CN112895934A - Integrated box for storing batteries in separated mode - Google Patents

Abstract

An integrated case for separately storing batteries, which is used for separately storing battery packs, comprises a battery case including a plurality of side plates, and at least one battery storage case; a foot rest structure is positioned at the bottom of the battery box and is used for supporting the battery box; the battery storage box body is of a cubic structure; the battery storage box body comprises a plurality of side plate bodies, a front cover plate, a rear side plate and a rear cover plate; the rear side plate of the battery storage box body is arranged at the rear end of the side plate body close to the battery storage box body, and a front space for storing a battery pack is formed in front of the rear side plate of the battery storage box body; the front cover plate of the battery storage box body is used for sealing the front of the front space of the battery storage box body; the battery storage box body also comprises an electric connector; the electric connector is plugged with an electric connector for charging of the battery pack so as to charge the battery pack.

Description

Integrated box for storing batteries in separated mode

Technical Field

The present invention relates to a battery storage device, and more particularly, to an integrated case for separately storing batteries.

Background

At present, many countries have popularized electric locomotives, and compared with traditional petrochemical fuel locomotives, electric locomotives have the advantages of saving energy, preventing the temperature rise of the earth caused by greenhouse effect and the like, so that electric locomotives are more and more widely popularized in various countries to replace traditional petrochemical fuel locomotives. However, since the electric motorcycle is powered by a battery, it is necessary to charge the battery when the electric power is insufficient, and thus the charging method is an important issue for the popularization of the electric motorcycle.

In addition to charging, another way is to replace the batteries of the electric locomotive immediately to save time. This approach necessitates the deployment of battery changing stations at many different locations, using a box in which a plurality of battery packs can be placed. However, when the battery packs are collected together, if the battery packs are exploded at high temperature and large current, only one battery pack is exploded and may be affected by other battery packs, so that all the battery packs are exploded at the same time, thereby causing considerable damage. This approach has not been widely adopted based on the above-mentioned safety concerns.

Therefore, the present invention is directed to a novel integrated box for storing batteries in a separated manner to solve the above-mentioned drawbacks of the prior art.

Disclosure of Invention

Therefore, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and an object of the present invention is to provide an integrated case for separately storing batteries, in which a plurality of battery storage cases are disposed in a battery case, and each of the battery storage cases can be used to store a single battery pack, thereby preventing the plurality of battery packs from being stacked in a single case. With the above structure, even if one battery pack explodes, the explosion range can be limited in a single battery storage box body, and the explosion range can not be affected by the battery packs in other battery storage box bodies, so that the battery box of the invention is quite safe in use. The battery box of the invention is also provided with a spare box body which can be used as a battery storage box body and can also be used as a wire collecting box of other battery storage box bodies, and related lines of each battery storage box body can be orderly collected, thereby not only providing elasticity in use, but also being convenient for maintenance and keeping the overall appearance orderly. The battery storage box body can also charge the battery pack and perform charging operation, and can improve the overall management efficiency.

In order to achieve the above object, the present invention provides an integrated box for separately storing batteries, for separately storing battery packs, the integrated box for separately storing batteries comprising a battery compartment, the battery compartment comprising a plurality of side panels, wherein the battery compartment comprises at least one battery storage box; a foot rest structure is positioned at the bottom of the battery box and is used for supporting the battery box; wherein the battery storage box body is of a cubic structure; the battery storage box body comprises a plurality of side plate bodies, a front cover plate, a rear side plate and a rear cover plate; the rear side plate of the battery storage box body is arranged at the rear end of the side plate body close to the battery storage box body, and a front space for storing a battery pack is formed in front of the rear side plate of the battery storage box body; the front cover plate of the battery storage box body is used for sealing the front of the front space of the battery storage box body; wherein the battery storage box further comprises an electrical connector; when the battery pack is placed in the front space of the battery storage box body, the electric connector is plugged with an electric connector for charging of the battery pack so as to charge the battery pack; and when the user needs, the battery pack is put into the battery storage box body or taken out from the battery storage box body; so that a large number of battery packs can be stored using the battery case.

Preferably, the at least one battery storage box body is a plurality of battery storage box bodies.

Preferably, the battery pack further comprises at least one spare case, wherein the spare case serves as a battery storage case or a junction box for other battery storage cases, or stores other components.

Preferably, the electrical connector of the battery storage box body is disposed on the rear side plate of the battery storage box body.

Preferably, the battery storage box body is made of an explosion-proof material.

Preferably, a rear space is formed behind the rear side plate of the battery storage box body, the rear cover plate of the battery storage box body is disposed at the rear end of the side plate body of the battery storage box body to close the rear space of the battery storage box body, and a wire arranging hole is formed at a position of the side plate body of the battery storage box body corresponding to the rear space, so that a power line extending from the electrical connector can be connected to an external power source after being arranged through the wire arranging hole.

Preferably, the inner side surface of at least one side plate body of the battery storage box body is provided with a pulley block, the pulley block is positioned in the front space of the battery storage box body, and the battery pack is smoothly placed into or taken out of the battery storage box body through the guidance of the pulley block.

Preferably, the battery pack taking and placing device further comprises a control mechanism for controlling the battery pack to be taken and placed; this control mechanism includes:

a controller disposed near or far from the battery storage box; the controller is connected with a switch, and the switch is used for controlling the opening and closing of the front cover plate; wherein the switch is positioned on the battery storage box body;

a battery sensor electrically connected with the controller for sensing whether the battery pack is stored in the battery storage box body; the battery sensor is positioned on the battery storage box body;

an identification code is positioned on the battery storage box body; and

in the operating state, the controller receives the identification message transmitted after the mobile phone of the user scans the identification code, and the controller authenticates the identification message; when the authentication is passed, the controller transmits a control signal to the switch to control the opening of the front cover plate, so that a user can take the battery pack out of the battery storage box; when the battery sensor senses the information of the battery pack in the battery storage box body, the sensed information is transmitted to the controller to record the use condition of the user and serve as the basis for deduction.

Preferably, the identification code is selected from a bar code, a two-dimensional code or an RFID identification unit.

Preferably, the battery pack further comprises a power sensing unit for sensing power of the battery pack inside the battery storage case; the power induction unit comprises a current sensor for sensing current input into the battery pack inside the battery storage box body and a voltage sensor for sensing voltage of the battery pack inside the battery storage box body; wherein the current sensor is disposed at the electrical connection terminal of the battery storage case or the power line thereof; the voltage sensor is arranged close to the electric joint of the battery storage box body or one end of a power line of the battery storage box body;

the power calculation unit calculates the power input to the battery pack and the power of the whole battery pack according to the current sensed by the current sensor, the voltage sensed by the voltage sensor and the power transmission time of the battery pack in the battery storage box body, and the power calculation unit is used as a basis for pricing; wherein the power calculation unit is located inside the controller.

A further understanding of the nature and advantages of the present invention will become apparent from the following description when read in conjunction with the accompanying drawings.

Drawings

FIG. 1 shows a schematic view of the combination of elements of the present invention;

FIG. 2 shows a rear side schematic view of the combination of elements of the present invention;

FIG. 3 is a schematic view showing a bottom view of a battery case according to the present invention;

FIG. 4 is a schematic view of another embodiment of the present invention, wherein the battery compartment comprises a single battery compartment;

FIG. 5 is a schematic view showing a battery storage case according to the present invention;

FIG. 6 is a schematic view of a battery storage case according to the present invention, in which a front cover is not shown;

FIG. 7 shows a schematic view from the bottom of the other side of FIG. 6;

fig. 8 is a rear schematic view of a battery storage case according to the present invention;

fig. 9 is a schematic rear view of a battery storage case according to the present invention, in which a rear cover plate is not shown;

FIG. 10 shows a schematic view of a spare box of the present invention;

FIG. 11 shows a schematic view of a spare housing of the present invention, with the front cover not shown;

FIG. 12 shows a rear side schematic view of the refill cartridge of the present invention;

FIG. 13 shows a rear side schematic view of the spare housing of the present invention with the rear cover plate not shown;

fig. 14 is a schematic view showing the connection of power lines inside the battery storage cases according to the present invention;

FIG. 15 is a block diagram of the control mechanism and the power sensing unit according to the present invention.

Description of the reference numerals

5 Battery 51 Voltage sensor

6 electric connector 52 current sensor

Power calculating unit of 10 battery storage box 53

11 side plate 60 battery box

12 front cover 70 battery box

13 rear side 71 side panel

14 electric connector 80 foot rest structure

15 rear cover plate 81 foot stool

20 pulley block 100 mobile phone

30 spare box 101 front space

40 control mechanism 102 back space

41 controller 111 line hole

42 identification code 141 power line

43 switch 142 plug

44 cell sensor 143 circuit

50 power induction units.

Detailed Description

The present invention will now be described in detail with reference to the drawings, wherein the same reference numerals are used to designate the same elements, components, and advantages thereof.

Referring to fig. 1 to 15, an integrated case for storing batteries in a separated manner according to the present invention is shown, which includes the following components:

a battery box 70, the battery box 70 comprises four side plates 71, an upper side plate, a lower side plate, a left side plate and a right side plate, wherein the battery box 70 comprises at least one battery storage box body 10. The at least one battery storage case 10 of the present invention may also be a plurality of battery storage cases 10, and fig. 14 shows that the at least one battery storage case 10 is two battery storage cases 10.

The battery pack 70 further includes at least one spare case 30, wherein the spare case 30 can be used as a battery storage case 10 or as a line concentrator for other battery storage cases 10, and can also store the rest of the components of the present invention. Fig. 1 shows that the battery case 70 includes a battery storage case 10 and a backup case 30, and fig. 4 shows that the battery case 70 includes a battery storage case 10.

A stand structure 80 is provided at the bottom of the battery case 70 for supporting the battery case 70. The stand structure 80 is shown in fig. 1 to include a plurality of stands 81 extending from the bottom to allow the battery compartment 70 to stand.

With this structure, the user can put the battery pack 5 into the interior of the battery storage case 10 or take the battery pack 5 out of the battery storage case 10 when desired. The battery case 60 is used to store a large number of battery packs 5.

Wherein the battery storage case 10 has a cubic structure. As shown in fig. 5 to 9, the battery storage case 10 includes four side plates 11, a front cover plate 12, a rear cover plate 13 and a rear cover plate 15.

Preferably, the battery storage box 10 is made of an explosion-proof material, so that when the battery pack 5 inside the battery storage box 10 explodes, the battery storage box 10 will not burst, and the explosion will not affect the battery packs 5 inside the other battery storage boxes 10.

Wherein the rear side plate 13 of the battery storage box 10 is disposed near the rear end of the side plate 11 of the battery storage box 10, and a front space 101 is formed in front of the rear side plate 13 of the battery storage box 10 for storing a battery pack 5, as shown in fig. 6. The front cover 12 of the battery storage case 10 is used to close the front of the front space 101 of the battery storage case 10, as shown in fig. 5.

Wherein a rear space 102 is formed behind the rear side plate 13 of the battery storage box 10, and the rear cover 15 of the battery storage box 10 is disposed at the rear end of the side plate 11 of the battery storage box 10 to enclose the rear space 102 of the battery storage box 10.

The pulley block 20 may be disposed on an inner side surface of at least one side plate 11 of the battery storage box 10, and the pulley block 20 is located in the front space 101 of the battery storage box 10, so that the battery pack 5 is smoothly placed into the battery storage box 10 or taken out of the battery storage box 10 by being guided by the pulley block 20, thereby reducing wear of the battery pack 5 and facilitating operation of a user.

The battery storage case 10 further includes an electrical connector 14. When the battery pack 5 is inserted into the front space 10 of the battery storage case 10, the electrical connector 14 is inserted into the electrical connector 6 for charging the battery pack 5 to charge the battery pack 5. Wherein the electrical connector 14 may be placed on the rear side plate 13.

In which a wire arranging hole 111 may be formed at a portion of the side plate 11 of the battery storage case 10 corresponding to the rear space 102, so that the power wire 141 extended from the electrical connector 14 can be connected to an external power source (not shown) after being arranged through the wire arranging hole 111.

As shown in fig. 10 to 13, the spare box 30 includes four side panels 11, a front cover 12 and a rear cover 15, and the rear side of the side panels 11 of the spare box 30 also forms a wire arranging hole 111.

When the spare case body 30 is used as a junction box for the other battery storage case bodies 10, a plurality of power lines and power lines are integrated in the spare case body 30 to enhance the aesthetic appearance, the safety of operation, and the convenience of maintenance. Fig. 14 shows that the power lines 141 extending from the electrical connectors 14 of the battery storage cases 10 are bundled and then connected to a smaller number of lines 143 through the plugs 142 in the spare case 30 for drawing to the power source.

As shown in fig. 15, the present invention further includes a control mechanism 40 for controlling the taking and placing of the battery pack 5. The control mechanism 40 includes:

a controller 41 is disposed near the battery storage case 10 or far from the battery storage case 10. The controller 41 is connected to a switch 43, and the switch 43 is used for controlling the opening and closing of the front cover 12. Wherein the switch 43 is located on the battery storage case 10.

A battery sensor 44 is electrically connected to the controller 41 for sensing whether the battery pack 5 is stored in the battery storage casing 10. The battery sensor 44 is located on the battery storage case 10.

An identification Code 42 may be a barcode or a two-dimensional Code, such as a QR Code or an RFID identification unit, so that the Code can be read by induction using NFC, bluetooth, RFID, or other methods. The identification code 42 is located on the battery storage case 10.

In the operating state, the controller 41 receives the identification message transmitted after the mobile phone 100 of the user scans the identification code 42, and the controller 41 authenticates the identification message. When the authentication is passed, the controller 41 transmits a control signal to the switch 43 to control the opening of the front cover 12, so that the user can take the battery pack 5 out of the battery storage case 10. When the battery sensor 44 senses the information of the battery pack 5 in the battery storage box 10, the sensed information is transmitted to the controller 41 to record the usage of the user and to be used as a basis for deduction.

The present invention further includes a power sensing unit 50 for sensing power of the battery pack 5 inside the battery storage container 10. The power sensing unit 50 includes a current sensor 52 for sensing the current input to the battery pack 5 inside the battery storage case 10, and a voltage sensor 51 for sensing the voltage of the battery pack 5 inside the battery storage case 10. Wherein the current sensor 52 can be disposed at the electrical connector 14 of the battery storage box 10 or on the power line 141 thereof. The voltage sensor 51 is disposed near the electrical connector 14 of the battery storage box 10 or one end of the power line 141 thereof.

The power sensing unit 50 further includes a power calculating unit 53, and the power calculating unit 53 calculates the power input to the battery pack 5 and the power of the entire battery pack 5 according to the current sensed by the current sensor 52, the voltage sensed by the voltage sensor 51, and the power transmission time to the battery pack 5 inside the battery storage box 10, as the basis for pricing. Wherein the power calculation unit 53 is located inside the controller 41.

The invention has the advantages that a plurality of battery storage boxes are arranged in a battery box, and each battery storage box can be used for storing a single battery pack, so that a plurality of battery packs are not accumulated in a single box. With the above structure, even if one battery pack explodes, the explosion range can be limited in a single battery storage box body, and the explosion range can not be affected by the battery packs in other battery storage box bodies, so that the battery box of the invention is quite safe in use. The battery box of the invention is also provided with a spare box body which can be used as a battery storage box body and can also be used as a wire collecting box of other battery storage box bodies, and related lines of each battery storage box body can be orderly collected, thereby not only providing elasticity in use, but also being convenient for maintenance and keeping the overall appearance orderly. The battery storage box body can also charge the battery pack and perform charging operation, and can improve the overall management efficiency.

The detailed description is specific to one possible embodiment of the invention, but the embodiment is not intended to limit the scope of the invention, and equivalent implementations or modifications without departing from the technical spirit of the invention should be included in the scope of the invention.

Claims (10)

1. An integrated case for separately storing batteries, for separately storing battery packs, respectively, the integrated case for separately storing batteries comprising:

the battery box comprises a plurality of side plates, wherein the battery box comprises at least one battery storage box body;

a foot rest structure is positioned at the bottom of the battery box and is used for supporting the battery box;

wherein the battery storage box body is of a cubic structure; the battery storage box body comprises a plurality of side plate bodies, a front cover plate, a rear side plate and a rear cover plate; the rear side plate of the battery storage box body is arranged at the rear end of the side plate body close to the battery storage box body, and a front space for storing a battery pack is formed in front of the rear side plate of the battery storage box body; the front cover plate of the battery storage box body is used for sealing the front of the front space of the battery storage box body; wherein the battery storage box further comprises an electrical connector; when the battery pack is placed in the front space of the battery storage box body, the electric connector is plugged with an electric connector for charging of the battery pack so as to charge the battery pack; and

when a user needs to put the battery pack into the battery storage box body or take the battery pack out of the battery storage box body; so that a large number of battery packs can be stored using the battery case.

2. The integrated box of claim 1, wherein the at least one battery storage box is a plurality of battery storage boxes.

3. The integrated case of claim 1, wherein the battery compartment further comprises at least one spare case, wherein the spare case serves as a battery storage case or a junction case for other battery storage cases, or stores other components.

4. The integrated case of claim 1, wherein the electrical connector of the battery storage case is disposed on the rear side plate of the battery storage case.

5. The integrated case of claim 1, wherein the battery storage case is made of an explosion-proof material.

6. The integrated box of claim 1, wherein a rear space is formed at a rear portion of the rear plate of the battery storage box, the rear cover plate of the battery storage box is disposed at a rear end of the side plate of the battery storage box to close the rear space of the battery storage box, and wherein an alignment hole is formed at a portion of the side plate of the battery storage box corresponding to the rear space, so that the power line extended from the electrical connector is aligned through the alignment hole and then connected to an external power source.

7. The integrated box of claim 1, wherein a pulley block is disposed on an inner surface of at least one side plate of the battery storage box and located in the front space of the battery storage box, and the battery pack is smoothly inserted into or removed from the battery storage box by the pulley block.

8. The integrated box for separately storing batteries according to claim 1, further comprising a control mechanism for controlling the taking and placing of the battery pack; this control mechanism includes:

a controller disposed near or far from the battery storage box; the controller is connected with a switch, and the switch is used for controlling the opening and closing of the front cover plate; wherein the switch is positioned on the battery storage box body;

a battery sensor electrically connected with the controller for sensing whether the battery pack is stored in the battery storage box body; the battery sensor is positioned on the battery storage box body;

an identification code is positioned on the battery storage box body; and

in the operating state, the controller receives the identification message transmitted after the mobile phone of the user scans the identification code, and the controller authenticates the identification message; when the authentication is passed, the controller transmits a control signal to the switch to control the opening of the front cover plate, so that a user can take the battery pack out of the battery storage box; when the battery sensor senses the information of the battery pack in the battery storage box body, the sensed information is transmitted to the controller to record the use condition of the user and serve as the basis for deduction.

9. The integrated box of claim 8, wherein the identification code is selected from a bar code, a two-dimensional code, or an RFID identification unit.

10. The integrated case of claim 9, further comprising a power sensing unit for sensing power of the battery pack inside the battery storage case; the power induction unit comprises a current sensor for sensing current input into the battery pack inside the battery storage box body and a voltage sensor for sensing voltage of the battery pack inside the battery storage box body; wherein the current sensor is disposed at the electrical connection terminal of the battery storage case or the power line thereof; the voltage sensor is arranged close to the electric joint of the battery storage box body or one end of a power line of the battery storage box body;

the power calculation unit calculates the power input to the battery pack and the power of the whole battery pack according to the current sensed by the current sensor, the voltage sensed by the voltage sensor and the power transmission time of the battery pack in the battery storage box body, and the power calculation unit is used as a basis for pricing; wherein the power calculation unit is located inside the controller.

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