, in the present embodiment, the intelligent wall-mounted solar power supply according to the present embodiment.

The above description is only for the purpose of illustrating the present invention and is not intended to limit the scope of the present invention, and any person skilled in the art can substitute or change the technical solution of the present invention and its conception within the scope of the present invention.