CN113091332A

CN113091332A - Rotary solar panel

Info

Publication number: CN113091332A
Application number: CN202110417632.8A
Authority: CN
Inventors: 端木晶
Original assignee: Changzhou Su Bo Hi Tech Co ltd
Current assignee: Changzhou Su Bo Hi Tech Co ltd
Priority date: 2021-04-19
Filing date: 2021-04-19
Publication date: 2021-07-09

Abstract

The invention discloses a rotary solar panel, each telescopic column is respectively and fixedly connected with a fixed seat, and are all positioned above the fixed seat, the rotating component is fixedly connected with one of the telescopic columns in a rotating way and is embedded in the corresponding telescopic column, the number of the connecting rods is two, one of the connecting rods is rotatably connected with one of the telescopic columns, the other connecting rod is fixedly connected with the rotating assembly, the limiting support is respectively and fixedly connected with the two connecting rods, and is positioned between the two connecting rods, the limit bracket is detachably connected with the limit support, the solar panel is fixedly connected with the limit bracket, two ends of the synchronous strip are respectively fixedly connected with the two connecting rods, and is located the below of spacing support, realize improving user's use through the setting of above-mentioned structure and feel.

Description

Rotary solar panel

Technical Field

The invention relates to the technical field of solar equipment, in particular to a rotary solar panel.

Background

Solar energy refers to the heat radiation energy of the sun, and the main expression is the solar ray. In modern times it is commonly used to generate electricity or to power water heaters. With the ever-decreasing consumption of fossil fuels, solar energy has become an important component of energy used by humans and is constantly being developed. The solar energy is utilized in a photo-thermal conversion mode and a photoelectric conversion mode, and solar power generation is a new renewable energy source.

When the mobile communication device is used in field exploration operation, disaster relief and emergency rescue, island life and field military operation, the mobile communication device, living facilities and electric tools carried by the mobile communication device are far away from the commercial power, and cannot continue to work if the mobile communication device, the living facilities and the electric tools cannot be charged in time, so that the living and operating capacities of field personnel can be greatly influenced. At present, when the solar panel is used for storing electric energy in the field, the use feeling of a user is poor.

Disclosure of Invention

The invention aims to provide a rotary solar panel, and aims to solve the technical problem that a user feels poor in use in the prior art.

In order to achieve the above purpose, the invention provides a rotary solar panel, which comprises two fixed seats, two telescopic columns, two rotating assemblies, two connecting rods, a solar panel, a limiting bracket, a limiting support, a synchronous strip and a moving assembly, wherein each telescopic column is respectively and fixedly connected with the fixed seat and is positioned above the fixed seat, the rotating assembly is rotatably and fixedly connected with one telescopic column and is embedded in the corresponding telescopic column, the number of the connecting rods is two, one connecting rod is rotatably connected with one telescopic column, the other connecting rod is fixedly connected with the rotating assembly, the limiting support is respectively and fixedly connected with the two connecting rods and is positioned between the two connecting rods, and the limiting bracket is detachably connected with the limiting support, the solar panel comprises a limiting support and is characterized in that two clamping grooves are formed in the limiting support, two bulges are formed in the limiting support and are matched with the corresponding clamping grooves, the solar panel is fixedly connected with the limiting support, two ends of a synchronous strip are fixedly connected with two connecting rods and located below the limiting support, the number of moving assemblies is multiple groups, and each group of moving assemblies is respectively fixedly connected with a fixing seat and located below the fixing seat.

The rotating assembly comprises a rotating motor and a speed reducer, the rotating motor is fixedly connected with one of the telescopic rods and is embedded in the corresponding telescopic rod, the speed reducer is fixedly connected with the output end of the rotating motor, and one of the connecting rods is fixedly connected with the speed reducer.

Each group of moving assemblies respectively comprises a moving rod and a roller, one end of the moving rod is fixedly connected with the fixed seat and is positioned below the fixed seat, and the roller is rotatably connected with the other end of the moving rod.

The rotary solar panel further comprises a storage plate, and the storage plate is fixedly connected with the telescopic column and located on the outer side wall of the telescopic column.

Wherein, rotation type solar panel still includes first buckle, the quantity of first buckle is a plurality of, every first buckle respectively with accomodate board fixed connection.

The rotary solar panel further comprises a first shifting block, and each first shifting block is arranged on the buckle.

The invention has the beneficial effects that: when a user uses the rotary solar panel in the field, the rotary solar panel is placed on the ground, the solar panel and the limiting support are held by hands after the lengths of the two telescopic columns are manually controlled, the two protrusions on the limiting support are aligned with the two corresponding clamping grooves on the limiting support, pressing force is applied to the protrusions to enable the limiting support to be embedded on the limiting support, the solar panel and the limiting support are fixed relative to the limiting support, in order to ensure that the solar panel receives sufficient illumination and the energy storage effect is not affected, the user can control the rotating assembly to operate, the rotating assembly drives the connecting rod to rotate, the limiting support and the solar panel are enabled to rotate, when the solar panel is rotated to a proper position, the user stops the runner assembly function lets solar panel accepts abundant illumination, the both ends of synchronous strip are respectively with two the connecting rod is connected, works as during the runner assembly function, is close to the runner assembly the connecting rod rotates under the effect of synchronous strip, another the connecting rod can rotate in step, makes solar panel rotates more stably, has realized improving user's use and has felt.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of the solar panel according to the present invention in use.

Figure 2 is a front view of the rotating solar panel of the present invention in use.

Figure 3 is a top view of a rotating solar panel of the present invention in use.

Figure 4 is a front view of the rotary solar panel of the present invention when not in use.

Figure 5 is a bottom view of the rotary solar panel of the present invention when not in use.

Fig. 6 is a cross-sectional view of the a-a line structure of fig. 3 of the present invention.

Fig. 7 is an enlarged view of a portion of the structure of fig. 6B according to the present invention.

100-rotary solar panel, 1-fixed seat, 2-telescopic column, 3-rotating component, 4-connecting rod, 5-solar panel, 6-limiting support, 7-limiting support, 8-synchronous strip, 9-moving component, 10-containing plate, 11-first buckle, 12-first shifting block, 13-inner rod, 14-outer cylinder, 15-abutting block, 16-reset spring, 17-pull rod, 18-fixing component, 19-bulge, 20-clamping groove, 21-first fixing groove, 22-second fixing groove, 23-penetrating groove, 31-rotating motor, 32-speed reducer, 91-moving rod, 92-roller, 181-supporting rod, 182-piercing rod, 183-second buckle, 184-second dial block.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to 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.

Referring to fig. 1 to 7, the present invention provides a rotary solar panel 100, which includes a fixed base 1, two telescopic pillars 2, a rotating assembly 3, connecting rods 4, a solar panel 5, a limiting bracket 6, a limiting support 7, a synchronization bar 8 and a moving assembly 9, wherein the number of the telescopic pillars 2 is two, each telescopic pillar 2 is respectively and fixedly connected to the fixed base 1 and is located above the fixed base 1, the rotating assembly 3 is rotatably and fixedly connected to one of the telescopic pillars 2 and is embedded in the corresponding telescopic pillar 2, the number of the connecting rods 4 is two, one of the connecting rods 4 is rotatably connected to one of the telescopic pillars 2, the other connecting rod 4 is fixedly connected to the rotating assembly 3, the limiting support 7 is respectively and fixedly connected to the two connecting rods 4 and is located between the two connecting rods 4, spacing support 6 with spacing support 7 can dismantle the connection, two draw-in grooves 20 have on the spacing support 7, two protruding 19 have on the spacing support 6, and every protruding 19 respectively with correspond draw-in groove 20 looks adaptation, solar panel 5 with spacing support 6 fixed connection, synchronous strip 8's both ends respectively with two connecting rod 4 fixed connection, and be located spacing support 7's below, the quantity of removing subassembly 9 is the multiunit, every group remove subassembly 9 respectively with fixing base 1 fixed connection, and all are located fixing base 1's below.

In this embodiment, when a user uses the rotary solar panel 100 in the field, the user places the rotary solar panel 100 on the ground, manually controls the lengths of the two telescopic columns 2, holds the solar panel 5 and the limiting bracket 6, aligns the two protrusions 19 on the limiting bracket 6 with the two corresponding slots 20 on the limiting support 7, and applies pressing force to make the limiting bracket 6 fit on the limiting support 7, so that the solar panel 5 and the limiting bracket 6 are fixed relative to the limiting support 7, so as to ensure that the solar panel 5 receives sufficient light to affect the energy storage effect, the user can control the operation of the rotating assembly 3, the rotating assembly 3 drives the connecting rod 4 to rotate, so that the limiting support 7, the limiting bracket 6 and the solar panel 5 rotate, work as after solar panel 5 turned to suitable position, the user stopped rotating assembly 3 functions, lets solar panel 5 accepts abundant illumination, synchronous strip 8 both ends respectively with two connecting rod 4 is connected, works as during rotating assembly 3 functions, is close to rotating assembly 3 connecting rod 4 rotates under synchronous strip 8's effect, another connecting rod 4 can rotate in step, makes solar panel 5 rotates more stably, has realized improving user's use and has felt.

Further, the rotating assembly 3 includes a rotating motor 31 and a speed reducer 32, the rotating motor 31 is fixedly connected with one of the telescopic rods and is embedded in the corresponding telescopic rod, the speed reducer 32 is fixedly connected with an output end of the rotating motor 31, and one of the connecting rods 4 is fixedly connected with the speed reducer 32.

In this embodiment, when the user control rotate during motor 31 functions, rotate motor 31 with speed reducer 32 cooperation drives and is close to rotate motor 31 connecting rod 4 rotates, thereby realizes spacing support 7 spacing support 6 with solar panel 5 rotates, lets solar panel 5 accepts abundant illumination to do not influence the energy storage effect.

Further, each group of the moving assemblies 9 respectively includes a moving rod 91 and a roller 92, one end of the moving rod 91 is fixedly connected to the fixed base 1 and is located below the fixed base 1, and the roller 92 is rotatably connected to the other end of the moving rod 91.

In this embodiment, when a user needs to push the solar panel 100, the user holds one outer sidewall of the telescopic column 2 and applies a pushing force to push the solar panel 100 to move under the rotation of the roller 92.

Further, the rotary solar panel 100 further comprises a receiving plate 10, wherein the receiving plate 10 is fixedly connected to the telescopic column 2 and is located on an outer side wall of the telescopic column 2.

Further, the rotary solar panel 100 further includes a plurality of first fasteners 11, and each of the first fasteners 11 is fixedly connected to the receiving plate 10.

Further, the rotary solar panel 100 further comprises a first shifting block 12, and each of the latches is provided with the first shifting block 12.

In this embodiment, the solar panel 5 is adapted to the receiving plate 10, the first buckle 11 is made of a flexible material, when the user does not need to use the rotary solar panel 100, the limiting support 6 is drawn away from the limiting support 7 and aligned with the receiving plate 10, and the first shifting block 12 is shifted to loosen the first buckle 11, so that the solar panel 5 can be placed on the receiving plate 10 and clamped by the first buckle 11 to realize fixation, and the user controls the two telescopic columns 2 to be shortened to reduce the volume of the rotary solar panel 100, thereby achieving the purpose of portability.

Further, each telescopic column 2 comprises an inner rod 13, an outer cylinder 14, a supporting block 15, a return spring 16 and a pull rod 17, one end of the outer cylinder 14 is fixedly connected with the fixing seat 1, the inner rod 13 is embedded in the outer cylinder 14, a through groove 23 is formed in the outer cylinder 14, a first fixing groove 21 and a second fixing groove 22 are formed in the inner rod 13, one end of the return spring 16 is fixedly connected with the outer cylinder 14 and is located in the through groove 23, the other end of the return spring 16 is fixedly connected with the supporting block 15, one end of the pull rod 17 is fixedly connected with the supporting block 15, the other end of the pull rod 17 penetrates through the outer side wall of the outer cylinder 14, and the supporting block 15 is respectively matched with the first fixing groove 21 and the second fixing groove 22.

In this embodiment, the outer cylinder 14 has a through slot 23, the inner rod 13 has a first fixing slot 21 and a second fixing slot 22, when the user needs to use the rotary solar panel 100, the user holds the pull rod 17 with a hand and pulls the pull rod 17 until the return spring 16 is compressed and has a resilient force, the abutting block 15 is away from the second fixing slot 22 and moves into the through slot 23, at this time, the inner rod 13 can slide in the outer cylinder 14, the user holds the connecting rod 4 with a hand and pulls it upwards, under the action of the synchronization bar 8, the two inner rods 13 slide in the corresponding outer cylinders 14, and when the abutting block 15 is located in the first fixing slot 21, under the resilient force of the return spring 16, the abutting block 15 is driven into the first fixing slot 21, so that the inner rod 13 and the outer cylinder 14 are relatively fixed, the length of the inner rod 13 and the outer cylinder 14 is increased; when the user does not need to use the rotary solar panel 100, the user holds the pull rod 17, pulls the pull rod 17, until the return spring 16 compresses and has a resilience force, and the abutting block 15 is far away from the first fixing groove 21 and moves into the through groove 23, at this time, the inner rod 13 can slide in the outer cylinder 14, the user holds the connecting rod 4 and extrudes downwards, under the action of the synchronous strip 8, the two inner rods 13 slide in the corresponding outer cylinder 14, when the abutting block 15 is located in the second fixing groove 22, under the resilience force of the return spring 16, the abutting block 15 is driven into the second fixing groove 22, so that the inner rod 13 and the outer cylinder 14 are relatively fixed, and the length formed by the inner rod 13 and the outer cylinder 14 is shortened.

Further, rotary solar panel 100 still includes a plurality of fixed subassemblies 18, every fixed subassembly 18 respectively with fixed base 1 rotates to be connected, and all is located fixed base 1's below, every fixed subassembly 18 includes bracing piece 181, thorn pole 182, second buckle 183 and second shifting block 184 respectively, the one end of bracing piece 181 with fixed base 1 rotates to be connected, and is located fixed base 1's below, the other end of bracing piece 181 with thorn pole 182 fixed connection, second buckle 183 with fixed base 1 fixed connection, second shifting block 184 with second buckle 183 fixed connection, just second buckle 183 with bracing piece 181 looks adaptation.

In this embodiment, when the user uses the rotary solar panel 100 in the field, one of the second shifting blocks 184 is firstly shifted by hand, so that the second buckle 183 is loosened and the support rod 181 is rotated, so that the support rod 181 and the bayonet rod 182 are perpendicular to the fixing base 1, and then the rest of the second shifting blocks are sequentially shifted by the above method, so that all the support rods and the bayonet rod 182 are perpendicular to the fixing base 1 respectively, and at this time, the rotary solar panel 100 is placed on the ground and pressed on the fixing base 1, so that the bayonet rod 182 is stabbed into the ground, and the process of using the rotary solar panel 100 is more stable and cannot be tilted.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A rotary solar panel is characterized in that,

comprises a fixed seat, two telescopic columns, a rotating component, two connecting rods, a solar panel, a limiting bracket, a limiting support, a synchronous strip and a moving component, wherein each telescopic column is fixedly connected with the fixed seat and is positioned above the fixed seat, the rotating component is fixedly connected with one telescopic column in a rotating way and is embedded in the corresponding telescopic column, the number of the connecting rods is two, one connecting rod is rotatably connected with one telescopic column, the other connecting rod is fixedly connected with the rotating component, the limiting support is fixedly connected with the two connecting rods and is positioned between the two connecting rods, the limiting bracket is detachably connected with the limiting support, two clamping grooves are arranged on the limiting support, and two bulges are arranged on the limiting bracket, and every the arch respectively with correspond draw-in groove looks adaptation, solar panel with spacing support fixed connection, the both ends of synchronization strip respectively with two connecting rod fixed connection to be located the below of spacing support, the quantity of removal subassembly is the multiunit, every group remove the subassembly respectively with fixing base fixed connection, and all be located the below of fixing base.

2. The rotating solar panel of claim 1,

3. The rotating solar panel of claim 1,

each group of moving assembly comprises a moving rod and a roller wheel, one end of the moving rod is fixedly connected with the fixed seat and is positioned below the fixed seat, and the roller wheel is rotatably connected with the other end of the moving rod.

4. The rotating solar panel of claim 1,

5. The rotating solar panel of claim 4,

rotation type solar panel still includes first buckle, the quantity of first buckle is a plurality of, every first buckle respectively with accomodate board fixed connection.

6. The rotating solar panel of claim 5,

the rotary solar panel further comprises first shifting blocks, and each first shifting block is arranged on the buckle.