CN103855337B - Battery mounting - Google Patents

Abstract

The invention provides a kind of battery mounting in order to fixing multiple battery can, comprise multiple first plate body and the second plate body.Each first plate body adjoins along first direction level, and each first plate body has multiple first perforation along second direction arrangement, and second direction is perpendicular to second direction.Each first plate body adjoin each other place thickness thin compared with other place, thus can supply the second plate body disposed therein.Each first plate body has multiple connector along the two ends of second direction, each second plate body is arranged at the adjoiner of two adjacent the first plate bodys, there are multiple second perforation along second direction arrangement, and each second plate body has multiple connecting portion, in order to be connected to each connector along the two ends of second direction.

Description

Battery mounting

Technical field

The present invention relates to a kind of fixed mount, particularly relate to a kind of battery mounting in order to fixing multiple battery can.

Background technology

Because rechargeable type lithium battery (also known as secondary cell) has the advantage of high working voltage (3.4 ~ 3.8Volt), macro-energy density (>185Wh/Kg), lightweight, life-span long and environmental protection, be widely used in 3C electronic product at present, such as: mobile phone (MobilePhone), notebook (NB/PC), flat computer (TabletPC), video camera (Camcorder) and digital camera (DigitalCamera).Statistics according to IIT2009 is estimated, whole world lithium cell core sales volume about reaches 30.5 hundred million, about have 44% to be used in mobile phone and hand-held device according to adding up the global lithium cell core wherein sold out, about have 31.4% to be used in notebook, and about 5.5% is used in other consumption electronic products, the lithium cell core that these three kinds of products use accounts for 80% of commercially available amount.In recent years, the problem of global climate exception is caused in order to tackle greenhouse effect, and reduction is to factors such as the dependences of oil, the each major country in the whole world and automaker develop oil electricity hybrid vehicle (or claiming motor vehicle driven by mixed power) of low stain and low (/ zero) oil consumption invariably energetically, because the market of the electric hybrid vehicle of oil is ripe gradually, lithium battery industry is also facilitated to increase in the outer demand in the said goods field.

The operating voltage of general 3C Product is lower, and in order to weight reduction and volume, usually only needs to use single or multiple serial or parallel connection lithium cell core together (Battery) can provide enough electric power.Comparatively speaking, electric motor car then needs larger operating voltage and enough capacitances, the enough electric power needed for ability supply of vehicles travels; Be applied to the lithium battery power supply of electric motor car, be a kind ofly to be one another in series or lithium battery module (BatteryPack) that the lithium battery of parallel connection forms by many, an average electric motor car needs thousands of lithium batteries easily.Therefore, how to reach rapid-assembling simultaneously and reliably fix the lithium battery of numerous quantity, needing practitioner is solved.

Summary of the invention

A mode of the present invention proposes a kind of battery mounting in order to fixing multiple battery can, comprises multiple first plate body and the second plate body.Wherein, each first plate body adjoins along first direction level, and comprises a Part I, two Part II, multiple projection and multiple connectors.

Described Part I has multiple first perforation can passed for each battery can, and each first bores a hole adjacent one another are and arrange along the second direction perpendicular to first direction.

Two Part II are connected to the both sides of Part I, respectively have multiple first recess, and each first recess is positioned at the edge of Part II and arranges along second direction.Each first recess of adjacent each first plate body forms multiple fixing holes that can pass for battery can.

Multiple projection is positioned at Part I, and the edge along each first perforation protrudes the first height towards the direction perpendicular to each first perforation, and extends to the Part II of both sides along first direction, and each connector is arranged at individually the two ends of each Part II along second direction.

Each second plate body is arranged between two adjacent Part II, have and vertically correspond to each fixing hole and multiple second perforation can passed for battery can, each second bores a hole adjacent one another are and arranges along second direction, each second plate body has multiple connecting portion along the two ends of second direction, is connected to each connector.

To sum up, namely a wherein mode of the present invention is the perforation set battery tank by each plate body itself, and each plate body has the connector or connecting portion that can be connected to each other respectively along described second direction two ends, to reach the object of assembling mutually between each plate body.

Accompanying drawing explanation

Fig. 1 is the using state schematic diagram of a specific embodiment of the present invention;

Fig. 2 is the partial exploded view of a specific embodiment of the present invention;

Fig. 3 A is the local constitutional diagram () of a specific embodiment of the present invention;

Fig. 3 B is the local constitutional diagram (two) of a specific embodiment of the present invention;

Reference numeral

1: lithium battery group 11: battery can

2: battery mounting 21: the first plate body

211: Part I 212: Part II

212a: the first recess 213: projection

214: connector 219: the first is bored a hole

22: the second plate bodys 223: par

224: connecting portion 229: the second is bored a hole

23: the three plate bodys 231: Part III

232: Part IV 232a: the second recess

239: the three perforation 91: first direction

92: second direction

Embodiment

Please refer to Fig. 1, be the using state schematic diagram of a specific embodiment of the present invention, it illustrates a kind of lithium battery group 1 of electric motor car, is made up of multiple lithium battery 11 and battery mounting 2.Each lithium battery 11 each other in arrayed, and is fixed together by battery mounting 2.The power resources of electric motor car are directly one another in series from multiple lithium battery 11 or parallel connection, and lithium battery 11 quantity in parallel is more, then the output of vehicle is larger; Lithium battery 11 quantity connected is more, then the endurance of vehicle is higher.

Please refer to Fig. 2, Fig. 3 A and Fig. 3 B, be respectively the partial exploded view of a specific embodiment of the present invention, local constitutional diagram () and local constitutional diagram (two), disclose the local feature of battery mounting 2.Described battery mounting 2 comprises multiple first plate body 21, multiple second plate body 22 and at least one 3rd plate body 23.

As shown in Figure 3A, it illustrates single first plate body 21, single second plate body 22 and single 3rd plate body 23.Again as shown in Figure 3 B, it illustrates single first plate body 21, two the second plate bodys 22 and two the 3rd plate bodys 23.The rest may be inferred, and battery mounting 2 can increase the quantity of fixable lithium battery 11 by the quantity of increase by first plate body 21 and the second plate body 22.

The present embodiment by the first plate body 21 and the second plate body 22 each other combination of interactions constantly can expand along first direction 91,3rd plate body 23 only has side can supply to be connected with the first plate body 21 and the second plate body 22, in order to be arranged on the both sides of battery mounting 2 along first direction 91.

Each first plate body 21 adjoins along first direction 91 level, and comprises a Part I 211, two Part II 212, multiple projection 213 and multiple connectors 214.

Part I 211 has multiple first perforation 219 can passed for each lithium battery 11, and each first perforation 219 is adjacent one another are and arrange along perpendicular to a second direction 92 of first direction 91.

Two Part II 212 are connected to the both sides of Part I 211, and respectively have multiple first recess 212a, each first 212a is positioned at the edge of Part II 212 and arranges along second direction 92.Each first 212a of adjacent each first plate body 21 forms the fixing hole that can pass for lithium battery 11 just.

Multiple projection 213 is positioned at Part I 211, and the edge along each first perforation 219 protrudes the first height towards the direction perpendicular to each first perforation 219, and extends to the Part II 212 being positioned at its both sides along first direction 91.

Each connector 214 is not arranged at the two ends of each Part II 212 along second direction 92.As shown in the figure, the connector 214 of the present embodiment is a clamp hook piece, but the present invention is not as limit.

Each second plate body 22 is arranged between the Part II 212 of two adjacent the first plate bodys 21, it has multiple second perforation 229, vertically correspond to each fixing hole and can pass for lithium battery 11, each second perforation 229 is adjacent one another are and arrange along second direction 92, each second plate body 22 has multiple connecting portion 224 along the two ends of second direction 92, connects each connector 214 being positioned at the first plate body 21 respectively.As shown in the figure, the connector 214 of the first plate body 21 is a clamp hook piece, and the connecting portion 224 of the second plate body is a draw-in groove, and described clamp hook piece can be fastened in this draw-in groove.

3rd plate body 23 level is adjacent to the wherein one of each the first plate body 21, and each 3rd plate body 23 comprises Part III 231 and Part IV 232.Part III 231 has multiple 3rd perforation 239 can passed for each lithium battery 11, and each the 3rd perforation 239 is equidistantly adjacent each other and arrange along second direction 92.Part IV 232 is connected to the side of Part III 231 and thickness is less than Part III 231.Part IV 232 has multiple second recess 232a, and each second recess 232a is positioned at Part IV 232 this side towards the first plate body 21, and arranges along second direction 92.Multiple connector is arranged at individually the two ends of Part IV 232 along second direction 92, and is connected to the connecting portion 224 of the second plate body 22.

In one embodiment, the wherein one of each the second plate body 22 is arranged between Part II 212 and Part IV 232.

In one embodiment, the thickness of the Part II 212 of the first plate body equals the thickness of the Part IV 232 of the 3rd plate body 23, the thickness of the Part I 211 just equaling the first plate body 21 and thickness of the thickness of Part II 212 and the second plate body 22 is added up.

In one embodiment, as shown in Fig. 3 A and Fig. 3 B, each first perforation 219 be circular hole, each projection 213 along the width of first direction 91 be less than each first bore a hole 219 aperture.In addition, each second perforation 229 has a par 223 respectively along the both sides of first direction 91, and when each second plate body 22 is not arranged between two adjacent Part II 212, each par 223 is connected to each projection 213 along first direction 91.

In one embodiment, the center of each first perforation 219 is not superimposed on the straight line that forms along first direction 91 of center of each second perforation 229 along the straight line that first direction 91 is formed.

By changing the number of holes of the first plate body 21 and the second plate body 22, and the first plate body 21 and the second plate body 22 is made to be interconnected the lithium battery 11 expanding and can be used for fixing varying number in first direction 91.In addition, also aforementioned 3rd plate body 23 can be used further, because the 3rd plate body 23 only has wherein side to can be used to be connected to the first plate body 21 and the second plate body 22, other side does not have linkage function, thus each battery mounting 2 only needs use two the 3rd plate bodys 23 usually, makes it in the outermost both sides of battery mounting 2.

Although technology contents of the present invention discloses as above with preferred embodiment; but itself and be not used to limit the present invention; any personnel being familiar with correlation technique; do not depart from of the present invention spirit do a little change and modification; all should be covered by category of the present invention, therefore protection scope of the present invention should be defined by appending claims and is as the criterion.

Claims (9)

1. a battery mounting, is characterized in that, in order to fixing multiple battery can, comprises:

Multiple first plate body, each other along a first direction level connection joint, respectively this first plate body comprises:

One Part I, has multiple first perforation can passed for each this battery can, and those first perforation are adjacent one another are and along the second direction arrangement perpendicular to this first direction;

Two Part II, be connected to the both sides of this Part I, each this Part II has multiple first recess, those first recesses are positioned at the edge of this Part II and arrange along this second direction, and respectively this first recess of adjacent respectively this first plate body forms multiple fixing holes that can pass for this battery can;

Multiple projection, is positioned at this Part I, and the edge along respectively this first perforation protrudes one first height towards the direction perpendicular to respectively this first perforation, and extends to this Part II of both sides along this first direction; And

Multiple connector, be arranged at respectively this Part II along the two ends of this second direction; And

Multiple second plate body, between two adjacent these Part II, this second plate body is set, respectively this second plate body has and vertical corresponds to respectively this fixing hole and multiple second perforation can passed for this battery can, those second perforation are adjacent one another are and arrange along this second direction, respectively this second plate body has multiple connecting portion along the two ends of this second direction, is connected to those connectors.

2. battery mounting according to claim 1, is characterized in that, also comprise at least one 3rd plate body, level is adjacent to the wherein one of those the first plate bodys.

3. want the battery mounting described in 2 according to right, it is characterized in that, the 3rd plate body comprises:

One Part III, has multiple 3rd perforation can passed for each this battery can, and those the 3rd perforation are adjacent one another are and arrange along this second direction;

One Part IV, is connected to the side of this Part III and thickness is less than this Part III, this Part IV has multiple second recess, and those second recesses are positioned at this Part IV towards the side of this first plate body and arrange along this second direction; And

Multiple connector, is arranged at individually the two ends of this Part IV along this second direction, is connected to those connecting portions.

4. want the battery mounting described in 3 according to right, it is characterized in that, the wherein one of those the second plate bodys is arranged between this Part II and this Part IV.

5. want the battery mounting described in 4 according to right, it is characterized in that, the thickness of this Part II equals the thickness of this Part IV.

6. want the battery mounting described in 5 according to right, it is characterized in that, the thickness of the thickness of this Part II and this second plate body and the thickness that equals this Part I.

7. want the battery mounting described in 1 according to right, it is characterized in that, respectively this second perforation has a par respectively along the both sides of this first direction, and when each this second plate body is arranged at individually between two adjacent these Part II, respectively this par is connected to respectively this projection.

8. want the battery mounting described in 1 according to right, it is characterized in that, respectively this first perforation is circular hole, and respectively this projection is less than respectively this first aperture of boring a hole along the width of this first direction.

9. want the battery mounting described in 1 according to right, it is characterized in that, center of respectively this first perforation is not superimposed on along the straight line that this first direction is formed the straight line that those biperforate centers form along this first direction.