CN211336908U - Battery separation storage structure - Google Patents

Abstract

A battery separating and storing structure is used for storing battery packs separately and respectively, and comprises at least one battery storing box body which is in a cubic structure; the battery storage box body comprises a plurality of side plate bodies, a front cover plate and a rear cover plate; the rear cover plate is arranged at the position of the side plate body close to the rear end, so that a front space is formed in front of the rear cover plate; the front of the front space can be closed by the front cover plate and is used for storing a battery pack; the battery storage box body also comprises an electric connector which is mainly used for plugging the electric connector for charging the battery pack; when the battery pack is used, the battery pack is placed in the front space of the battery storage box body, and the electric connector for charging of the battery pack is plugged into the electric connector of the battery storage box body so as to charge the battery pack.

Description

Battery separation storage structure

Technical Field

The present invention relates to a battery storage structure, and more particularly, to a battery separation storage structure.

Background

Based on energy conservation, prevention of global temperature rise due to greenhouse effect, and other environmental considerations, more and more countries adopt electric locomotives to replace traditional petrochemical fuel locomotives. However, charging is the biggest problem encountered in the popularization of electric locomotives. The approach used today involves charging the electric locomotive directly, but this approach is time consuming.

Another way is to replace the battery of the electric motorcycle in real time, which is time-saving. In contrast, a large number of battery replacement stations must be provided at each corner. I.e. a considerable number of battery packs are placed in a box. However, the battery pack may explode at a high temperature and a large current, and when a plurality of battery packs are aggregated together, if only one battery pack explodes, the plurality of battery packs may explode simultaneously due to a chain reaction. May spread to nearby people or objects and cause harm. Charging of electric locomotives in this manner is therefore prohibited in certain regions.

Therefore, the present invention is to provide a new battery separating and storing structure to solve the above-mentioned defects in the prior art.

SUMMERY OF THE UTILITY MODEL

Therefore the utility model discloses a solve above-mentioned prior art problem, the utility model discloses in provide a battery separation and store the structure, arrange the battery in single group battery respectively and store the box, prevent that a plurality of groups from piling up in single box, consequently can prevent the risk of battery explosion, through the utility model discloses a design even there is a group battery to explode, can not influence the group battery that other batteries stored the box yet, so be a safe design. Moreover, only one battery pack is arranged in each battery storage box body, and the charging and the electric power pricing can be carried out on a single battery pack, so the management is quite convenient. In addition, the arrangement of the lines is also considered in the whole design, so that the bundling, the connection and the like of the lines can be orderly arranged, and the maintenance and the assembly are convenient. The whole body also presents beautiful appearance.

In order to achieve the above object, the present invention provides a battery separating and storing structure for separately storing battery packs, wherein the battery separating and storing structure comprises at least one battery storing box body in a cubic structure; the battery storage box body comprises a plurality of side plate bodies, a front cover plate and a rear cover plate; the rear cover plate is arranged at the position of the side plate body close to the rear end, so that a front space is formed in front of the rear cover plate; the front of the front space can be closed by the front cover plate and is used for storing a battery pack; the battery storage box body also comprises an electric connector which is mainly used for plugging the electric connector for charging the battery pack; when the battery pack is used, the battery pack is placed in the front space of the battery storage box body, and the electric connector for charging of the battery pack is plugged into the electric connector of the battery storage box body so as to charge the battery pack.

Furthermore, the electric connector of the battery storage box body is arranged on the rear cover plate, and an open rear space is formed behind the rear cover plate.

Furthermore, the battery storage box body is made of explosion-proof materials.

Further, the side plate body is formed with a threading groove at a portion of the rear space, so that the power line extended from the electrical connector of the battery storage case is connected to the power source after being collected by the threading groove.

Furthermore, in the front space, the pulley block is arranged on the inner side surface of the plate body on at least one side edge and used for guiding the battery pack, so that the battery pack can be smoothly placed into the battery storage box body or pulled out of the battery storage box body, the abrasion of the battery pack can be reduced, and the operation of a user can be facilitated.

Furthermore, the at least one battery storage box body is a plurality of battery storage box bodies, and the battery storage box bodies are mutually assembled to form a single battery storage unit.

Further, the battery storage unit also comprises a group connecting box body which is connected with the battery storage unit in a group; the connecting box body is used as a wire collecting box; so that a plurality of power lines and power lines are integrated in the assembly box body; so as to achieve the purposes of safety of the assembly, aesthetic feeling of the whole appearance and convenient maintenance.

Furthermore, the battery storage box bodies and the assembly connection box bodies are provided with connecting holes which are fixedly connected with the connecting holes of two adjacent battery storage box bodies through screws or rivets, or fixedly connected with the connecting holes of the assembly connection box bodies and the adjacent battery storage box bodies so as to connect the plurality of battery storage box bodies and the plurality of assembly connection box bodies.

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

a controller for controlling the action of each related element; wherein the controller is disposed at a proximal end or a distal end of the battery storage case;

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

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

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

when the battery pack is operated, a user scans the identification code by using the mobile phone and transmits identification information to the controller, and when the identification information is authenticated by the controller, the controller transmits a control signal to the switch to open the front cover plate, so that the user can extract the battery pack; when the battery sensor senses the information of the battery pack in the battery storage box body, the information is transmitted to the controller so as to record the use condition of a user and serve as a deduction basis.

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

Further, the battery pack further comprises a power sensing unit for sensing power of the battery pack inside the battery storage box; the power induction unit includes:

a voltage sensor disposed at one end of the electrical connector or the connection wire of the battery storage box for sensing the voltage of the battery pack inside the battery storage box;

a current sensor for sensing a current inputted to the battery pack inside the battery storage case; the current sensor is arranged at the electric connection terminal of the battery storage box body or the power line thereof; and

a power calculating unit is located inside the controller, and calculates the electric power input to the battery pack and the electric power of the entire battery pack for pricing according to the voltage sensed by the voltage sensor, the current sensed by the current sensor, and the power transmission time for the battery pack inside the battery storage box.

Further features of the invention and advantages thereof will be apparent from the following description, when read in conjunction with the accompanying drawings.

Drawings

Fig. 1 is a schematic perspective view of a battery storage case according to the present invention;

fig. 2 is a rear schematic view of the battery storage case of the present invention;

fig. 3 is another perspective view of the battery storage case of the present invention, wherein the front cover plate is not shown;

FIG. 4 shows a schematic view of the bottom side of FIG. 3;

FIG. 5 is a perspective view of the assembled box of the present invention;

fig. 6 shows another perspective view of the assembled box of the present invention, wherein the front cover plate is not shown;

fig. 7 shows a rear side schematic view of the assembled box of the present invention;

FIG. 8 is a schematic front view of a single battery cell formed by assembling a plurality of battery cell storage cases of the present invention, wherein the lowermost battery cell storage case is further connected to an assembly of battery cell storage cases;

FIG. 9 is a schematic view of a plurality of battery storage units assembled together according to the present invention;

FIG. 10 is a schematic view of the battery pack of the present invention being placed in a battery storage case;

fig. 11 is a schematic view showing bundling and matching of power lines led out from electrical connectors of each battery storage case according to the present invention;

fig. 12 shows a block diagram of the control mechanism and the power sensing unit according to the present invention.

Description of the reference numerals

1 Battery storage Unit 52 Current sensor

5-battery 53 power calculation unit

6 electric terminal 60 connection hole for charging

10 cell storage box 100 mobile phone

11 side plate 101 front space

12 front cover plate 102 rear space

13 rear cover plate 111 threading groove

14 electric connector 141 power line

20 pulley block 142 plug

30-way box 143 circuit

40 control mechanism 201 battery storage unit

41 controller 202 battery storage unit

42 ID 203 battery storage unit

43 switch 204 battery storage unit

44 battery inductor 301 connects box

50 power induction unit 302 connects box

51 a voltage sensor.

Detailed Description

Now, the structure of the present invention, and the functions and advantages thereof, are described in detail with reference to the accompanying drawings.

Referring to fig. 1 to 12, a battery separating and storing structure of the present invention is shown, which includes the following components:

a battery storage case 10 has a cubic structure. As shown in fig. 1 to 4, the battery storage case 10 includes four side plates 11, a front cover plate 12 and a rear cover plate 13. The rear cover 13 is disposed at a position near the rear end of the side plate 11, such that a front space 101 is formed at the front of the rear cover 13, and an open rear space 102 is formed at the rear. The front of the front space 101 can be closed by the front cover 12 for storing a battery pack 5 (see fig. 10).

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

The battery storage case 10 further includes an electrical connector 14 for connecting the electrical connector 6 for charging the battery pack 5. In use, a battery pack 5 is inserted into the front space 10 of the battery storage case 10, and then the electric connector 6 for charging the battery pack 5 is inserted into the electric connector 14 of the battery storage case 10 to charge the battery pack 5. The electrical connector 14 of the battery storage case 10 of the present invention is disposed on the rear cover plate 13.

The side plate 11 may be formed with a threading groove 111 at a portion of the rear space 102, so that the power line 141 extending from the electrical connector 14 of the battery storage case 10 can be collected by the threading groove 111 and then connected to a power source (not shown).

In the front space 101, the pulley block 20 may be disposed on the inner side of at least one side plate 11, and functions to guide the battery pack 5, so that the battery pack 5 may be smoothly inserted into the battery storage box 10 or withdrawn from the battery storage box 10, thereby reducing the wear of the battery pack 5 and facilitating the operation of the user.

The present invention can form a single battery storage unit 1 by assembling a plurality of battery storage cases 10 with screws. As shown in fig. 8, in the structure of the present invention, four serially connected battery storage boxes 10 are assembled with each other by screws or rivets to form a battery storage unit 1. A plurality of battery storage units 1 can be assembled with each other, and fig. 9 shows an assembly diagram of a plurality of battery storage units 201, 202, 203, 204.

As shown in fig. 5 to 8, the present invention further includes a coupling case 30 coupled to the battery storage unit 1. The combiner box 30 serves as a junction box. So that a plurality of power lines and power lines can be integrated in the assembly housing 30. So as to achieve the purposes of safety of the assembly, aesthetic feeling of the whole appearance and convenient maintenance. When a plurality of battery storage units 1 are assembled with each other, at least two of the battery storage units 1 can share one assembled case 30, fig. 9 shows that the battery storage units 201 and 202 share one assembled case 301, and the battery storage units 203 and 204 share the other assembled case 302. Fig. 11 shows that the power lines 141 from the electrical connectors 14 of the battery storage cases 10 can be bundled and then connected to a smaller number of lines 143 via the plugs 142 in the set of battery storage cases 30 for power supply.

As shown in fig. 5 to 7, the assembly box 30 of the present invention includes four upper, lower, left, and right side plate bodies 11 and a front cover plate 12 that can be opened and closed, and a threading slot 111 is formed at the rear side of the side plate body 11 of the assembly box 30.

The battery storage boxes 10 and the assembly box 30 may have connection holes 60 to be fixedly connected to the connection holes 60 of two adjacent battery storage boxes 10 by screws or rivets, or to be fixedly connected to the connection holes 60 of the assembly box 30 and the adjacent battery storage boxes 10 to connect a plurality of battery storage boxes 10 and a plurality of assembly boxes 30.

As shown in fig. 12, 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 used to control the operation of each relevant component in the system of the present invention. Wherein the controller 41 may be disposed at the proximal or distal end of the battery storage case 10.

An identification code 42 is located on the battery storage case 10. The 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 sensing in NFC, bluetooth, RFID, or other manners.

A switch 43 is disposed on the battery storage box 10 and connected to the controller 41, wherein the switch 43 is used for controlling the opening and closing of the front cover 12.

A battery sensor 44 is disposed on the battery storage box 10 and electrically connected to the controller 41 for sensing whether the battery pack 5 is present inside the battery storage box 10.

In operation, the user uses the mobile phone 100 to scan the identification code 42 and transmit the identification message to the controller 41, and when the identification message is authenticated by the controller 41, the controller 41 transmits a control signal to the switch 43 to open the front cover 12, so that the user can extract the battery pack 5. When the battery sensor 44 senses the information of the battery pack 5 in the battery storage box 10, the information is transmitted to the controller 41 so as to record the usage of the user and to be used as a deduction basis.

The present invention further includes a power sensing unit 50 for sensing the power of the battery pack 5 inside the battery storage case 10. The power induction unit 50 includes:

a voltage sensor 51 is disposed near one end of the electrical connector 14 of the battery storage case 10 or its wiring for sensing the voltage of the battery pack 5 inside the battery storage case 10.

A current sensor 52 for sensing the current input to 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.

A power calculating unit 53 is located inside the controller 41, and calculates the electric power input to the battery pack 5 and the electric power of the entire battery pack 5 for pricing, based on the voltage sensed by the voltage sensor 51, the current sensed by the current sensor 52, and the power transmission time to the battery pack 5 inside the battery storage box 10.

The utility model has the advantages of can arrange battery storage box body in respectively with single group battery, prevent that a plurality of group batteries from piling up in single box, consequently can prevent the risk of battery explosion, through the utility model discloses a design even there is a group battery to explode, can not influence the group battery of other battery storage box bodies yet, so is a safe design. Moreover, only one battery pack is arranged in each battery storage box body, and the charging and the electric power pricing can be carried out on a single battery pack, so the management is quite convenient. In addition, the arrangement of the lines is also considered in the whole design, so that the bundling, the connection and the like of the lines can be orderly arranged, and the maintenance and the assembly are convenient. The whole body also presents beautiful appearance.

The above detailed description is directed to a specific description of a possible embodiment of the present invention, which should not be taken as limiting the scope of the present invention, but is intended to cover all equivalent implementations or modifications that do not depart from the spirit of the present invention.

Claims (11)

1. A separate battery storage structure for separately storing battery packs, comprising:

at least one 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 and a rear cover plate; the rear cover plate is arranged at the rear end of the side plate body, so that a front space is formed in front of the rear cover plate; the front of the front space can be closed by the front cover plate and is used for storing a battery pack;

wherein the battery storage box body also comprises an electric connector for plugging an electric connector for charging the battery pack; the battery pack is placed in the front space of the battery storage box body, and an electric connector for charging of the battery pack is plugged into the electric connector of the battery storage box body.

2. The battery split storage structure of claim 1, wherein the electrical connector of the battery storage case is disposed on the rear cover plate, and an open rear space is formed at the rear of the rear cover plate.

3. The battery split storage structure of claim 1, wherein the battery storage case is made of an explosion-proof material.

4. The battery split storage system of claim 3, wherein the side plate bodies are formed with a threading groove at a rear space portion thereof so that the power lines extended from the electrical contacts of the battery storage case are connected to a power source after being gathered by the threading groove.

5. The battery split storage structure of claim 1, wherein the inner surface of at least one side plate is provided with a block and pulley for guiding the battery pack in the front space.

6. The battery split storage structure of claim 1, wherein the at least one battery storage case is a plurality of battery storage cases, and the battery storage cases are assembled with each other to form a single battery storage unit.

7. The battery split storage structure of claim 6, further comprising an assembling case for serving as a cluster case assembled to the battery storage unit.

8. The battery split storage structure of claim 7, wherein the battery storage cases and the coupling case have coupling holes, which are fastened to the coupling holes of two adjacent battery storage cases by screws or rivets, or to the coupling holes of the coupling case and the adjacent battery storage case to couple the plurality of battery storage cases and the plurality of coupling cases.

9. The battery split storage structure of claim 1, further comprising a control mechanism for controlling the taking and placing of the battery pack; this control mechanism includes:

a controller for controlling the action of each related element; wherein the controller is disposed at a proximal end or a distal end of the battery storage case;

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

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

and the battery sensor is arranged on the battery storage box body and is electrically connected with the controller for sensing whether the battery pack exists in the battery storage box body or not.

10. The battery split storage structure of claim 9, wherein the identification code is selected from a bar code, a two-dimensional code or an RFID identification unit.

11. The battery split storage system 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 includes:

a voltage sensor for sensing a voltage of the battery pack inside the battery storage case, which is disposed at one end of the electrical connector of the battery storage case or the connection wire thereof;

a current sensor for sensing a current inputted to the battery pack inside the battery storage case, the current sensor being disposed at an electrical connection terminal of the battery storage case or a power line thereof; and a power calculating unit is positioned in the controller.

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