CN203983358U - Tight type battery structure - Google Patents

Abstract

The utility model discloses a kind of tight type battery structure, comprise a Container, it comprises 12 cylindric through holes that run through and be parallel to each other, one cylindrical battery core is installed in each cylindric through hole, these a little cylindrical battery cores are electrically connected to each other, and arrange and form in the mode of six side's closest packings, and each cylindrical battery core has an axial line, all axial lines are parallel to each other, and lay respectively in four planes parallel to each other and that sequentially arrange with quantity three, four, three, two.The utility model is 12 cylindrical battery cores of tool only, and the mode with six side's closest packings is arranged and is formed by it, it is the slot that the battery of lower floor can be arranged in adjacent two battery on upper strata, to utilize quantity and the arrangement mode of this kind of battery, save the installing space of battery structure, simplify line design simultaneously.

Description

Tight type battery structure

Technical field

The utility model relates to a kind of battery structure, espespecially a kind of tight type battery structure.

Background technology

Battery, general sense stricto definition is the chemical energy storing own to be changed into the device of electric energy, broad sense is defined as the device for the electric energy that can be for external application by the Conversion of Energy having stored in advance.Along with the widely utilization of electronic product, in order to keep its convenience and Portability, and along with user elongates for the Time-Dependent of electronic product, battery is played the part of a very important role beyond doubt, and design battery structure is also the important topic of today.

Yet current battery structure, often has improper part in design.For example use the battery structure on bicycle, exporting as required specification is 36 volts, 6 amperes/hour, and the output specification of each battery is 3.6 volts, 2 amperes/hour, existing battery structure can comprise two battery minor structures, this battery minor structure as shown in Figure 1, comprise a Container 10, it has ten accommodating through holes, and a battery 12 is installed in each accommodating through hole.If this battery, with above-mentioned specifications design, in order to meet needed output specification, is by every three battery 12 parallel connections, then the battery after parallel connection 12 is one another in series, can have more a battery 12.So this battery 12 need to be in parallel with two battery 12 in another one Container 10, could connect with other in parallel good battery 12, can meet above-mentioned output specification.But the complexity that the design of this measure passing siding road becomes, and current flow also can be inhomogeneous.

Therefore, the utility model is in the puzzlement for above-mentioned, proposes a kind of tight type battery structure, to solve the existing problem being produced.

Utility model content

Main purpose of the present utility model, is to provide a kind of tight type battery structure, and it is to adopt six side's closest packings to arrange only 12 cylindrical battery cores, to save battery installing space, simplifies line design simultaneously, and makes current flow even.

For achieving the above object, the technical solution adopted in the utility model is:

A tight type battery structure, is characterized in that, comprises:

One Container, it comprises 12 cylindric through holes that run through and be parallel to each other, it is to arrange and form in the mode of six side's closest packings, in each this cylindric through hole, a cylindrical battery core is installed, this cylindrical battery core is electrically connected to each other, and arranges and form in the mode of six side's closest packings, and each this cylindrical battery core has an axial line, this axial line is parallel to each other, and lays respectively in four planes parallel to each other and that sequentially arrange with quantity three, four, three, two.

Wherein: this Container has the central point between this cylindric through hole of inner side, this central point and its form six equidistant range lines at a distance of six these cylindrical battery cores farthest from this central point sidewall farthest, and this range line is vertical with this axial line.

Wherein: the section radius of this cylindrical battery core is r, and the length of each this range line is r.

Wherein: this Container is also concaved with the temperature-sensitive wire casing between this cylindric through hole of inner side.

Wherein: the periphery of this Container is also arranged with at least one signal trunking, and this signal trunking is positioned at the outside of this cylindric through hole.

Wherein: also comprise at least three coupling terminal blocks, it is located on this Container.

Wherein: this coupling terminal block is metal wiring terminal platform.

Wherein: relative two ends of this Container are respectively equipped with plural the first recess and plural the first projection, the position of this first recess respectively with the position of this first projection in correspondence with each other.

Wherein: this Container also comprises:

One first sub-Container, it comprises six these cylindric through holes, and side is provided with plural the second recess; And

One second sub-Container, it comprises six these cylindric through holes, and side is provided with plural the second projection, its position respectively with this second recess in correspondence with each other, this second projection and this second recess interosculate, with in conjunction with this second sub-Container and this first sub-Container.

Compared with prior art, adopt the advantage the utlity model has of technique scheme to be: the utility model adopts the mode of six side's closest packings to arrange with 12 cylindrical battery cores of tool only, to save the installing space of battery structure, can reach the object that line design is simplified.

Accompanying drawing explanation

Fig. 1 is the battery minor structure schematic diagram of prior art;

Fig. 2 is the three-dimensional structure diagram of battery structure of the present utility model;

Fig. 3 is the structure vertical view of battery structure of the present utility model;

Fig. 4 is the STRUCTURE DECOMPOSITION figure of battery structure of the present utility model.

Description of reference numerals: 10 Containers; 12 battery; 14 Containers; 16 cylindric through holes; 18 cylindrical battery cores; 20 temperature-sensitive wire casings; 22 signal trunkings; 24 coupling terminal blocks; 26 first recesses; 28 first projections; 30 first sub-Containers; 32 second sub-Containers; 34 second recesses; 36 second projections.

Embodiment

Refer to Fig. 2, Fig. 3 and Fig. 4.Tight type battery structure of the present utility model comprises a Container 14, and it comprises only 12 the cylindric through holes 16 that run through and be parallel to each other, and it is to arrange and form in the mode of six side's closest packings.In each cylindric through hole 16, a cylindrical battery core 18 is installed, all cylindrical battery cores 18 are electrically connected to each other, and also in the mode of six side's closest packings, arrange and form, the cylindrical battery core 18 of lower floor can be arranged in the slot of the adjacent two cylindrical battery cores 18 on upper strata.Each cylindrical battery core 18 has an axial line, and all axial lines are parallel to each other, and lays respectively in four planes parallel to each other and that sequentially arrange with quantity three, four, three, two.This Container 14 is also concaved with the temperature-sensitive wire casing 20 between the cylindric through hole 16 of inner side, to measure the bulk temperature of cylindrical battery core 18.In addition, the periphery of Container 14 is also arranged with at least one signal trunking 22, and it is positioned at the outside of cylindric through hole 16, to settle the connection line of cylindrical battery core 18.Quantity at this signal trunking 22 is to take three as example.Separately, on Container 14, be provided with at least three metal wiring terminal platforms as coupling terminal block 24, with the connection line of connecting cylinder shape battery 18, in this quantity, take six as example.The utility model, for the Container 14 with minimum volume holds maximum cylindrical battery cores 18, to save battery installing space, meets general battery output specification, therefore select only 12 cylindrical battery cores 18 simultaneously.This Container 14 has the central point C between the cylindric through hole 16 of inner side, itself and its at a distance of the decentre point C of six cylindrical battery cores 18 farthest six equidistant range line L of sidewall formation farthest, all range line L are vertical with the axial line of all cylindrical battery cores 18.Wherein, if the section radius of cylindrical battery core 18 is r, each range line L is r.

So that the battery structure being used on bicycle is example, exporting as required specification is 36 volts, 6 amperes/hour, and the output specification of each cylindrical battery core 18 is 3.6 volts, 2 amperes/hour, just need to be by after every three cylindrical battery core 18 parallel connections, the better cylindrical battery core 18 of series and parallel, because cylindrical battery core 18 of the present utility model only has 12, therefore become the annexation of three and four strings.Because needed output specification is 36 volts, therefore still need six groups with three cylindrical battery cores 18 that parallel connection is good.In other words, tight type battery structure of the present utility model needs three, in one of them Container 14, only need hold six cylindrical battery cores 18, in all the other two Containers 14, need to hold 12 cylindrical battery cores 18, and by after every three cylindrical battery core 18 parallel connections, the better cylindrical battery core 18 of series and parallel, form three and ten annexations of going here and there, make balanced current distribution, and simplify connection line.

Similarly, exporting as required specification is 36 volts, 8 amperes/hour, and the output specification of each cylindrical battery core 18 is 3.6 volts, 2 amperes/hour, just need to be by after every four cylindrical battery core 18 parallel connections, the better cylindrical battery core 18 of series and parallel, because cylindrical battery core 18 of the present utility model only has 12, therefore become the annexation of four and three strings.Because needed output specification is 36 volts, therefore still need seven groups with four cylindrical battery cores 18 that parallel connection is good.In other words, tight type battery structure of the present utility model needs four, in one of them Container 14, only need hold three cylindrical battery cores 18, in its excess-three Container 14, need to hold 12 cylindrical battery cores 18, and by after every four cylindrical battery core 18 parallel connections, the better cylindrical battery core 18 of series and parallel, form four and ten annexations of going here and there, make balanced current distribution, and simplify connection line.

No matter be three strings four and or the structures of four and three strings, Container 14 all must interosculate, therefore relative two ends of each Container 14 are respectively equipped with plural the first recess 26 and plural the first projection 28, the position of all the first recesses 26 respectively with the position of all the first projections 28 in correspondence with each other.So, when having a Container 14 to want to interosculate with another Container 14, just can from the first recess 26 with it respectively with another Container 14 on the first projection 28 mutually combine to link.

Container 14 of the present utility model also comprises one first sub-Container 30 and one second sub-Container 32.The first sub-Container 30 comprises six cylindric through holes 16, and side is provided with plural the second recess 34, the second sub-Container 32 also comprises other six cylindric through holes 16, and side is provided with plural the second projection 36, its position respectively with all the second recesses 34 in correspondence with each other, all the second projections 36 interosculate with all the second recesses 34, with in conjunction with the second sub-Container 32 and the first sub-Container 30.When if Container 14 does not need to fill 12 cylindrical battery cores 18, the second sub-Container 32 in Container 14 can be pulled down, to save more installing space, or change fin and the first sub-Container 30 combinations, the selectivity of installing with the utility model that increases.

In sum, the utility model is arranged in the mode that only 12 cylindrical battery cores of tool are adopted six side's closest packings, to save the installing space of battery structure, reaches the object that line design is simplified simultaneously.

Claims (9)

1. a tight type battery structure, is characterized in that, comprises:

One Container, it comprises 12 cylindric through holes that run through and be parallel to each other, it is to arrange and form in the mode of six side's closest packings, in each this cylindric through hole, a cylindrical battery core is installed, this cylindrical battery core is electrically connected to each other, and arranges and form in the mode of six side's closest packings, and each this cylindrical battery core has an axial line, this axial line is parallel to each other, and lays respectively in four planes parallel to each other and that sequentially arrange with quantity three, four, three, two.

2. tight type battery structure as claimed in claim 1, it is characterized in that: this Container has the central point between this cylindric through hole of inner side, this central point and its form six equidistant range lines at a distance of six these cylindrical battery cores farthest from this central point sidewall farthest, and this range line is vertical with this axial line.

3. tight type battery structure as claimed in claim 2, is characterized in that: the section radius of this cylindrical battery core is r, and the length of each this range line is

4. tight type battery structure as claimed in claim 1, is characterized in that: this Container is also concaved with the temperature-sensitive wire casing between this cylindric through hole of inner side.

5. tight type battery structure as claimed in claim 1, is characterized in that: the periphery of this Container is also arranged with at least one signal trunking, and this signal trunking is positioned at the outside of this cylindric through hole.

6. tight type battery structure as claimed in claim 1, is characterized in that: also comprise at least three coupling terminal blocks, it is located on this Container.

7. tight type battery structure as claimed in claim 6, is characterized in that: this coupling terminal block is metal wiring terminal platform.

8. tight type battery structure as claimed in claim 1, is characterized in that: relative two ends of this Container are respectively equipped with plural the first recess and plural the first projection, the position of this first recess respectively with the position of this first projection in correspondence with each other.

9. tight type battery structure as claimed in claim 1, is characterized in that: this Container also comprises:

One first sub-Container, it comprises six these cylindric through holes, and side is provided with plural the second recess; And

One second sub-Container, it comprises six these cylindric through holes, and side is provided with plural the second projection, its position respectively with this second recess in correspondence with each other, this second projection and this second recess interosculate, with in conjunction with this second sub-Container and this first sub-Container.