CN113114089A - Portable emergency mobile energy storage power supply - Google Patents

Abstract

The application relates to the technical field of energy storage power supplies, in particular to a portable emergency mobile energy storage power supply; the solar photovoltaic power generation box comprises a box body, wherein a battery pack is arranged in the box body, a charge-discharge controller connected with the battery pack is arranged in the box body, and a solar photovoltaic module and a hand generator module which are connected with the charge-discharge controller are arranged on the box body; the solar photovoltaic module comprises a folding photovoltaic panel group, the folding photovoltaic panel group comprises a plurality of substrates connected in a rotating mode and solar panels arranged on the substrates, the adjacent solar panels are connected, and the output end of the folding photovoltaic panel group is connected with the charge-discharge controller. The battery pack is charged in different modes, so that the service time of the energy storage power supply is conveniently prolonged, different environments are conveniently adapted, and the flexibility and the versatility of the energy storage power supply are conveniently improved.

Description

Portable emergency mobile energy storage power supply

Technical Field

The application relates to the technical field of energy storage power supplies, in particular to a portable emergency mobile energy storage power supply.

Background

The energy storage power supply is usually used for outdoor activities such as field camping, outdoor exploration and the like which are far away from mains supply or are inconvenient to connect and pull wires, and meanwhile, the energy storage power supply can play an important role in power failure emergency and emergency rescue and relief work.

The energy storage power source commonly used at present is photovoltaic energy storage equipment, and the photovoltaic energy storage equipment comprises a box body, a solar energy collecting photovoltaic panel, a storage battery, a charge-discharge controller and an electrical function component. The solar photovoltaic panel is used for collecting light energy and converting the light energy into electric energy.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: because photovoltaic energy storage equipment supplies power for the battery through solar energy collection photovoltaic board, only can use under the environment that illumination intensity is sufficient, service environment is comparatively single, can't satisfy the user demand.

Disclosure of Invention

In order to facilitate the comparatively single problem of solution energy storage power service environment, this application provides a portable emergent portable energy storage power.

The application provides a portable emergent mobile energy storage power supply adopts following technical scheme:

a portable emergency mobile energy storage power supply comprises a box body, wherein a battery pack is arranged in the box body, a charge-discharge controller connected with the battery pack is arranged in the box body, and a solar photovoltaic module and a hand-operated generator module which are connected with the charge-discharge controller are arranged on the box body;

the solar photovoltaic module comprises a folding photovoltaic panel group, the folding photovoltaic panel group comprises a plurality of substrates connected in a rotating mode and solar panels arranged on the substrates, the adjacent solar panels are connected, and the output end of the folding photovoltaic panel group is connected with the charge-discharge controller.

By adopting the technical scheme, the battery pack is charged in different modes, so that the service time of the energy storage power supply is convenient to improve, different environments are convenient to adapt, and the flexibility and the versatility of the energy storage power supply are convenient to improve;

in addition, adopt the mode of folding photovoltaic board group, when guaranteeing that solar panel gathers light energy, adopt folding structure, effectively reduce the occupation space of folding photovoltaic board group to conveniently carry and accomodate.

Optionally, the solar photovoltaic module further comprises two support frames, and the solar panels at two ends of the folding photovoltaic panel group are respectively hinged to the corresponding support frames;

two the holding tank that is formed with on the lateral wall that sets up in opposite directions jointly that the support frame is used for holding folding photovoltaic board group.

Through adopting above-mentioned technical scheme, be convenient for accomodate folding photovoltaic board group in the holding tank, play the effect of protection to folding photovoltaic board group, reduce folding photovoltaic board group's occupation space simultaneously to conveniently carry and accomodate.

Optionally, a fixing component is arranged on the supporting frame;

the fixing assembly comprises a fixing block arranged on the support frame and a connecting belt arranged on the support frame, and a plurality of fixing holes used for the fixing block to stretch into are arranged on the connecting belt in a penetrating mode.

Through adopting above-mentioned technical scheme, when two support frames are fixed to needs, walk around another support frame with the connecting band, because the connecting band adopts rubber materials to make, be convenient for stretch under the elastic force of self for the fixed block stretches into in the fixed orifices that corresponds, is convenient for firmly fix two support frames, effectively reduces folding photovoltaic board group and breaks away from the possibility that the holding tank caused the damage.

Optionally, the fixed block includes a first connecting portion and a second connecting portion, one end of the second connecting portion is connected to the support frame, and the other end of the second connecting portion is connected to the first connecting portion; the outer diameter of the first connecting portion is larger than that of the second connecting portion.

Through adopting above-mentioned technical scheme, because the external diameter of first connecting portion is greater than the external diameter of second connecting portion, after the fixed block stretched into the fixed orifices for the connecting band is with the bottom surface butt of first connecting portion, effectively reduces the connecting band and breaks away from the possibility of fixed block.

Optionally, the hand generator module comprises a generator body arranged in the box and a driving assembly for driving a rotating shaft of the generator body to rotate, and an output end of the generator body is connected with an input end of the battery pack;

the driving assembly comprises a driving handle, a polygonal block is arranged on the rotating shaft, and a polygonal groove for the polygonal block to stretch into is formed in the driving handle.

Through adopting above-mentioned technical scheme, the electric quantity of when the group battery is not enough, and when illumination intensity was not enough, can adopt hand generator module to supply power, and then be convenient for improve the live time of energy storage power.

Optionally, a standby battery is arranged in the box, and a power supply conversion module for converting a power supply mode of the standby battery and a power supply mode of the battery pack to a load are arranged in the box.

Through adopting above-mentioned technical scheme, when the electric quantity of group battery was not enough, switch over to backup battery and continue to be the load power supply, be convenient for ensure load continuous steady operation to be convenient for improve energy storage power's live time.

Optionally, the power supply conversion module comprises an electric quantity monitoring module and a judgment module;

the electric quantity monitoring module is used for monitoring the electric quantity of the battery pack and generating electric quantity monitoring data;

the judging module is used for acquiring electric quantity monitoring data acquired by the electric quantity monitoring module and switching a power supply mode when the electric quantity of the battery pack is smaller than a preset standard value.

Through adopting above-mentioned technical scheme, electric quantity monitoring module is used for monitoring the electric quantity of group battery and generates electric quantity monitoring data to electric quantity monitoring data with generating sends the electric quantity monitoring data who generates to the judging module, whether the judging module passes through electric quantity monitoring data and judges the electric quantity in the group battery and be less than predetermined standard value, and with information feedback to charge-discharge controller, then through the charge-discharge and the power supply mode of charge-discharge controller control group battery, thereby be convenient for ensure energy storage power's live time.

Optionally, a GPS positioning module connected with the controller is arranged in the box body, an emergency mode switch connected with the controller is arranged on the box body, and the emergency mode switch is used for controlling the opening and closing of the GPS positioning module.

By adopting the technical scheme, the position of the energy storage power supply can be conveniently acquired in real time, and meanwhile, the possibility of loss or theft of the energy storage power supply is effectively reduced.

Optionally, the controller is connected to a mobile terminal, and the controller is configured to send a signal to the mobile terminal in an on state of the emergency mode switch, and is configured to send an alarm signal after receiving no feedback signal from the mobile terminal.

Through adopting above-mentioned technical scheme, when energy storage power is in emergent mode, the controller sends the signal to mobile terminal at regular intervals, if this mobile terminal does not carry out signal feedback in the settlement time quantum after the controller sends the signal, the controller can send alarm information, is convenient for remind personnel on every side in time to watch to be convenient for reduce the possibility that the user meets accident.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the arrangement of the solar photovoltaic module and the hand generator module, the battery pack and the standby battery are charged in different modes, so that the service time of the energy storage power supply is prolonged, the energy storage power supply is suitable for different environments, and the flexibility and the versatility of the energy storage power supply are improved;

2. through the arrangement of the standby battery, when the electric quantity of the battery pack is insufficient, the battery pack is switched to the standby battery to continuously supply power to the load, so that the continuous and stable operation of the load is ensured conveniently, and meanwhile, the service life of the energy storage power supply is prolonged conveniently;

3. through GPS orientation module, mobile terminal's setting, when energy storage power is in emergent mode, the controller sends signal to mobile terminal at regular intervals, if this mobile terminal does not carry out signal feedback in the settlement time quantum behind controller sending signal, the controller can send alarm information, is convenient for remind personnel on every side in time to watch to be convenient for reduce the possibility that the user meets accident.

Drawings

Fig. 1 is a schematic diagram of an overall structure of an energy storage power supply according to an embodiment of the present application.

Fig. 2 is a flowchart of an energy storage power supply according to an embodiment of the present application.

Fig. 3 is a schematic structural diagram illustrating the unfolding of the solar photovoltaic module according to the embodiment of the present application.

Fig. 4 is a schematic structural view of the folded solar photovoltaic module shown in the embodiment of the present application.

Fig. 5 is an enlarged view of a portion a in fig. 3.

Fig. 6 is a cross-sectional view of an energy storage power supply shown in an embodiment of the present application.

Fig. 7 is a flowchart of an emergency module according to an embodiment of the present disclosure.

Description of reference numerals: 1. a box body; 11. a battery pack; 12. a charge and discharge controller; 13. an inverter; 14. a backup battery; 15. a housing; 2. a solar photovoltaic module; 21. a support frame; 22. folding the photovoltaic panel set; 221. a substrate; 222. a solar panel; 23. accommodating grooves; 24. a fixed block; 241. a first connection portion; 242. a second connecting portion; 25. a connecting belt; 251. a fixing hole; 26. a support plate; 27. a receiving groove; 28. a sliding groove; 29. a first chute; 291. a second chute; 3. a hand generator module; 32. a drive handle; 321. polygonal blocks; 322. a polygonal groove; 4. a power supply conversion module; 41. an electric quantity monitoring module; 42. a judgment module; 5. an emergency module; 51. a GPS positioning module; 52. an emergency mode switch; 53. a mobile terminal; 6. and a controller.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses portable emergent mobile energy storage power supply. Referring to fig. 1 and 2, the energy storage power supply includes a case 1, a battery pack 11 and a charge and discharge controller 12 connected to the battery pack 11 are disposed in the case 1, the charge and discharge controller 12 is connected to an inverter 13, the charge and discharge controller 12 is connected to a controller 6, and a power output end connected to the inverter 13 is disposed on the case 1.

Referring to fig. 1 and 2, being provided with solar photovoltaic module 2 and hand generator module 3 in the box 1, being convenient for charge battery pack 11 through the mode of difference, and then being convenient for improve the live time of energy storage power, being convenient for adapt to different environment simultaneously, being convenient for improve the flexibility and the multifunctionality of energy storage power.

Referring to fig. 2, a casing 15 with an upward opening is fixedly arranged on the side wall of the box body 1, and the solar photovoltaic module 2 is arranged in the casing 15, so that the solar photovoltaic module 2 is convenient to carry and store.

Referring to fig. 3, the solar photovoltaic module 2 includes two support frames 21 and a foldable photovoltaic panel assembly 22 disposed between the two support frames 21, the foldable photovoltaic panel assembly 22 includes a plurality of hinged substrates 221 and a solar panel 222 fixedly disposed on the substrates 221, the plurality of solar panels 222 are sequentially connected by a wire, and the foldable photovoltaic panel assembly 22 is provided with an output port.

Referring to fig. 2 and 3, when the battery pack 11 needs to be charged, the output port of the folded photovoltaic panel group 22 is connected to the charge and discharge controller 12, so that the charge and discharge controller 12 controls the battery pack 11 to be charged.

Two adjacent base plates 221 are hinged through the hinge, the solar panels 222 at two ends of the folding photovoltaic panel group 22 are respectively connected with the corresponding support frames 21 in a rotating mode through the rotating shaft, the two support frames 21 are formed with the accommodating grooves 23 on the side walls which are oppositely arranged, the rotating shaft is located in the accommodating grooves 23, therefore, the folding photovoltaic panel group 22 is convenient to store in the accommodating grooves 23, the folding photovoltaic panel group 22 is protected, meanwhile, the occupied space of the folding photovoltaic panel group 22 is reduced, and therefore the folding photovoltaic panel group is convenient to carry and store.

Referring to fig. 3 and 4, the support frames 21 are provided with fixing components, and after the foldable photovoltaic panel groups 22 are located in the accommodating grooves 23, the two support frames 21 are fixed by the fixing components. Specifically, the fixing assembly comprises a fixing block 24 fixedly arranged on the support frame 21 and a connecting band 25, the fixing block 24 and the connecting band 25 are respectively arranged on two sides of the support frame 21, and a plurality of fixing holes 251 for the fixing block 24 to extend into are arranged on the connecting band 25 in a penetrating manner. The fixing block 24 includes a first connecting portion 241 and a second connecting portion 242 connected in sequence, one end of the second connecting portion 242 is fixedly connected to the support frame 21, the outer diameter of the first connecting portion 241 is greater than the outer diameter of the second connecting portion 242, and a chamfer is provided at the connection between the first connecting portion 241 and the second connecting portion 242.

Referring to fig. 3 and 4, when two support frames 21 need to be fixed, the connection belt 25 is wound around the other support frame 21, and the connection belt 25 is made of rubber material, so that the connection belt is conveniently stretched under the elastic action of the connection belt 25, so that the fixing blocks 24 extend into the corresponding fixing holes 251, and because the outer diameter of the first connection portion 241 is larger than the outer diameter of the second connection portion 242, and the connection belt 25 is abutted to the bottom surface of the first connection portion 241, the possibility that the connection belt 25 is separated from the fixing blocks 24 is effectively reduced.

Referring to fig. 3 and 5, in order to improve the stability of the support frames 21, the support plates 26 are rotatably connected to the side walls of the two support frames 21 opposite to each other through the rotating shafts, the support frames 21 are provided with accommodating grooves 27 for accommodating the support plates 26, the accommodating grooves 27 extend to the bottom ends of the support frames 21, and the accommodating grooves 27 extend upwards to form sliding grooves 28 for the support plates 26 to slide up and down. The supporting frame 21 and the two sides of the supporting plate 26 are provided with first sliding grooves 29 for the rotation shaft to slide up and down, the supporting frame 21 is provided with second sliding grooves 291 communicated with the first sliding grooves 29, and the first sliding grooves 29 and the second sliding grooves 291 are arranged in an L shape.

Referring to fig. 5, in the initial state, the support plate 26 is located in the slide groove 28 and the receiving groove 27, and the rotation shaft of the support plate 26 is located in the first slide groove 29.

When the foldable photovoltaic panel group 22 needs to be unfolded for power supply, the support plate 26 is moved downward, so that the rotating shaft of the support plate 26 slides downward into the second sliding groove 291, and the rotating shaft slides in the second sliding groove 291, and at this time, the support plate 26 is separated from the sliding groove 28. Then outwards rotate backup pad 26 and make the bottom and the ground butt of backup pad 26, and backup pad 26 is triangle-shaped with support frame 21 and sets up, is convenient for play the effect of support to support frame 21.

When folding the accomodating with folding photovoltaic board group 22, rotate the backup pad 26 and make backup pad 26 be vertical state, then remove backup pad 26 for the axis of rotation slides in second spout 291, and upwards slide to first spout 29 in, at this moment, backup pad 26 is located sliding groove 28 and accomodates the inslot 27, is convenient for reduce the occupation space of backup pad 26.

According to fig. 6, when the battery pack 11 (see fig. 2) is low in power and the light intensity is low, the hand generator module 3 may be used for power supply.

Referring to fig. 2 and 6, the hand generator module 3 includes a generator body disposed in the box 1 and a driving assembly for driving the rotation of the output shaft of the generator body, and the output port of the generator body is connected to the charge and discharge controller 12, so that the charge and discharge controller 12 controls the battery pack 11 to charge. Specifically, drive assembly includes drive handle 32, and box 1 and fixedly connected with polygon piece 321 are worn out to the one end of output shaft, are provided with the polygon groove 322 that is used for supplying polygon piece 321 to stretch into on the drive handle 32 to be convenient for drive the output shaft and rotate, and then drive the generator body and supply power.

Referring to fig. 2 and 6, in addition, a backup battery 14 is further disposed in the box 1, and when the electric quantity of the battery pack 11 is insufficient, the backup battery 14 is switched to continue to supply power to the load, so as to ensure continuous and stable operation of the load.

Referring to fig. 2 and 6, a power supply conversion module 4 for converting power supply modes of the backup battery 14 and the battery pack 11 to a load is disposed in the box 1, specifically, the power supply conversion module 4 includes an electric quantity monitoring module 41 and a determination module 42, and both the electric quantity monitoring module 41 and the determination module 42 are connected to the controller 6. The electric quantity monitoring module 41 is used for monitoring the electric quantity of the battery pack 11 and generating electric quantity monitoring data, the generated electric quantity monitoring data is sent to the controller 6, the controller 6 sends the received electric quantity monitoring data to the judging module 42, the judging module 42 judges whether the electric quantity in the battery pack 11 is smaller than a preset standard value through the electric quantity monitoring data, information is fed back to the charge and discharge controller 12, and then the charge and discharge and power supply modes of the battery pack 11 are controlled through the charge and discharge controller 12.

When the electric quantity of the battery pack 11 is smaller than a preset standard value, the charge and discharge controller 12 controls the battery pack 11 to charge and controls the backup battery to discharge. When the charge amount of the battery pack 11 is higher than the preset standard value, the charge and discharge controller 12 switches again so that the battery pack 11 is discharged.

Referring to fig. 6 and 7, still be provided with emergent module 5 in the box 1, specifically, emergent module 5 includes the GPS positioning module 51 of being connected with controller 6, is provided with the emergent mode switch 52 of being connected with controller 6 on the box 1, and emergent mode switch 52 is used for controlling opening and close of GPS positioning module 51.

When a user carries out activities with higher danger coefficients such as outdoor exploration or emergency rescue and relief work, the emergency mode switch 52 can be pressed down to enable the energy storage power supply to enter an emergency mode, and at the moment, the controller 6 controls the GPS positioning module 51 to be started, so that the real-time position of the energy storage power supply can be conveniently acquired. Further, the controller 6 is connected with a mobile terminal 53. When the energy storage power supply is in the emergency mode, the controller 6 sends signals to the mobile terminal 53 at regular intervals, if the mobile terminal 53 does not perform signal feedback in a set time period after the controller 6 sends the signals, the controller 6 sends out alarm information, and meanwhile, sends a real-time position to an emergency contact person preset by a user, so that the possibility of accidents of the user is reduced.

The implementation principle of the portable emergency mobile energy storage power supply in the embodiment of the application is as follows:

when the electric quantity of the battery pack 11 is smaller than a preset standard value, the charge and discharge controller 12 controls the battery pack 11 to charge and controls the backup battery to discharge.

When the electric quantity of the battery pack 11 is insufficient and the illumination intensity is sufficient, the solar photovoltaic module 2 is adopted to charge the battery pack 11; when the electric quantity of the battery pack 11 is insufficient and the illumination intensity is insufficient, the battery pack 11 is charged by adopting the hand generator module 3.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a portable emergent energy storage power supply that removes, includes box (1), its characterized in that: a battery pack (11) is arranged in the box body (1), a charge-discharge controller (12) connected with the battery pack (11) is arranged in the box body (1), and a solar photovoltaic module (2) and a hand-operated generator module (3) connected with the charge-discharge controller (12) are arranged on the box body (1);

the solar photovoltaic module (2) comprises a folding photovoltaic panel group (22), the folding photovoltaic panel group (22) comprises a plurality of substrates (221) which are rotatably connected and solar panels (222) arranged on the substrates (221), two adjacent solar panels (222) are connected, and the output end of the folding photovoltaic panel group (22) is connected with the charge-discharge controller (12).

2. The portable emergency mobile energy storage power supply of claim 1, wherein: the solar photovoltaic module (2) further comprises two support frames (21), and the solar panels (222) at two ends of the folding photovoltaic panel group (22) are hinged to the corresponding support frames (21) respectively;

two holding tanks (23) that are used for holding folding photovoltaic board group (22) are formed jointly on the lateral wall that support frame (21) set up in opposite directions.

3. The portable emergency mobile energy storage power supply of claim 2, wherein: a fixing component is arranged on the supporting frame (21);

the fixing assembly comprises a fixing block (24) arranged on the support frame (21) and a connecting band (25) arranged on the support frame (21), and a plurality of fixing holes (251) for the fixing block (24) to stretch into are arranged on the connecting band (25) in a penetrating mode.

4. The portable emergency mobile energy storage power supply of claim 3, wherein: the fixing block (24) comprises a first connecting part (241) and a second connecting part (242), one end of the second connecting part (242) is connected with the supporting frame (21), and the other end of the second connecting part (242) is connected with the first connecting part (241); the first connecting portion (241) has an outer diameter larger than that of the second connecting portion (242).

5. The portable emergency mobile energy storage power supply of claim 1, wherein: the hand generator module (3) comprises a generator body arranged in the box body (1) and a driving assembly for driving an output shaft of the generator body to rotate, and the output end of the generator body is connected with the charge-discharge controller (12);

the driving assembly comprises a driving handle (32), a polygonal block (321) is arranged on the output shaft, and a polygonal groove (322) for the polygonal block (321) to extend into is formed in the driving handle (32).

6. The portable emergency mobile energy storage power supply of claim 1, wherein: a standby battery (14) is arranged in the box body (1), and a power supply conversion module used for converting the power supply mode of the standby battery (14) and the power supply mode of the battery pack (11) to the load is arranged in the box body (1).

7. The portable emergency mobile energy storage power supply of claim 6, wherein: the power supply conversion module (4) comprises an electric quantity monitoring module (41) and a judgment module (42);

the electric quantity monitoring module (41) is used for monitoring the electric quantity of the battery pack (11) and generating electric quantity monitoring data;

the judging module (42) is used for acquiring electric quantity monitoring data acquired by the electric quantity monitoring module (41) and switching a power supply mode when the electric quantity of the battery pack (11) is smaller than a preset standard value.

8. The portable emergency mobile energy storage power supply of claim 1, wherein: the emergency positioning device is characterized in that a GPS positioning module (51) is arranged in the box body (1), the GPS positioning module (51) is connected with the controller (6), an emergency mode switch (52) connected with the controller (6) is arranged on the box body (1), and the emergency mode switch (52) is used for controlling the opening and closing of the GPS positioning module (51).

9. The portable emergency mobile energy storage power supply of claim 8, wherein: the controller (6) is connected with a mobile terminal (53), and the controller (6) is used for sending a signal to the mobile terminal (53) in the opening state of the emergency mode switch (52) and sending an alarm signal after not receiving a feedback signal of the mobile terminal (53).

Images