CN113291172A

CN113291172A - Solar mobile charging equipment

Info

Publication number: CN113291172A
Application number: CN202110479539.XA
Authority: CN
Inventors: 王珍
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-04-30
Filing date: 2021-04-30
Publication date: 2021-08-24

Abstract

The invention discloses a solar mobile charging device, which structurally comprises a mobile wheel, a supporting leg, a solar device and a charging bin, wherein the middle part of the mobile wheel is connected with an outer side shaft of the solar device, the rear end of the supporting leg is connected with an outer side bolt of the charging bin, the lower side of the solar device is attached to the upper side of the charging bin, the solar device comprises a fixed frame, a dust sweeping device and a top plate, the inner side of the fixed frame is in clearance fit with the outer side of the dust sweeping device, a stress plate is blown by wind power to drive a sweeping rod to deflect, a side supporting rod is driven by inertia to expand outwards to sweep a region outside a rotation angle when the stress plate deflects to an edge, the surface area of a solar panel irradiated by sunlight is increased, the power generation power of the solar panel is increased, the wind plate can rotate around a central shaft when the wind power is too high, the wind plate can push a buffer plate to buffer around the central shaft when the wind power is rotated, and finally the central shaft is driven to rotate, the over-large torque generated by over-large wind power is prevented, and the service life of the dust sweeping device is prolonged.

Description

Solar mobile charging equipment

Technical Field

The invention belongs to the field of solar energy, and particularly relates to a solar mobile charging device.

Background

Along with the popularization of electric automobiles in life, more electric automobiles are used for traveling in traveling, the electric automobiles are limited by the restriction of current battery technology in the long-distance traveling process of the electric automobiles, the traveling mileage is difficult to reach the length of a transmission internal combustion engine automobile, meanwhile, the number of stations for outdoor charging is too small, so that the solar mobile charging equipment can be used for charging the automobile under the condition of sufficient sunlight in daytime, but the solar charging panel needs too large area to generate enough electric energy for charging the electric automobiles, when charging is carried out in gobi areas with large wind and sand, the sand and dust fall outside the solar panel along with the air drifting, the transmittance of light outside the solar panel is reduced, the light received by the solar panel is reduced, and the power generation power of the solar panel is reduced.

Disclosure of Invention

In order to solve the problems that the solar charging panel needs an overlarge area to generate enough electric energy to charge the electric automobile, and when charging is carried out in a gobi area with large wind and sand, the sand dust falls on the outer side of the solar panel along with the air fluctuation, so that the transmittance of light rays on the outer side of the solar panel is reduced, the light rays received by the solar panel are reduced, and the power generation power of the solar panel is reduced, the invention provides the solar mobile charging equipment.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a solar energy removes battery charging outfit, its structure is including removing wheel, supporting leg, solar device, the storehouse of charging, remove wheel middle part and solar device outside hub connection, the supporting leg rear end with charge storehouse outside bolted connection, solar device downside and the storehouse upper side of charging laminate mutually, solar device is including fixed frame, sweeping dirt device, roof, fixed frame inboard and sweep dirt device outside clearance fit, the roof outside is connected with fixed frame upper end block.

As a further improvement of the invention, the dust sweeping device comprises a solar panel, a sweeping rod and a stress plate, wherein the upper side of the solar panel is attached to the lower side of the sweeping rod, the upper side of the left end of the sweeping rod is connected with the lower end of the stress plate through a bolt, the sweeping rod and the solar panel are parallel to each other and can rotate by taking the left end of the sweeping rod as a fulcrum.

As a further improvement of the invention, the sweeping rods comprise a main rod, two side supporting rods and two pull ropes, the right end of the main rod is connected with the right end shaft of the side supporting rods, the pull ropes are fixedly connected with the outer sides of the right ends of the side supporting rods in an embedded manner, the two side supporting rods are distributed on each sweeping rod in a vertically symmetrical manner by taking the right end of the main rod as the center, and the side supporting rods can be expanded while the sweeping rods swing vertically.

As a further improvement of the invention, the main rods comprise clamping grooves, flat bracing plates, elastic plates and sweeping heads, the outer sides of the clamping grooves are fixedly embedded and connected with the left ends of the flat bracing plates, the elastic plates are welded and connected with the lower sides of the flat bracing plates, the upper sides of the sweeping heads are welded and connected with the upper sides of the elastic plates, and the number of the elastic plates on each main rod is sixteen, and the elastic plates are horizontally distributed at equal intervals.

As a further improvement of the invention, the sweeping heads comprise fixed blocks, attaching blocks and flexible blocks, wherein the upper ends of the attaching blocks at the lower ends of the fixed blocks are connected through a shaft, the left side and the right side of each flexible block are attached to the lower sides of the attaching blocks, the number of the attaching blocks in each sweeping head is two, the attaching blocks are distributed in a bilateral symmetry mode by taking the flexible blocks as centers, and the shape of the attaching blocks is an arc shape.

As a further improvement of the invention, the stress plate comprises a supporting block, a torsion shaft and a rotating plate, the upper side of the supporting block is fixedly connected with the middle part of the torsion shaft in an embedding manner, the outer side of the torsion shaft is movably clamped with the lower end of the rotating plate, the interior of the torsion shaft is of a spiral structure, and the rotating plate can deflect by taking the torsion shaft as a fulcrum.

As a further improvement of the invention, the rotating plate comprises a main body plate, a sweeping head, a connecting rod and a chuck, wherein the lower side of the main body plate is adhered to the upper side of the sweeping head, the upper end of the connecting rod is fixedly connected with the lower side of the main body plate, the upper side of the chuck is fixedly connected with the lower side of the connecting rod, and the chuck is semicircular and flat.

As a further improvement of the invention, the main body plate comprises a central shaft, wind receiving plates, buffer plates and a rotating shaft, the outer sides of the central shaft are fixedly connected with the middle parts of the wind receiving plates in an embedded mode, the middle parts of the wind receiving plates are movably clamped with the outer sides of the rotating shaft, the upper ends and the lower ends of the buffer plates are fixedly connected with the outer sides of the wind receiving plates in an embedded mode, the number of the buffer plates is two, and the wind receiving plates are distributed in a bilateral symmetry mode.

Advantageous effects

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

1. the stress plate is blown by wind power to drive the sweeping rod to deflect, and the other supporting rods are driven by inertia to expand outwards to sweep the area outside the rotation angle when the stress plate deflects to the edge, so that the surface area of the solar panel irradiated by sunlight is increased, and the power generation power of the solar panel is increased.

2. Receive the aerofoil when wind-force is too big and can rotate around the center pin, receive the aerofoil can promote the buffer board and buffer around the rotation axis during rotation, drive the center pin at last and rotate, prevented that wind-force from excessively producing too big moment of torsion, improved the life of sweeping the dirt device.

Drawings

Fig. 1 is a schematic structural diagram of a solar mobile charging device according to the present invention.

Fig. 2 is a front view of a half-section structure of a solar device according to the present invention.

FIG. 3 is a front view of a half-section structure of a dust-sweeping device according to the present invention.

FIG. 4 is a schematic top view of a half-section of a sweeping bar according to the present invention.

Fig. 5 is a front view of a half-section structure of a main rod according to the present invention.

FIG. 6 is a side view of a cleaning head according to the present invention.

Fig. 7 is a front view semi-sectional structural schematic diagram of a stress plate of the invention.

FIG. 8 is a side view of a rotating plate according to the present invention.

FIG. 9 is a schematic top view of a half-sectional structure of a main body panel according to the present invention.

In the figure: the device comprises a moving wheel-1, supporting legs-2, a solar device-3, a charging bin-4, a fixed frame-31, a dust sweeping device-32, a top plate-33, a solar panel-321, a sweeping rod-322, a stress plate-323, a main rod-22 a, a side supporting rod-22 b, a pull rope-22 c, a clamping groove-a 1, a flat supporting plate-a 2, an elastic plate-a 3, a sweeping head-a 4, a fixed block-a 41, a fitting block-a 42, a toughness block-a 43, a supporting block-23 a, a torsion shaft-23 b, a rotating plate-23 c, a main body plate-c 1, a sweeping head-c 2, a connecting rod-c 3, a clamping head-c 4, a central shaft-c 11, a wind receiving plate-c 12, a buffer plate-c 13 and a rotating shaft-c 14.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 6:

the invention provides a solar mobile charging device which structurally comprises a moving wheel 1, supporting legs 2, a solar device 3 and a charging bin 4, wherein the middle part of the moving wheel 1 is connected with an outer side shaft of the solar device 3, the rear ends of the supporting legs 2 are connected with an outer side bolt of the charging bin 4, the lower side of the solar device 3 is attached to the upper side of the charging bin 4, the solar device 3 comprises a fixed frame 31, a dust sweeping device 32 and a top plate 33, the inner side of the fixed frame 31 is in clearance fit with the outer side of the dust sweeping device 32, and the outer side of the top plate 33 is connected with the upper end of the fixed frame 31 in a clamping mode.

Wherein, sweep dirt device 32 and include solar panel 321, sweep pole 322, atress board 323, the solar panel 321 upside is laminated mutually with sweeping pole 322 downside, sweep pole 322 left end upside and atress board 323 lower extreme bolted connection, sweep pole 322 and solar panel 321 are parallel to each other to can rotate as the fulcrum with sweeping pole 322 left end, make sweeping pole 322 can rotate under the drive of atress board 323, be favorable to sweeping the dust of solar panel 321 upside.

Wherein, sweep pole 322 includes mobile jib 22a, other branch pole 22b, stay cord 22c, mobile jib 22a right-hand member is connected with other branch pole 22b right-hand member hub, stay cord 22c is connected with the outside embedment of other branch pole 22b right-hand member, the quantity of other branch pole 22b on every sweeping pole 322 is two to use mobile jib 22a right-hand member to be upper and lower symmetric distribution as the center, other branch pole 22b can expand when sweeping pole 22b luffing motion, has increased the area of sweeping the dust on solar panel 321.

The main rod 22a comprises a clamping groove a1, a flat bracing plate a2, an elastic plate a3 and a sweeping head a4, the outer side of the clamping groove a1 is fixedly connected with the left end of the flat bracing plate a2, the elastic plate a3 is connected with the lower side of the flat bracing plate a2 in a welding mode, the upper side of the sweeping head a4 is connected with the upper side of the elastic plate a3 in a welding mode, the number of the elastic plates a3 on each main rod 22a is sixteen, and the elastic plates a3 are distributed horizontally and equidistantly, so that the elastic plates a3 can pressurize the sweeping head a4, and the pressure of the sweeping head a4 on the solar panel 321 is improved.

Wherein, the sweeping head a4 includes fixed block a41, laminating piece a42, toughness piece a43, fixed block a41 lower extreme laminating piece a42 upper end hub connection, the toughness piece a43 left and right sides is laminated with laminating piece a42 downside mutually, laminating piece a42 is two at every quantity of sweeping head a4 to use toughness piece a43 to be the bilateral symmetry distribution as the center, and laminating piece a42 shape is the arc, makes laminating piece a42 downside closely laminate with the solar panel 321 upside, is favorable to bouncing off solar panel 321 upside dust.

The specific use mode and function of the embodiment are as follows:

in the invention, the equipment is moved to a position with sufficient sunlight by the moving wheel 1, the supporting leg 2 is unfolded to support the equipment, then the solar device 3 is pulled out and unfolded, the equipment to be charged is powered or charged by the charging bin 4, the dust sweeping device 32 is pulled out in the fixed frame 31 in a sand and dust area such as gobi and the like, dust adsorbed on the outer sides of the top plate 33 and the solar panel 321 can be swept away, the sweeping rod 322 is driven to deflect by the blowing of the force bearing plate 323 under the action of wind power in the sweeping process, the main rod 22a is driven to deflect by the force bearing plate 323 under the action of the wind power in the deflecting process, the side supporting rod 22b is driven to expand outwards by inertia when deflecting to the edge, the side supporting rod 22b is pulled back by the elasticity of the pull rope 22c after sweeping, the force bearing plate needs to keep vertical to clamp the inner side of the bottom part a1, and then the clamping groove 323 rotates, the flat supporting plate a2 is driven to sweep on the upper side of the solar panel 321, the elastic plate a3 pushes the sweeping head a4 to extrude the solar panel 321 downwards during sweeping, meanwhile, the attaching block a42 at the lower end of the fixing block a41 is attached to the upper side of the solar panel 321, dust on the upper side of the solar panel 321 is swept, when the sweeping resistance is too large, the dust is pushed by the toughness block a43 to be outwards flicked, the surface area of the solar panel 321 irradiated by a sun switch is increased, and the power generation power of the solar panel 321 is increased.

Example 2:

as shown in fig. 7 to 9:

the force-bearing plate 323 comprises a supporting block 23a, a torsion shaft 23b and a rotating plate 23c, wherein the upper side of the supporting block 23a is fixedly connected with the middle of the torsion shaft 23b, the outer side of the torsion shaft 23b is movably clamped with the lower end of the rotating plate 23c, the interior of the torsion shaft 23b is of a spiral structure, and the rotating plate 23c can deflect by taking the torsion shaft 23b as a fulcrum, so that the force-bearing plate 323 can be stored by rotating, and the space occupancy rate of the force-bearing plate 323 is reduced.

Wherein, the rotating plate 23c includes main body board c1, sweeping head c2, connecting rod c3, dop c4, main body board c1 downside bonds with sweeping head c2 upside mutually, connecting rod c3 upper end is connected with main body board c1 downside embedded and fixed, dop c4 upside and connecting rod c3 downside embedded and fixed are connected, dop c4 shape is semi-circular to be the platykurtic, make dop c4 can with the inboard block of draw-in groove a1 after rotating plate 23c is perpendicular, drive sweeping rod 322 through wind-force afterwards and deflect, be favorable to sweeping device 32 to follow the size of wind-force and improve the number of times of sweeping solar panel 321.

Wherein, main body board c1 includes center pin c11, receives wind board c12, buffer board c13, pivot c14, the center pin c11 outside is connected with receiving wind board c12 middle part is embedded firmly, receive wind board c12 middle part and pivot c14 outside activity block, both ends and the fixed connection that is connected that receives wind board c12 outside are embedded firmly about buffer board c13, buffer board c13 quantity is two to it distributes for present bilateral symmetry to use to receive wind board c12 for buffer board c13 can cushion the wind-force that receives wind board c12 both sides and receive, has prevented that wind-force from excessively big production too big moment of torsion, has improved the life who sweeps dust collector 32.

The specific use mode and function of the embodiment are as follows:

in the invention, after the torsion shaft 23b is fixed by the supporting block 23a, the main body plate c1 is exposed to be perpendicular to the solar panel 321 by rotating the rotating plate 23c after the solar panel 321 is unfolded, the main body plate c1 is rotated by the connecting rod c3 under the condition of strong wind, the main rod 22a is rotated to be swept by the rotation of the rotating head c4, the dust on the upper side of the top plate 33 is swept by the sweeping head c2 on the lower side when the main body plate c1 is blown by wind, the wind-receiving plate c12 rotates around the central shaft c11 when the wind is too strong, the buffer plate c13 is pushed by the wind-receiving plate c12 to buffer around the rotating shaft c14 during rotation, and finally the central shaft c11 is driven to rotate, so that the excessive torque generated by the excessive wind is prevented, and the service life of the dust sweeping device 32 is prolonged.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The utility model provides a solar energy removes battery charging outfit, its structure is including removing wheel (1), supporting leg (2), solar device (3), storehouse (4) charges, remove wheel (1) middle part and solar device (3) outside hub connection, supporting leg (2) rear end and storehouse (4) outside bolted connection charges, solar device (3) downside is laminated its characterized in that with storehouse (4) upside mutually that charges:

solar device (3) are including fixed frame (31), sweep dirt device (32), roof (33), fixed frame (31) inboard with sweep dirt device (32) outside clearance fit, roof (33) outside and fixed frame (31) upper end block are connected.

2. The solar mobile charging device of claim 1, wherein: sweep dirt device (32) and include solar panel (321), sweep pole (322), atress board (323), solar panel (321) upside is laminated with sweeping pole (322) downside mutually, sweep pole (322) left end upside and atress board (323) lower extreme bolted connection.

3. The solar mobile charging device of claim 2, wherein: the sweeping rod (322) comprises a main rod (22a), a side supporting rod (22b) and a pull rope (22c), the right end of the main rod (22a) is connected with the right end shaft of the side supporting rod (22b), and the pull rope (22c) is fixedly connected with the outer side of the right end of the side supporting rod (22 b).

4. A solar mobile charging apparatus as claimed in claim 3, wherein: the mobile jib (22a) includes draw-in groove (a1), flat stay plate (a2), springboard (a3), sweeps away head (a4), draw-in groove (a1) outside and flat stay plate (a2) left end are inlayed and are connected, springboard (a3) and flat stay plate (a2) downside welded connection, sweep away head (a4) upside and springboard (a3) upside welded connection.

5. The solar mobile charging device of claim 4, wherein: the sweeping head (a4) comprises a fixed block (a41), an attaching block (a42) and a toughness block (a43), wherein the upper end shaft of the lower end attaching block (a42) of the fixed block (a41) is connected with the lower side of the attaching block (a42) on the left side and the right side of the toughness block (a 43).

6. The solar mobile charging device of claim 2, wherein: the stress plate (323) comprises a supporting block (23a), a torsion shaft (23b) and a rotating plate (23c), the upper side of the supporting block (23a) is fixedly connected with the middle of the torsion shaft (23b), and the outer side of the torsion shaft (23b) is movably clamped with the lower end of the rotating plate (23 c).

7. The solar mobile charging device of claim 6, wherein: the rotating plate (23c) comprises a main body plate (c1), a sweeping head (c2), a connecting rod (c3) and a clamping head (c4), the lower side of the main body plate (c1) is bonded with the upper side of the sweeping head (c2), the upper end of the connecting rod (c3) is fixedly embedded with the lower side of the main body plate (c1), and the upper side of the clamping head (c4) is fixedly embedded with the lower side of the connecting rod (c 3).

8. The solar mobile charging device of claim 7, wherein: the main part board (c1) includes center pin (c11), receives wind board (c12), buffer board (c13), pivot (c14), center pin (c11) outside is inlayed fixedly with wind board (c12) middle part and is connected, receive wind board (c12) middle part and pivot (c14) outside activity block, both ends and the wind board (c12) outside are inlayed fixedly and are connected about buffer board (c 13).