CN114629419A

CN114629419A - Portable field operations light stores up charging source

Info

Publication number: CN114629419A
Application number: CN202210300839.1A
Authority: CN
Inventors: 姚承勇; 张进滨; 姚海强
Original assignee: Beijing Qunling Energy Resources Technology Co Ltd; Jiangsu Qunling Energy Technology Co., Ltd.
Current assignee: Beijing Qunling Energy Resources Technology Co Ltd; Jiangsu Qunling Energy Technology Co., Ltd.
Priority date: 2022-03-25
Filing date: 2022-03-25
Publication date: 2022-06-14

Abstract

The invention discloses a portable field light storage charging source, which relates to the field of light storage power sources and comprises a supporting bottom box, wherein side clamping grooves are symmetrically formed in two side edges of the supporting bottom box, a supporting turnover plate is clamped in the inner side edges of the side clamping grooves, a moving wheel body is connected to the bottom surface of the supporting bottom box through bolts, a braking plate is inserted into the side edge of the moving wheel body in a plugging mode, a top accommodating groove is horizontally formed in the top surface of the supporting bottom box, a fixed top plate is horizontally clamped in the inner side edge of the top accommodating groove, a side accommodating groove is vertically formed in the supporting bottom box far away from the side edge of an opening, a telescopic pull rod is vertically clamped in the inner side edge of the side accommodating groove, the top end of the telescopic pull rod is in butt joint with a handle rod, and a sealing cover plate is clamped in the inner side edge of the opening of the supporting bottom box. The device is integrated, simple in structure and convenient to operate, energy is saved and environment is protected by adopting conversion and storage of light energy, and meanwhile, the device can be used as a transportation structure due to the vehicle body type design.

Description

Portable field operations light stores up charging source

Technical Field

The invention relates to the technical field of light storage charging power supplies, in particular to a portable field light storage charging power supply.

Background

A power supply is a device that converts other forms of energy into electrical energy and provides the electrical energy to an electrical circuit (electronic device). The power source is derived from the principle of magnetic electricity generation, and is generated by renewable energy sources such as water power, wind power, sea tide, dam water pressure difference, solar energy and the like, coal burning, oil residue and the like. Common power sources are dry cell (dc) and household 110V-220V ac.

To present power for field operations, still need the solitary operation of carrying when carrying the transportation for the operation of carrying is not convenient for heavier and the gravity of volume, still need the supplementary of extravagant certain electric energy to make it energy saving and emission reduction inadequately when it charges simultaneously, and makes under the structure of charging can only single functionality, lets it can not play other helps nature when using.

Disclosure of Invention

The invention aims to provide a portable field light storage charging power supply, which solves the problems that the conventional field light storage charging power supply provided by the background technology needs to be carried and operated independently during carrying and transportation, so that the field light storage charging power supply is large in size, heavy in gravity and inconvenient to carry and operate, and also needs to waste certain electric energy for assistance during charging so that the field light storage charging power supply is not energy-saving and emission-reducing enough, and can only have single functionality under the charging structure, so that the field light storage charging power supply cannot have other assistance during use.

In order to achieve the purpose, the invention provides the following technical scheme:

a portable field light storage charging source comprises a supporting bottom box, wherein side clamping grooves are symmetrically formed in two side edges of the supporting bottom box, a supporting turnover plate is clamped in the inner side edge of each side clamping groove, a moving wheel body is bolted on the bottom surface of the supporting bottom box, a brake stop plate is inserted into the side edge of the moving wheel body in an inserted mode, a top accommodating groove is horizontally formed in the top surface of the supporting bottom box, a fixed top plate is horizontally clamped and connected in the inner side edge of the top accommodating groove, a side accommodating groove is vertically formed in the side edge, away from an opening, of the supporting bottom box, a telescopic pull rod is vertically clamped and connected in the inner side edge of the side accommodating groove, a handle rod is connected to the top end of the telescopic pull rod in an abutting mode, a sealing cover plate is clamped and connected to the inner side edge of the opening of the supporting bottom box, axial connecting rods are symmetrically inserted into two side edges of the sealing cover plate, a clamping block is arranged on the top surface of the sealing cover plate, and an inner clamping groove is horizontally formed in the bottom surface of the inner side surface of the top accommodating groove, the inner side edge of the inner clamping groove is inserted with a telescopic turning rod, the side edge of the telescopic turning rod is inserted with an inserting end rod, the telescopic turning rod is butted with a regulating plate at one end side edge far away from the inserting end rod, inner sleeve grooves are symmetrically formed in the inner side wall of the side accommodating groove, a fixed inner box is connected with the inner side edge of the supporting bottom box through bolts, a charging inserting block is fixedly clamped at one side edge of the fixed inner box, side shaft grooves are symmetrically formed in the inner side edge of the inner clamping groove, limiting side grooves are symmetrically formed in the inner side wall of the side clamping groove, limiting inclined holes are uniformly formed in the inner side wall of the side clamping groove, a bottom sleeve groove is symmetrically formed in the bottom surface of the supporting turning plate, side clamping blocks are symmetrically butted at two side edges of the supporting turning plate, shaft inserting rods are inserted in the side edges of the side clamping blocks, a supporting turning rod is inserted in the inner side edge of the bottom sleeve groove, and a connecting rod is inserted in the side edge of the supporting turning rod, the bottom end of the supporting turning rod is fixedly connected with an inserting block in an inserting mode, a solar panel is connected to the top surface of the fixed top plate in a horizontal clamping mode, a bottom movable groove is horizontally formed in the bottom surface of the fixed top plate, a movable block is connected to the inner side edge of the bottom movable groove in a clamping mode, a turning clamping block is welded to the bottom end of the movable block, side limiting grooves are symmetrically formed in the top end of the telescopic turning rod, a rotating screw rod is connected to the side edge of the top end of the telescopic turning rod in an inserting mode, an extruding side block is connected to the inner side edge of the side limiting groove in a clamping mode, a top screw hole is formed in the top end of the telescopic pull rod, a connecting screw rod is welded to the bottom surface of the handle rod vertically and downwards, end turning rods are symmetrically connected to the two side edges of the telescopic pull rod in an inserting mode, a converter is connected to the inner side edge of the fixed inner box, and a control main board is connected to the inner side edge of the fixed inner box.

As a preferred embodiment of the present invention: the opening has been seted up to one side of supporting the under casing, and the side joint groove symmetry is seted up at the two symmetrical side central points that support the under casing, and the number that the board was turned over in the support keeps unanimous setting with the number in side joint groove, and two supports turn over the board respectively one-to-one joint setting at the inboard side position in side joint groove, and the number of moving the wheel body is four, and four fixed settings of moving the wheel body are close to four sides angular position in the bottom surface that supports the under casing.

As a preferred embodiment of the present invention: stop the one end of board and run through the lateral wall that removes the wheel body to one side and extend to inside, and stop the grafting end side butt joint of board and set up in wheel body outside limit position, the groove level is offered in the top surface central point that supports the under casing in the top and put, and the groove is vertically offered in a side central line position that supports the under casing in the side is accomodate to the side, and the top butt joint of flexible pull rod is put at the outside limit central point of handle bar, and flexible pull rod and handle bar set up perpendicularly each other.

As a preferred embodiment of the present invention: the shaft connecting rod is symmetrically inserted and arranged on two side edges of the sealing cover plate and close to the bottom surface, one end of the shaft connecting rod far away from the sealing cover plate is inserted and arranged in an inner side edge sleeve hole of an opening of the supporting bottom box, the clamping block is fixedly arranged at the center of the top surface of the sealing cover plate, the clamping block is clamped and arranged at the inner side edge position of an inner side top surface clamping groove of the supporting bottom box, the inner clamping groove is horizontally arranged at the bottom surface central line position of the top containing groove, and the inner part of the inner clamping groove and the inner part of the top containing groove are kept in a through connection mode.

As a preferred embodiment of the present invention: the inboard of draw-in groove is close to one end position including the one end grafting of flexible turnover pole sets up, and grafting end pole is the through type grafting and sets up the grafting end side position at flexible turnover pole, and the both ends of grafting end pole correspond the grafting and set up the inboard side position in side axle slot, and the side central point of regulating plate puts the fixed one end position that cup joints the setting at the rotation screw rod.

As a preferred embodiment of the present invention: the inboard in the groove is accomodate to the side is seted up to endotheca groove symmetry and is close to the bottom surface position, and opening side position is kept away from in the inboard that supports the under casing to fixed the setting of box in fixed, and the inserted block that charges keeps electric connection to set up with the inside of control mainboard, and side shaft groove symmetry is seted up in the inboard of draw-in groove and is close to one end position, and spacing side groove is vertical to the inboard side position of seting up in side joint groove, and the inside of spacing side groove keeps leading to and connects the setting with the inside in side joint groove.

As a preferred embodiment of the present invention: the number of spacing inclined hole is a plurality of, and a plurality of spacing inclined holes are two sets of one-line vertical to arranging and set up the inboard in side joint groove and be close to both sides limit position, the parallel symmetry setting of pot head groove is being close to both sides limit position in the bottom surface that supports the board that turns over, side joint piece symmetry setting is respectively being close to corner position in the both sides limit that supports the board that turns over, and side joint piece one-to-one joint setting is inboard limit position at spacing side groove respectively, the one end grafting setting of axle inserted bar is supporting the side position of turning over the board, the connecting rod is pegged graft and is set up the side top position at the support turning bar, and the both ends grafting setting of connecting rod is in the inboard trepanning position in pot head groove.

As a preferred embodiment of the present invention: the opposite insertion blocks are correspondingly inserted and arranged at the inner side edge positions of the limiting inclined holes, the solar panel and the converter are electrically connected with each other, the bottom movable groove is horizontally opened and arranged at the center line position of the bottom surface of the fixed top plate, the overturning fixture block is inserted and arranged in the overturning groove at the top end of the telescopic overturning rod, and the screw rod is rotated to be horizontally inserted and arranged at the inner side edge positions of the side limiting grooves.

As a preferred embodiment of the present invention: the equal symmetrical threaded connection of extrusion side piece sets up and is close to both ends position at the outside limit that rotates the screw rod, and extrudes between the side piece end butt joint setting in the both sides limit position of upset fixture block, and connecting screw rod corresponds the inboard side position of grafting setting at a screw hole, and connecting screw rod and a screw hole screw thread fixed connection setting each other, and the both ends of end turning rod are all pegged graft and are set up at the inboard side position in inner sleeve groove, and converter and control mainboard keep electric connection setting each other.

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

1. the invention opens the opening of the supporting bottom box by buckling the buckling block to enable the sealing cover plate to turn over, places the battery in the supporting bottom box, enables the battery to be sleeved at the position of the outer side edge of the charging plug-in block after charging, pulls out the fixed top plate from the inner side edge of the top receiving groove to enable the fixed top plate to be lifted to a specified height, enables the telescopic pull rod to be telescopically pulled to a specified length after the telescopic pull rod is telescopically pulled to a specified length to enable the telescopic pull rod to turn out from the inner side edge of the inner buckling groove, stops after the plugging end rod rotates to a specified angle, enables the rotating screw rod to rotate at the inner side edge of the side limiting groove under the rotation of the adjusting plate after the fixed top plate is turned to a required angle, thereby enabling the extrusion side blocks at the outer side edge to be extruded and fixed at the two side edges of the overturning buckling block, and enables the solar panel on the top surface of the fixed top plate to absorb light energy to enter the converter, the conversion into electric energy under the conversion of the converter enables the battery to be charged under the control of the control main board.

2. When the supporting bottom box needs to be pulled, the telescopic pull rod is turned out from the inner side edge of the side containing groove, the telescopic pull rod is pulled after being stretched to a specified length, the handle and the hand rod are pulled, the movable wheel body is moved to a specified position under the rolling of the movable wheel body, the trampling of the brake stopping plate can fix the movable wheel body, the supporting turning plate is turned out from the inside of the side clamping groove during movement, the supporting turning plate is moved to be horizontal with the top surface of the supporting bottom box under the sliding of the side clamping block, the supporting turning rod is turned out from the inner side edge of the bottom sleeve groove, the opposite insertion block at the bottom end is correspondingly inserted into the inner part of the limit inclined hole for supporting, the supporting turning plate is jacked under the supporting of the supporting turning rod, articles to be transported are placed on the top surfaces of the supporting bottom box and the supporting turning plate to serve as a transportation vehicle effect, the device is simple in design and convenient to operate, the solar energy conversion and storage device has the advantages that more energy conservation and environmental protection are realized, and the vehicle body type design can be used as a transportation structure.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic perspective view of a portable field light storage charging power supply;

FIG. 2 is a schematic view of a front view of a section of a portable field light-storage charging power supply;

FIG. 3 is a schematic diagram showing the connection details of the side view section of the supporting bottom box of the portable field light storage charging power supply;

FIG. 4 is a schematic diagram showing the connection details of the side view section of the support flap of the portable field light storage charging power supply;

FIG. 5 is a schematic diagram of a connection detail of a side view section of a fixed top plate of a portable field light storage charging power supply;

FIG. 6 is a schematic diagram showing a side view connection detail of a retractable rod of a portable field light storage charging power supply;

fig. 7 is a schematic structural diagram of a front section connection detail of a fixed inner box of a portable field light storage charging power supply.

In the figure: 1. supporting the bottom case; 2. a side clamping groove; 3. supporting the turning plate; 4. a movable wheel body; 5. stopping the plate; 6. a top storage tank; 7. fixing a top plate; 8. a side receiving groove; 9. a telescopic pull rod; 10. a handle bar; 11. sealing the cover plate; 12. a shaft extension rod; 13. a buckling block; 14. an inner clamping groove; 15. a telescopic turning rod; 16. inserting an end rod; 17. an adjusting plate; 18. an inner sleeve groove; 19. fixing the inner box; 20. a charging plug-in block; 21. a side shaft groove; 22. a limiting side groove; 23. limiting inclined holes; 24. a bottom sleeve groove; 25. a side clamping block; 26. a shaft insertion rod; 27. supporting the turnover rod; 28. a connecting rod; 29. aligning the insert blocks; 30. a solar panel; 31. a bottom active slot; 32. a movable block; 33. turning over the fixture block; 34. a side restriction groove; 35. rotating the screw; 36. extruding the side block; 37. a top screw hole; 38. connecting a screw rod; 39. end turning rods; 40. a converter; 41. and controlling the main board.

Detailed Description

Referring to fig. 1-2, in an embodiment of the present invention, a portable field light storage charging power supply includes a supporting bottom case 1, two side edges of the supporting bottom case 1 are symmetrically provided with side fastening grooves 2, inner side edges of the side fastening grooves 2 are fastened with supporting turning plates 3, a bottom surface of the supporting bottom case 1 is bolted with a movable wheel 4, one side edge of the supporting bottom case 1 is provided with an opening, the side fastening grooves 2 are symmetrically arranged at a central position of two symmetric side edges of the supporting bottom case 1, the number of the supporting turning plates 3 is consistent with the number of the side fastening grooves 2, two supporting turning plates 3 are respectively fastened at the inner side edge position of the side fastening grooves 2 in a one-to-one correspondence manner, the number of the movable wheel 4 is four, the four movable wheels 4 are fixedly arranged at positions near the four side angle positions of the bottom surface of the supporting bottom case 1, the side edges of the movable wheel 4 are inserted with stopping plates 5, a top surface of the supporting bottom case 1 is horizontally provided with a top accommodating groove 6, the inner side edge of the top containing groove 6 is horizontally clamped with a fixed top plate 7, the supporting bottom box 1 is vertically provided with a side containing groove 8 far away from the side edge of the opening, the inner side edge of the side containing groove 8 is vertically clamped with a telescopic pull rod 9, the top end of the telescopic pull rod 9 is butted with a handle rod 10, one end of the brake plate 5 obliquely penetrates through the side wall of the movable wheel body 4 to extend to the inside, the side edge of the plugging end of the brake plate 5 is butted at the outer side edge position of the wheel body, the top containing groove 6 is horizontally arranged at the top surface center position of the supporting bottom box 1, the side containing groove 8 is vertically arranged at a side edge center line position of the supporting bottom box 1, the top end of the telescopic pull rod 9 is butted at the outer side edge center position of the handle rod 10, the telescopic pull rod 9 and the handle rod 10 are vertically arranged mutually, the inner side edge of the opening of the supporting bottom box 1 is clamped with a sealing cover plate 11, the two side edges of the sealing cover plate 11 are symmetrically inserted with shaft connecting rods 12, the top surface of the sealing cover plate 11 is provided with a buckling block 13, the inner side bottom surface of the top containing groove 6 is horizontally provided with an inner clamping groove 14, the shaft connecting rods 12 are symmetrically arranged at the positions close to the bottom surface at the two side edges of the sealing cover plate 11 in an inserting way respectively, one end of each shaft connecting rod 12 far away from the sealing cover plate 11 is arranged in a sleeve hole at the inner side edge of the opening of the supporting bottom box 1 in an inserting way, the buckling block 13 is fixedly arranged at the center position of the top surface of the sealing cover plate 11, the buckling block 13 is arranged at the inner side edge of the clamping groove at the inner side surface of the top surface of the supporting bottom box 1 in a clamping way, the inner clamping groove 14 is horizontally arranged at the center line position of the bottom surface of the top containing groove 6, the inner part of the inner clamping groove 14 is communicated with the inner part of the top containing groove 6, the inner side edge of the inner clamping groove 14 is inserted with a telescopic turning rod 15, the side edge of the telescopic turning rod 15 is inserted with an inserting end rod 16, the telescopic turning rod 15 is abutted with an adjusting plate 17 at the side edge far away from the inserting end rod 16, one end of a telescopic turnover rod 15 is inserted and arranged at a position close to one end on the inner side of an inner clamping groove 14, an insertion end rod 16 is inserted and arranged at a position of the side edge of the insertion end of the telescopic turnover rod 15 in a penetrating manner, two ends of the insertion end rod 16 are correspondingly inserted and arranged at a position of the inner side edge of a side shaft groove 21, a position of the center of the side edge of an adjusting plate 17 is fixedly sleeved and arranged at a position of one end of a rotating screw 35, inner sleeve grooves 18 are symmetrically formed in the inner side wall of a side accommodating groove 8, a fixed inner box 19 is connected to the inner side edge of a supporting bottom box 1 through bolts, a charging plug block 20 is fixedly clamped and connected to one side edge of the fixed inner box 19, the inner sleeve grooves 18 are symmetrically formed in the position close to the bottom surface on the inner side of the side accommodating groove 8, the fixed inner box 19 is fixedly arranged on the inner side of the supporting bottom box 1 and far away from the position of an opening side, and the charging plug block 20 is electrically connected with the inside of a control mainboard 41;

Referring to fig. 3-4, in an embodiment of the present invention, a portable field light storage charging source is provided, wherein an inner side edge of an inner clamping groove 14 is symmetrically provided with side shaft grooves 21, an inner side edge of a side clamping groove 2 is symmetrically provided with limiting side grooves 22, the side shaft grooves 21 are symmetrically provided at positions close to one end of an inner side of the inner clamping groove 14, the limiting side grooves 22 are vertically provided at inner side edge positions of the side clamping grooves 2, an inner portion of each limiting side groove 22 is connected to an inner portion of the side clamping groove 2, the inner side edges of the side clamping grooves 2 are uniformly provided with limiting inclined holes 23, a bottom surface of a supporting turning plate 3 is symmetrically provided with bottom sleeve grooves 24, two side edges of the supporting turning plate 3 are symmetrically connected to side clamping blocks 25, a side edge of the inner side clamping block 25 is connected to a shaft insertion rod 26, a side edge of the bottom sleeve groove 24 is connected to a supporting turning rod 27, a side edge of the supporting turning rod 27 is connected to a connecting rod 28, and the number of the limiting inclined holes 23 is plural, the plurality of limiting inclined holes 23 are arranged in a straight line shape in two groups and are vertically arranged at the positions, close to two side edges, of the inner sides of the side clamping grooves 2, the bottom sleeve grooves 24 are symmetrically arranged at the positions, close to two side edges, of the bottom surface of the supporting turning plate 3 in parallel, the side clamping blocks 25 are symmetrically arranged at the positions, close to corners, of two side edges of the supporting turning plate 3 respectively, the side clamping blocks 25 are correspondingly clamped at the positions, close to the inner side edges, of the limiting side grooves 22 respectively, one end of the shaft insertion rod 26 is inserted and arranged at the position, close to the side edges, of the supporting turning plate 3, the connecting rod 28 is inserted and arranged at the position, close to the top end, of the side edge of the supporting turning rod 27, two ends of the connecting rod 28 are inserted and arranged at the position, close to the inner side hole, of the bottom sleeve groove 24, the opposite insertion block 29 is fixedly inserted and arranged at the bottom end of the supporting turning rod 27, and the opposite insertion block 29 is correspondingly inserted and arranged at the position, close to the side edge of the limiting inclined holes 23;

Referring to fig. 5-7, in an embodiment of the present invention, a portable field light storage charging power supply includes a top surface of a fixed top plate 7, a solar panel 30 horizontally clamped on the top surface of the fixed top plate 7, a bottom movable slot 31 horizontally formed on the bottom surface of the fixed top plate 7, a movable block 32 clamped on an inner side edge of the bottom movable slot 31, a turning block 33 welded on a bottom end of the movable block 32, side limiting slots 34 symmetrically formed on a top end channel of a telescopic turning rod 15, a rotating screw 35 inserted in a top end side edge of the telescopic turning rod 15, the solar panel 30 and a converter 40 electrically connected to each other, the bottom movable slot 31 horizontally formed on a center line of the bottom surface of the fixed top plate 7, the turning block 33 inserted in the turning slot on the top end of the telescopic turning rod 15, the rotating screw 35 horizontally inserted in an inner side edge of the side limiting slot 34, an extruding side block 36 clamped on an inner side edge of the side limiting slot 34, a top screw hole 37 is formed in the top end of the telescopic pull rod 9, a connecting screw rod 38 is welded on the bottom surface of the handle rod 10 vertically downwards, two side edges of the telescopic pull rod 9 are symmetrically inserted and connected with end turning rods 39, an inner side edge of the fixed inner box 19 is connected with a converter 40 through bolts, an inner side edge of the fixed inner box 19 is connected with a control main board 41 through bolts, the extruding side blocks 36 are symmetrically and threadedly connected and arranged at positions close to two ends of the outer side edge of the rotating screw rod 35, the ends of the extruding side blocks 36 are butted and arranged at the positions of two side edges of the overturning clamping block 33, the connecting screw rod 38 is correspondingly inserted and connected at the position of the inner side edge of the top screw hole 37, the connecting screw rod 38 and the top screw hole 37 are fixedly connected and arranged in a threaded mode, two ends of the end turning rods 39 are inserted and arranged at the position of the inner side edge of the inner sleeve groove 18, and the converter 40 and the control main board 41 are electrically connected and arranged.

The components are standard parts in general or known to those skilled in the art, and their structure and principle are known to those skilled in the art through technical manuals or through routine experimentation.

The working principle of the invention is as follows:

the buckling block 13 is buckled to enable the sealing cover plate 11 to turn over, so that the opening of the supporting bottom box 1 is opened, the battery is placed in the supporting bottom box 1, the battery is sleeved at the position of the outer side edge of the charging plug block 20 after being charged, the fixed top plate 7 is pulled out from the inner side edge of the top accommodating groove 6, the fixed top plate 7 is lifted to a specified height, the telescopic pull rod 9 is telescopically pulled to a specified length to enable the telescopic pull rod 9 to turn out from the inner side edge of the inner clamping groove 14 after being charged, the fixed top plate is stopped after the plugging end rod 16 rotates to a specified angle, after the fixed top plate 7 is turned to a required angle, the rotating screw 35 rotates at the inner side edge of the side limiting groove 34 under the rotation of the adjusting plate 17, so that the extrusion side blocks 36 at the outer side edge are extruded and fixed at the two side edges of the overturning clamping block 33, the solar panel 30 at the top surface of the fixed top plate 7 absorbs light energy and enters the converter 40, the conversion of the converter 40 is converted into electric energy, the battery is charged under the control of the control mainboard 41, when the support bottom box 1 needs to be pulled, the telescopic pull rod 9 is turned out from the inner side of the side containing groove 8, after the telescopic pull rod 9 is stretched to a specified length, the handle rod 10 is pulled, the support bottom box is moved to a specified position under the rolling of the movable wheel body 4, the trampling of the brake stop plate 5 can fix the movable wheel body 4, after the support turning plate 3 is turned out from the inner side of the side clamping groove 2 during movement, the support turning plate 3 is moved to be kept horizontal with the top surface of the support bottom box 1 under the sliding of the side clamping block 25, after the support turning rod 27 is turned out from the inner side of the bottom sleeve groove 24, the opposite insertion block 29 at the bottom end is correspondingly inserted into the inner support of the limit inclined hole 23 to support, and the support turning plate 3 is supported by the support turning rod 27 to be abutted, the placing of the items to be transported on the top surfaces of the support bottom box 1 and the support flaps 3 acts as a carriage effect.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims

1. A portable field light storage charging power supply comprises a supporting bottom case (1) and is characterized in that two side edges of the supporting bottom case (1) are symmetrically provided with side clamping grooves (2), the inner side edges of the side clamping grooves (2) are clamped with a supporting turning plate (3), the bottom surface of the supporting bottom case (1) is in bolted connection with a movable wheel body (4), the side edges of the movable wheel body (4) are inserted with a stopping plate (5), the top surface of the supporting bottom case (1) is horizontally provided with a top accommodating groove (6), the inner side edges of the top accommodating groove (6) are horizontally clamped with a fixed top plate (7), the supporting bottom case (1) is vertically provided with side accommodating grooves (8) far away from the side edges of an opening, the inner side edges of the side accommodating grooves (8) are vertically clamped with telescopic pull rods (9), and the top ends of the telescopic pull rods (9) are butted with handle rods (10), a sealing cover plate (11) is clamped on the inner side edge of an opening of the supporting bottom box (1), axial connecting rods (12) are symmetrically inserted and connected on the two side edges of the sealing cover plate (11), a clamping block (13) is arranged on the top surface of the sealing cover plate (11), an inner clamping groove (14) is horizontally formed in the bottom surface of the inner side of the top accommodating groove (6), a telescopic turning rod (15) is inserted and connected on the inner side edge of the inner clamping groove (14), an inserting end rod (16) is inserted and connected on the side edge of the telescopic turning rod (15), an adjusting plate (17) is butted on one end side edge far away from the inserting end rod (16), inner sleeve grooves (18) are symmetrically formed in the inner side wall of the side accommodating groove (8), a fixed inner box (19) is bolted on the inner side edge of the supporting bottom box (1), a charging inserting block (20) is fixedly clamped and connected on one side edge of the fixed inner box (19), side axial grooves (21) are symmetrically formed in the inner side edge of the inner clamping groove (14), the solar energy collecting device is characterized in that limiting side grooves (22) are symmetrically formed in the inner side wall of each side clamping groove (2), limiting inclined holes (23) are uniformly formed in the inner side wall of each side clamping groove (2), bottom sleeve grooves (24) are symmetrically formed in the bottom surface of each supporting turning plate (3), side clamping blocks (25) are symmetrically butted on the two side edges of each supporting turning plate (3), shaft inserting rods (26) are inserted into the side edges of the side clamping blocks (25), supporting turning rods (27) are inserted into the inner side edges of the bottom sleeve grooves (24), connecting rods (28) are inserted into the side edges of the supporting turning rods (27), opposite inserting blocks (29) are inserted into the bottom ends of the supporting turning rods (27), a solar panel (30) is horizontally clamped on the top surface of the fixed top plate (7), bottom movable grooves (31) with bottoms are horizontally formed in the bottom surface of the fixed top plate (7), and movable blocks (32) are clamped on the inner side edges of the bottom movable grooves (31), the bottom welding of movable block (32) has upset fixture block (33), side restriction groove (34) have been seted up to the top channel symmetry of flexible turning rod (15), the top side of flexible turning rod (15) is pegged graft and is had rotation screw rod (35), the inboard side joint of side restriction groove (34) has extrusion side piece (36), top screw hole (37) have been seted up on the top of flexible pull rod (9), the perpendicular downward welding in bottom surface of handle pole (10) has connecting screw (38), the both sides limit symmetry of flexible pull rod (9) is pegged graft and is had end turning rod (39), the inboard side bolted connection of box (19) has converter (40) in the fixed, the inboard side bolted connection of box (19) has control mainboard (41) in the fixed.

2. The portable field light storage charging power supply according to claim 1, wherein an opening is formed in one side edge of the supporting bottom box (1), the side clamping grooves (2) are symmetrically formed in the center positions of two symmetrical side edges of the supporting bottom box (1), the number of the supporting turning plates (3) and the number of the side clamping grooves (2) are consistent, the two supporting turning plates (3) are correspondingly clamped in the inner side edge positions of the side clamping grooves (2) one by one, the number of the movable wheels (4) is four, and the four movable wheels (4) are fixedly arranged on the bottom surface of the supporting bottom box (1) and are close to the four-side angle positions.

3. The portable field light storage charging power supply according to claim 1, wherein one end of the stop plate (5) obliquely penetrates through the side wall of the movable wheel body (4) and extends to the inside, the side edge of the insertion end of the stop plate (5) is in butt joint with the outer side edge of the wheel body, the top storage groove (6) is horizontally arranged at the center of the top surface of the supporting bottom box (1), the side storage groove (8) is vertically arranged at the center of one side edge of the supporting bottom box (1), the top end of the telescopic pull rod (9) is in butt joint with the center of the outer side edge of the handle rod (10), and the telescopic pull rod (9) and the handle rod (10) are vertically arranged.

4. The portable field light storage charging power supply according to claim 1, wherein the shaft connecting rods (12) are symmetrically inserted into the two side edges of the sealing cover plate (11) and close to the bottom surface, the end of the shaft connecting rod (12) far away from the sealing cover plate (11) is inserted into the inner side edge sleeve hole of the opening of the supporting bottom box (1), the buckling block (13) is fixedly arranged at the center of the top surface of the sealing cover plate (11), the buckling block (13) is clamped in the inner side edge of the clamping groove of the inner top surface of the supporting bottom box (1), the inner clamping groove (14) is horizontally arranged at the center line position of the bottom surface of the top accommodating groove (6), and the inner part of the inner clamping groove (14) and the inner part of the top accommodating groove (6) are kept connected.

5. The portable field light storage charging power supply according to claim 1, wherein one end of the telescopic turning rod (15) is inserted into the inner side of the inner clamping groove (14) and is close to one end position, the insertion end rod (16) is inserted into the side position of the insertion end of the telescopic turning rod (15) in a penetrating manner, two ends of the insertion end rod (16) are correspondingly inserted into the inner side position of the side shaft groove (21), and the side center position of the adjusting plate (17) is fixedly sleeved and connected with one end position of the rotating screw (35).

6. The portable field light storage charging power supply according to claim 1, wherein the inner sleeve groove (18) is symmetrically arranged at the inner side of the side storage groove (8) and is close to the bottom position, the inner fixing box (19) is fixedly arranged at the inner side of the supporting bottom box (1) and is far away from the opening side position, the charging plug block (20) is electrically connected with the inside of the control main board (41), the side shaft groove (21) is symmetrically arranged at the inner side of the inner clamping groove (14) and is close to one end position, the limiting side groove (22) is vertically arranged at the inner side position of the side clamping groove (2), and the inside of the limiting side groove (22) and the inside of the side clamping groove (2) are kept in communication connection.

7. The portable field light storage and charging power supply according to claim 1, wherein the number of the limiting inclined holes (23) is multiple, and a plurality of limit inclined holes (23) are arranged in two groups in a straight line shape vertically and are arranged at the positions close to the two side edges at the inner side of the side clamping groove (2), the bottom sleeve grooves (24) are symmetrically arranged at the positions close to the two side edges at the bottom surface of the supporting turning plate (3) in parallel, the side clamping blocks (25) are respectively and symmetrically arranged at the positions close to the corner edges at the two side edges of the supporting turning plate (3), the side clamping blocks (25) are correspondingly clamped and arranged at the inner side edge position of the limit side groove (22) one by one, one end of the shaft inserting rod (26) is inserted and arranged at the side edge position of the support turning plate (3), the connecting rod (28) is inserted and arranged at the top end position of the side edge of the support turning rod (27), and two ends of the connecting rod (28) are inserted and arranged at the inner side trepanning position of the bottom sheathing groove (24).

8. The portable field light storage charging power supply according to claim 1, wherein the plug block (29) is correspondingly inserted and arranged at the inner side edge of the limiting inclined hole (23), the solar panel (30) and the converter (40) are electrically connected with each other, the bottom movable groove (31) is horizontally arranged at the center line position of the bottom surface of the fixed top plate (7), the turning block (33) is inserted and arranged in the turning groove at the top end of the telescopic turning rod (15), and the rotating screw (35) is horizontally inserted and arranged at the inner side edge of the side limiting groove (34).

9. The portable field light storage and charging power supply according to claim 1, wherein the extrusion side blocks (36) are symmetrically and threadedly connected to the outer side of the rotary screw (35) near the two ends, the ends of the extrusion side blocks (36) are butted against the two sides of the turning block (33), the connection screw (38) is correspondingly and fixedly inserted into the inner side of the top screw hole (37), the connection screw (38) and the top screw hole (37) are fixedly connected to each other through threads, the two ends of the end turning rod (39) are inserted into the inner side of the inner sleeve groove (18), and the converter (40) and the control main board (41) are electrically connected to each other.