CN113708429A - Portable energy storage device for outdoor power supply and use method thereof - Google Patents

Abstract

The invention discloses portable energy storage equipment for outdoor power supply and a using method thereof, wherein the portable energy storage equipment comprises an equipment shell, side cover plates are connected to the outer surfaces of two sides of the equipment shell, the side cover plates are detachably connected with the equipment shell through threaded pins, a lifting handle is fixedly installed on the upper surface of the equipment shell close to the middle position, universal casters are connected to the lower surface of the equipment shell close to the two sides, auxiliary supporting mechanisms are connected to the positions of the two sides of the side cover plates close to the bottom, an operating panel is embedded in the position of the front surface of the equipment shell close to the top, and a display screen is embedded in the position of the front surface of the operating panel close to the middle position. The invention relates to portable energy storage equipment for outdoor power supply and a using method thereof, belonging to the field of energy storage equipment, which can facilitate the use of the energy storage equipment at different positions, can protect an operation panel of the energy storage equipment, and can intensively tighten connecting wires of the energy storage equipment.

Description

Portable energy storage device for outdoor power supply and use method thereof

Technical Field

The invention relates to the field of energy storage equipment, in particular to portable energy storage equipment for outdoor power supply and a using method thereof.

Background

The energy storage technology mainly refers to the storage of electric energy, the stored energy can be used as emergency energy, and also can be used for storing energy when the load of a power grid is low, and outputting energy when the load of the power grid is high, and is used for clipping peaks and filling valleys and reducing the fluctuation of the power grid, the energy has various forms including radiation, chemistry, gravitational potential energy, electric power, high temperature, latent heat and power, the energy storage relates to the conversion of energy in a form which is difficult to store into a more convenient or economically storable form, and the scheme particularly relates to portable energy storage equipment for outdoor power supply and a use method thereof;

however, the existing energy storage equipment for outdoor power supply is inconvenient to fix and move the energy storage equipment when in use, the inconvenient energy storage equipment is used at different positions, an operation panel of the energy storage equipment cannot be covered when the energy storage equipment is used, a certain protection effect cannot be achieved on the operation panel of the energy storage equipment, the connecting wires of the energy storage equipment cannot be centralized and tightened, and the connecting wires of the energy storage equipment are prone to being out of order and influence the use of the energy storage equipment.

Disclosure of Invention

The invention mainly aims to provide portable energy storage equipment for outdoor power supply and a using method thereof, which can effectively solve the problems in the background technology.

In order to achieve the purpose, the invention adopts the technical scheme that:

a portable energy storage device for outdoor power supply comprises a device shell, wherein side cover plates are connected to the outer surfaces of the two sides of the device shell and detachably connected with the device shell through threaded pins, a lifting handle is fixedly mounted on the upper surface of the device shell close to a middle position, universal casters are connected to the lower surface of the device shell close to the positions of the two sides, auxiliary supporting mechanisms are connected to the positions, close to the bottom, of the two sides of each side cover plate, an operating panel is embedded on the front surface of the device shell close to the top, a display screen is embedded on the front surface of the operating panel close to the middle position, a transmission interface is arranged on the front surface of the operating panel close to one side, a switch button is arranged on the front surface of the operating panel close to the other side, a wiring bar is embedded on the front surface of the device shell close to the bottom, and an output connector is arranged on the front surface of the wiring bar close to one side, and the front surface of terminal row is close to the opposite side position and is equipped with output joint No. two, the outside position that the front surface of equipment shell is close to operating panel is connected with protection machanism, and the rear surface of equipment shell is close to the top position and is equipped with the heating panel, the rear surface of equipment shell is close to one side position and is equipped with input joint No. one, and the rear surface of equipment shell is close to the opposite side position and is equipped with input joint No. two, the inside of equipment shell is provided with the battery package, the equal fixed mounting in top and bottom of battery package has sealed apron, the inside of equipment shell is close to the top position of battery package and is provided with the circuit board, and the inside inboard position that the inside of equipment shell is close to the heating panel is equipped with radiator fan, the inside of equipment shell is close to top position symmetry and is provided with the link, the bottom of link is connected with wire harness mechanism.

Preferably, the auxiliary supporting mechanism comprises a connecting seat, supporting legs, a locking pin and a locking groove, the connecting seat is fixed at the position, close to the bottom, of the outer side of the side cover plate, the supporting legs are embedded in the position, close to the bottom, of the inner side of the connecting seat, the locking pin penetrates through the positions of the two sides of the connecting seat, and the locking groove is formed in the connecting seat.

Preferably, the supporting legs are fixedly connected with the connecting seat through the mutual engagement of the locking pin and the locking groove.

Preferably, protection machanism includes guide holder, transparent guard plate, slide rail and spout, guide holder fixed mounting is at the front surface of equipment shell, transparent guard plate sets up in the inboard of guide holder, the slide rail is fixed in the both sides surface of transparent guard plate, the inside at the guide holder is seted up to the spout.

Preferably, the transparent protection plate slides in the sliding groove through the sliding rail and is movably connected with the guide seat.

Preferably, binding mechanism includes binding seat, through wires hole, a bundle tight piece, No. two bundle tight pieces, spliced pole, stopper and reset spring, the binding seat is fixed in the bottom of link, the even inside that begins at the binding seat of through wires hole, a bundle tight piece and No. two bundle tight pieces all set up the upper surface at the binding seat, the one end of spliced pole is fixed in the surface of a bundle tight piece, and the other end of spliced pole extends to the inside of No. two bundle tight pieces, the stopper is fixed in the other end of spliced pole, reset spring's one end is fixed in the surface of stopper, and reset spring's the other end is fixed in the internal surface of No. two bundle tight pieces.

Preferably, the second tightening block is movably connected with the first tightening block through a return spring, a limiting block and a connecting column.

Preferably, the cooling fan comprises a motor, a transmission shaft and cooling blades, and the cooling blades are movably connected with the motor through the transmission shaft.

A use method of a portable energy storage device for outdoor power supply comprises the following steps:

s1: the connecting line between the battery pack and the control end of the energy storage device penetrates through a threading hole in the binding seat, the second binding block is relatively movable with the first binding block through the reset spring, the limiting block and the connecting column, and the second binding block and the first binding block are matched for use to bind the connecting line of the energy storage device;

s2: the side cover plates are clamped on two sides of the equipment shell, the side cover plates are fixed on two sides of the equipment shell through the mutual meshing of the threaded pins, the side cover plates and the threaded grooves in the equipment shell, the equipment shell is pushed to move through universal casters, the energy storage equipment is pushed to an appointed place, the supporting legs are mutually meshed with the locking grooves through the locking pins to be fixed at different positions of the connecting seat, the supporting height of the supporting legs can be adjusted, and when the supporting height of the supporting legs is lower than that of the universal casters, the energy storage equipment can be fixed;

s3: the charging head of the charging equipment is inserted into the first input connector and the second input connector, so that the energy storage equipment can be charged, and the charging head is pulled out after the charging is finished;

s4: the switch button is started, the energy storage equipment starts to work, power can be supplied to the electronic equipment through the transmission interface, power can be supplied to the high-power electric appliance through the first output connector, the display screen displays the residual electric quantity of the energy storage equipment through the second output connector, the transparent protection plate slides in the sliding groove through the sliding rail and moves relative to the guide seat, and the transparent protection plate is covered on the outer side of the display screen;

s5: the motor inside the heat dissipation fan is started, the motor drives the fan blades to rotate through the transmission shaft, and the heat dissipation fan and the heat dissipation plate work in a matched mode to dissipate heat of the energy storage device.

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

the portable energy storage equipment for the outdoor power supply has the advantages that the defects existing in the conventional portable energy storage equipment for the outdoor power supply are overcome, the auxiliary supporting mechanism and the universal caster are arranged, the energy storage equipment can be conveniently fixed and moved, the energy storage equipment can be conveniently used at different positions, the protective mechanism is arranged, the operating panel of the energy storage equipment can be covered when the energy storage equipment is used, a certain protective effect can be achieved on the operating panel of the energy storage equipment, the connecting wire of the energy storage equipment can be intensively tightened through the wire binding mechanism arranged, the connecting wire of the energy storage equipment can be prevented from being disordered in the routing, and the use of the energy storage equipment is prevented from being influenced.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a portable energy storage device for outdoor power supply and the method for using the same according to the present invention;

FIG. 2 is a rear view of an apparatus housing of a portable energy storage device for outdoor power and method of use thereof in accordance with the present invention;

FIG. 3 is a schematic diagram of the internal structure of the device housing of the portable energy storage device for outdoor power supply and the method for using the same according to the present invention;

FIG. 4 is a schematic structural diagram of an auxiliary support mechanism of a portable energy storage device for outdoor power supply and a method for using the same according to the present invention;

FIG. 5 is a schematic structural diagram of a protection mechanism of a portable energy storage device for outdoor power supply and a method for using the same according to the present invention;

fig. 6 is a schematic top view of a wire bundling mechanism of a portable energy storage device for outdoor power supply and a method for using the same according to the present invention.

In the figure: 1. an equipment housing; 2. a side cover plate; 3. a threaded pin; 4. lifting the handle; 5. a universal caster; 6. an auxiliary support mechanism; 601. a connecting seat; 602. supporting legs; 603. a locking pin; 604. a locking groove; 7. an operation panel; 8. a display screen; 9. a transmission interface; 10. a switch button; 11. a line bank; 12. a first output connector; 13. a second output joint; 14. a protection mechanism; 1401. a guide seat; 1402. a transparent protection plate; 1403. a slide rail; 1404. a chute; 15. a heat dissipation plate; 16. a first input connector; 17. a second input joint; 18. a battery pack; 19. sealing the cover plate; 20. a circuit board; 21. a heat radiation fan; 22. a connecting frame; 23. a wire bundling mechanism; 2301. a wire harness base; 2302. threading holes; 2303. a first lacing block; 2304. a second binding block; 2305. connecting columns; 2306. a limiting block; 2307. a return spring.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example 1:

as shown in fig. 1-6, the invention relates to a portable energy storage device for outdoor power supply, comprising a device housing 1, wherein the outer surfaces of both sides of the device housing 1 are respectively connected with a side cover plate 2, the side cover plates 2 are detachably connected with the device housing 1 through threaded pins 3, a lifting handle 4 is fixedly installed on the upper surface of the device housing 1 near the middle position, the lower surface of the device housing 1 near both sides is respectively connected with a universal caster 5, the positions of both sides of the side cover plates 2 near the bottom are respectively connected with an auxiliary supporting mechanism 6, an operation panel 7 is embedded on the front surface of the device housing 1 near the top position, a display screen 8 is embedded on the front surface of the operation panel 7 near the middle position, a transmission interface 9 is arranged on the front surface of the operation panel 7 near one side position, a switch button 10 is arranged on the front surface of the operation panel 7 near the other side position, a wiring bar 11 is embedded on the front surface of the device housing 1 near the bottom position, a first output connector 12 is arranged on the front surface of the wiring bar 11 close to one side, a second output connector 13 is arranged on the front surface of the wiring bar 11 close to the other side, a protection mechanism 14 is connected on the front surface of the equipment shell 1 close to the outer side of the operation panel 7, a heat dissipation plate 15 is arranged on the rear surface of the equipment shell 1 close to the top, a first input connector 16 is arranged on the rear surface of the equipment shell 1 close to one side, a second input connector 17 is arranged on the rear surface of the equipment shell 1 close to the other side, a battery pack 18 is arranged inside the equipment shell 1, sealing cover plates 19 are fixedly arranged at the top and the bottom of the battery pack 18, a circuit board 20 is arranged on the inside of the equipment shell 1 close to the upper part of the battery pack 18, a heat dissipation fan 21 is arranged on the inside of the equipment shell 1 close to the inner side of the heat dissipation plate 15, and connecting frames 22 are symmetrically arranged on the inside of the equipment shell 1 close to the top, the bottom of the connecting frame 22 is connected with a wire bundling mechanism 23;

in this embodiment, in order to conveniently support the energy storage device at different heights, the auxiliary support mechanism 6 is provided, the auxiliary support mechanism 6 includes a connecting seat 601, a support leg 602, a locking pin 603 and a locking groove 604, the connecting seat 601 is fixed at a position on the outer side of the side cover plate 2 close to the bottom, the support leg 602 is embedded at a position on the inner side of the connecting seat 601 close to the bottom, the locking pin 603 penetrates through positions on two sides of the connecting seat 601, the locking groove 604 is opened inside the connecting seat 601, the auxiliary support mechanism 6 can support the energy storage device at different heights, so that the energy storage device can be conveniently fixed and moved, and the energy storage device can be conveniently carried;

in this embodiment, in order to adjust the supporting height of the supporting leg 602, the supporting leg 602 is fixedly connected to the connecting base 601 by the mutual engagement of the locking pin 603 and the locking groove 604;

in addition, the protection mechanism 14 comprises a guide seat 1401, a transparent protection plate 1402, a sliding rail 1403 and a sliding groove 1404, wherein the guide seat 1401 is fixedly installed on the front surface of the equipment shell 1, the transparent protection plate 1402 is arranged on the inner side of the guide seat 1401, the sliding rail 1403 is fixed on the outer surfaces of two sides of the transparent protection plate 1402, the sliding groove 1404 is arranged in the guide seat 1401, and the protection mechanism 14 can cover the operation panel 7 of the energy storage equipment when the energy storage equipment is used and can play a certain protection role on the operation panel 7 of the energy storage equipment;

in the embodiment, in order to mount the transparent protection plate 1402 on the outer side of the operation panel 7, the transparent protection plate 1402 is slidably connected with the guide seat 1401 by the slide rail 1403 in the slide groove 1404;

in this embodiment, in order to conveniently tighten the connecting wire of the energy storage device, a wire-binding mechanism 23 is provided, the wire-binding mechanism 23 includes a wire-binding base 2301, a wire-passing hole 2302, a first tightening block 2303, a second tightening block 2304, a connecting column 2305, a stopper 2306 and a return spring 2307, the wire-binding base 2301 is fixed to the bottom of the connecting frame 22, the wire-passing hole 2302 starts uniformly inside the wire-binding base 2301, the first tightening block 2303 and the second tightening block 2304 are both provided on the upper surface of the wire-binding base 2301, one end of the connecting column 2305 is fixed to the outer surface of the first tightening block 2303, the other end of the connecting column 2305 extends into the inside of the second tightening block 2304, the stopper 2306 is fixed to the other end of the connecting column 2305, one end of the return spring 2307 is fixed to the outer surface of the stopper 2306, and the other end of the return spring 2307 is fixed to the inner surface of the second tightening block 2304, the wire-binding mechanism 23 can intensively tighten the connecting wire of the energy storage device, therefore, the connecting line of the energy storage equipment can be prevented from being disordered and the use of the energy storage equipment is prevented from being influenced;

in this embodiment, in order to facilitate the tightening of the connecting line by the second tightening block 2304 and the first tightening block 2303, the second tightening block 2304 is movably connected with the first tightening block 2303 through a return spring 2307, a limiting block 2306 and a connecting column 2305;

in this embodiment, in order to dissipate heat of the energy storage device by the wire-harness heat dissipation fan 21, the heat dissipation fan 21 includes a motor, a transmission shaft and heat dissipation blades, and the heat dissipation blades are movably connected with the motor through the transmission shaft.

Example 2:

on the basis of embodiment 1, a using method of the portable energy storage device for outdoor power supply comprises the following steps:

s1: a connecting line between the battery pack 18 and the control end of the energy storage device penetrates through a threading hole 2302 in the wire binding seat 2301, the second binding block 2304 is relatively movable with the first binding block 2303 through a reset spring 2307, a limiting block 2306 and a connecting column 2305, and the second binding block 2304 and the first binding block 2303 are matched for use to bind the connecting line of the energy storage device;

s2: the side cover plates 2 are clamped on two sides of the equipment shell 1, the side cover plates 2 are fixed on two sides of the equipment shell 1 through the mutual engagement of the threaded pins 3, the side cover plates 2 and threaded grooves in the equipment shell 1, the equipment shell 1 is pushed to move through universal casters 5, energy storage equipment is pushed to an appointed place, the supporting legs 602 are mutually engaged with different positions of the connecting seat 601 through locking pins 603 and locking grooves 604 for fixing, the supporting height of the supporting legs 602 can be adjusted, and when the supporting height of the supporting legs 602 is lower than that of the universal casters 5, the energy storage equipment can be fixed;

s3: the charging head of the charging equipment is inserted into the first input connector 16 and the second input connector 17, so that the energy storage equipment can be charged, and the charging head is pulled out after the charging is finished;

s4: the switch button 10 is started, the energy storage device starts to work, power can be supplied to the electronic device through the transmission interface 9, power can be supplied to a high-power electric appliance through the first output connector 12, the display screen 8 displays the residual electric quantity of the energy storage device through the second output connector 13, the transparent protection plate 1402 slides in the sliding groove 1404 through the sliding rail 1403 and moves relative to the guide seat 1401, and the transparent protection plate 1402 is covered on the outer side of the display screen 8;

s5: the motor inside the heat dissipation fan 21 is started, the motor drives the fan blades to rotate through the transmission shaft, and the heat dissipation fan 21 and the heat dissipation plate 15 work in a matched mode to dissipate heat of the energy storage device.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a portable energy storage equipment is used in outdoor power supply which characterized in that: comprises an equipment shell (1), the outer surfaces of two sides of the equipment shell (1) are respectively connected with a side cover plate (2), the side cover plates (2) are detachably connected with the equipment shell (1) through threaded pins (3), the upper surface of the equipment shell (1) is fixedly provided with a lifting handle (4) near the middle position, the lower surface of the equipment shell (1) is connected with universal casters (5) near the two sides, the two sides of the side cover plates (2) are connected with auxiliary supporting mechanisms (6) near the bottom position, the front surface of the equipment shell (1) is embedded with an operating panel (7) near the top position, the front surface of the operating panel (7) is embedded with a display screen (8) near the middle position, the front surface of the operating panel (7) is provided with a transmission interface (9) near one side position, the front surface of the operating panel (7) is provided with a switch button (10) near the other side position, the front surface of the equipment shell (1) is close to the bottom position and is embedded with a wiring bar (11), the front surface of the wiring bar (11) is close to one side position and is provided with a first output connector (12), the front surface of the wiring bar (11) is close to the other side position and is provided with a second output connector (13), the outer side position of the front surface of the equipment shell (1) which is close to the operation panel (7) is connected with a protection mechanism (14), the rear surface of the equipment shell (1) is close to the top position and is provided with a heat dissipation plate (15), the rear surface of the equipment shell (1) is close to one side position and is provided with a first input connector (16), the rear surface of the equipment shell (1) is close to the other side position and is provided with a second input connector (17), a battery pack (18) is arranged in the equipment shell (1), and a sealing cover plate (19) is fixedly arranged at the top and the bottom of the battery pack (18), the inside top position that is close to battery package (18) of equipment shell (1) is provided with circuit board (20), and the inside inboard position that is close to heating panel (15) of equipment shell (1) is equipped with radiator fan (21), the inside of equipment shell (1) is close to top position symmetry and is provided with link (22), the bottom of link (22) is connected with wire bundling mechanism (23).

2. A portable energy storage device for outdoor power supply according to claim 1, wherein: supplementary supporting mechanism (6) are including connecting seat (601), supporting legs (602), locking pin (603) and locking groove (604), the outside that side apron (2) were fixed in connecting seat (601) is close to the position of bottom, the inboard position that is close to the bottom that locates connecting seat (601) is inlayed in supporting legs (602), locking pin (603) run through in the both sides position of connecting seat (601), the inside of connecting seat (601) is seted up in locking groove (604).

3. A portable energy storage device for outdoor power supply according to claim 1, wherein: the supporting legs (602) are engaged with the locking grooves (604) through locking pins (603) and are fixedly connected with the connecting seat (601).

4. A portable energy storage device for outdoor power supply according to claim 1, wherein: the protection mechanism (14) comprises a guide seat (1401), a transparent protection plate (1402), a sliding rail (1403) and a sliding groove (1404), wherein the guide seat (1401) is fixedly installed on the front surface of the equipment shell (1), the transparent protection plate (1402) is arranged on the inner side of the guide seat (1401), the sliding rail (1403) is fixed on the outer surfaces of the two sides of the transparent protection plate (1402), and the sliding groove (1404) is arranged inside the guide seat (1401).

5. The portable energy storage device for outdoor power supply of claim 4, wherein: the transparent protection plate (1402) slides in the sliding groove (1404) through the sliding rail (1403) and is movably connected with the guide seat (1401).

6. A portable energy storage device for outdoor power supply according to claim 1, wherein: the wire binding mechanism (23) comprises a wire binding seat (2301), a threading hole (2302), a first binding block (2303), a second binding block (2304), a connecting column (2305), a limiting block (2306) and a return spring (2307), the wire binding seat (2301) is fixed at the bottom of the connecting frame (22), the threading holes (2302) start uniformly in the wire binding seat (2301), the first tightening block (2303) and the second tightening block (2304) are both arranged on the upper surface of the wire binding seat (2301), one end of the connecting column (2305) is fixed on the outer surface of the first lacing block (2303), and the other end of the connecting column (2305) extends to the inside of the second tightening block (2304), the limiting block (2306) is fixed at the other end of the connecting column (2305), one end of the reset spring (2307) is fixed on the outer surface of the limiting block (2306), and the other end of the return spring (2307) is fixed to the inner surface of the second binding block (2304).

7. A portable energy storage device for outdoor power supply according to claim 1, wherein: no. two tighten piece (2304) through reset spring (2307), stopper (2306) and spliced pole (2305) with tighten piece (2303) swing joint.

8. A portable energy storage device for outdoor power supply according to claim 1, wherein: the heat dissipation fan (21) comprises a motor, a transmission shaft and heat dissipation blades, and the heat dissipation blades are movably connected with the motor through the transmission shaft.

9. A method for using the portable energy storage device for outdoor power supply according to claim 1, wherein: the method comprises the following steps:

s1: a connecting line between a battery pack (18) and a control end of the energy storage device penetrates through a threading hole (2302) in a binding seat (2301), a second binding block (2304) is movable relative to the first binding block (2303) through a return spring (2307), a limiting block (2306) and a connecting column (2305), and the second binding block (2304) and the first binding block (2303) are matched for use to bind the connecting line of the energy storage device;

s2: the side cover plates (2) are clamped on two sides of an equipment shell (1), the side cover plates (2) are fixed on two sides of the equipment shell (1) through the mutual engagement of threaded pins (3) and threaded grooves in the side cover plates (2) and the equipment shell (1), the equipment shell (1) is pushed, the equipment shell (1) moves through universal casters (5) and pushes energy storage equipment to an appointed place, supporting legs (602) are mutually engaged with different positions of a connecting seat (601) through locking pins (603) and locking grooves (604) for fixing, the supporting height of the supporting legs (602) can be adjusted, and when the supporting height of the supporting legs (602) is lower than that of the universal casters (5), the energy storage equipment can be fixed;

s3: the charging head of the charging equipment is inserted into the first input connector (16) and the second input connector (17) to charge the energy storage equipment, and the charging head is pulled out after the charging is finished;

s4: the switch button (10) is started, the energy storage device starts to work, power can be supplied to the electronic device through the transmission interface (9), the high-power electric appliance can be supplied with power through the first output connector (12), the residual electric quantity of the energy storage device is displayed on the display screen (8) through the second output connector (13), the transparent protection plate (1402) slides in the sliding groove (1404) through the sliding rail (1403) and moves relative to the guide seat (1401), and the transparent protection plate (1402) is covered on the outer side of the display screen (8);

s5: the motor in the heat dissipation fan (21) is started, the motor drives the fan blades to rotate through the transmission shaft, and the heat dissipation fan (21) and the heat dissipation plate (15) work in a matched mode to dissipate heat of the energy storage equipment.

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