DE19828252A1 - Battery case for e.g. electric vehicle, confining coolant flow and eliminating dead spaces - Google Patents

Abstract

Walls of inlet and outlet channels for flows (34, 36) are mutually-parallel and lie opposite the block of cells (12). They form outer casing walls orientated parallel to the coolant flow direction

Description

The invention relates to a battery box with the features the preamble of claim 1.

A battery box of this type is already known; Print in writing but not verifiable, but shown in Fig. 1 as relevant state of the art and explained in the figure description.

In this construction, the one made of a large number is identical Cells existing cell block in cuboid battery box arranged horizontally and essentially bridges the Ab stood between its two box end walls. To do so the entire channel length of the inflow channel and outflow channel one uniform flow of the fluid or approximately the same Volume flow of fluid in between the cells of the cell lenblockes extending flow channels, are the one to form the inflow channel and outflow channel assigned to opposite opposite long sides of the cell block neten, mutually parallel channel wall parts to the cell block in a corresponding slope is provided.

Due to this inclined arrangement of the two duct wall parts are the on both sides, especially above and below the cell block existing spaces of the battery box each in two in the We sub-rooms of equal size, of which the egg ne is therefore not usable, the rectangular box body se contains correspondingly increasing box volume.  

Furthermore, they extend between the cells of the cell block existing and the cooling or tempering fluid leading flow channels perpendicular to the flow direction of the Fluids in the inflow and outflow channels. This is due to the Entry and exit side of the flow channels one order steering angle of the fluid of 90 °. At rela tiv large length of inflow and outflow channel accordingly large pressure loss, which in turn affects the cooling capacity of the Fluids within the cell block adversely. Though these disadvantages could be remedied by the clear cross cut or the height of the inflow and outflow channel would be enlarged speaking, but this would be only by one considerable enlargement of the battery case, especially its Height, to buy.

After all, it did not seem to make sense so far, battery box in the direction of extension of the inflow and outflow channels in a length of more than 400 mm, because in this Case by increasing the length of Zu accordingly flow and outflow channel inevitably not a turn more tolerable pressure loss or a corresponding one poorer cooling performance for cell temperature control would have been.

The invention is based, for a Batterieka the task most with the features of the preamble of claim 1 Specify construction that makes it possible under warranty the necessary air conditioning of the cells of the cell block Reduce installation space of the battery box and / or the number of the cells of the cell block increase significantly without Because of the inevitably associated extension of the Zu flow and the discharge channel in these and in the between Flow channels in the cells have a greater pressure loss to have to accept.

This object is achieved in that the mutually parallel and opposite the cell block, Ka  nalwandteile from inflow and outflow channel to the flow direction of the fluid extend parallel and box outside form walls.

According to the invention, the cell block is based on the Flow direction of the fluid, in the inflow and outflow channels arranged inclined. As a result, the angle of deflection of the fluid is on the confluence of the flow channels on the side of the inflow nals and at their mouth in the outflow channel <90 °. By this streamlined arrangement of the cell block results in terms of flow technology, the advantage of a corresponding reduced pressure loss in the channels or a corresponding one accordingly lower energy consumption, which is achieved by means of lighter and most economical cooling units can be maintained. Here it also offers the option of changing the opening angle from Inflow and outflow channel in the direction of flow of the fluid and to reduce their clear cross-section accordingly.

Furthermore, the invention allows for a cell temperature tion, whose cooling capacity is approximately the same type of battery most corresponds to the mutual cell spacing of the cells block can be chosen smaller, which is a shorter design of the Battery box allowed.

Another essential advantage of the invention is that that the channel wall parts of the cell block opposite Inlet and outlet channels form box outer walls at the same time can and therefore no more dead spaces in the battery box itself available. This makes it possible to de ren cell block as well as their inflow and outflow channel, as is usually preferred, in a common verti calender level to keep the box height extremely low.

Finally, the installation of an or of several cell blocks the number of their cells increases significantly heights, for example, to double, if the inevitably thereby  nothing in the way of the dimensions of the battery box stands.

It is possible to arrange in parallel in battery box to provide two or more cell blocks to one another, whereby the Fluid for tempering the cells of all cell blocks via one lead common inflow and a common outflow can. It is conceivable that these channels together with cell blocks to provide a common horizontal plane. Is preferred however, an arrangement in which the inflow channel below and the outflow channel is provided above the cell blocks and the parallel channel wall parts of inflow and from Ab flow channel through the bottom and the lid of the battery housing are formed.

The cells of the cell blocks preferably have a flat cuboid shaped cell housing, with neighboring cells with the Broad sides of their cell housing each have a flow channel defining, are congruently assigned to each other.

The cells of the cell block can vary in length ren housing side in the flow direction of the fluid or transverse to it extend.

A preferred construction, particularly of such batteries riekasten, in which at least two groups of each other pa parallel cell blocks are provided, the cell lenblocks in groups, each with a bulkhead to accommodate other separate housing chambers. In this case the bulkhead can also be a channel wall part of an inflow channel for the one group of cell blocks and one channel Wall part of an outflow channel for the other group of cells form blocks.

Each block group is thus assigned to one of them Neten inflow and an outflow channel tempered, which opti Male flow conditions for the fluid are guaranteed.  

The cell blocks inclined in the direction of flow can the housing chambers parallel to each other or, based on the Bulkhead, arranged symmetrically.

In the drawing, highly schematic and simplified, illustrates possible embodiments of the invention. It demonstrate:

Fig. 1 is a vertical longitudinal section through a representative of the relevant prior art battery case,

Fig. 2 is a vertical longitudinal section through a first example of an exporting approximately according to the invention designed battery box,

Fig. 3 is a vertical longitudinal section of structural variants of the battery box shown in Fig. 2,

Fig. 4 shows a further vertical longitudinal section of construction variants of the battery box according to Fig. 2 and

FIG. 5 shows a representation similar to FIG. 2, to illustrate a further possible mutual assignment of cells of a cell block.

The battery case shown in FIG. 1 represents a known precursor of the battery case according to the invention according to FIG. 2.

In its cuboid housing 10 lie in a common horizontal plane aa, for example. Two mutually parallel, elongated, elongated cell blocks 12 , which, viewed perpendicular to the plane of the drawing, lie one behind the other.

The cell blocks 12 are each composed of a multiplicity of individual, structurally identical cells 14 designed as electrochemical memories.

The cells 14 each have a flat, cuboidal cell housing 16 , with which they are mutually parallel at a lateral distance and flush or coincident. Since there are between opposite housings broad sides 18 , 20 of adjacent cells 14 each because at least one perpendicular to the flow direction closed flow channel 22nd The cells 14 extend, for example, with their longer narrow sides perpendicular to the drawing plane, with the one end wall 24 of the cell pole 26 being located. The cells 14 of each cell block 12 are electrically connected to one another via cell connectors 28 .

The cell blocks 12 extend along the transverse center of the box housing 10 , so that there are two equally dimensioned housing spaces 30 and 32 above and below the same, in each of which a channel is arranged which extends along the cell blocks 12 and fluidically for cell temperature control are connected to the flow channels 22 . The channel located below the cell blocks 12 forms a fluid flow channel 34 , while the channel provided above it serves as a fluid flow channel 36 .

The temperature of the cells 14 fluid, in particular air, is passed from the outside of the housing into the inflow channel 34 and flows from there via the cell blocks 12 to the flow direction perpendicularly penetrating through-flow channels 22 into the from flow channel 36 , via which it again ge from the box housing 10 is leading. As indicated at 37 , there is a flow deflection by 90 °, which is associated with a corresponding pressure loss.

So that in the time unit each flow channel 22 has the same volume flow rate of wesentli Chen, the clear cross section of the inflow channel 34 is narrowed in the flow direction of the fluid and, analogously to this, the clear cross section of the outflow channel 36 in the flow direction of the fluid accordingly expanded.

For this purpose, the channel wall part 38 and 40 of the inflow channel 34 and outflow channel 36 opposite the cell blocks 12 is formed by a diagonally extending plate in the respective housing space 30 and 32 , which are assigned to one another in parallel within the box housing 10 and from their arrangement Below or above the channels 34 and 36 dead spaces 30 'and 32 ' and the disadvantages explained in the introduction to the description result.

The design of such a battery case modified according to the invention will now be described below with reference to FIG. 2, the same components of both constructions being designated with the same reference numbers. In this construction, the cell blocks 12 opposite, parallel channel wall parts of inflow and outflow channels 34 , 36 are each formed by a box outer wall, preferably the box bottom 42 and the upper box wall 44 , the latter preferably being formed by a box lid. This requires, in view of the narrowing or widening clear cross section of the inflow channel 34 and outflow channel 36 in the direction of flow of the fluid, a correspondingly inclined arrangement of the cell blocks 12 and thus the flow channels 22 in the flow direction (flow lines 46 ) of the fluid with which As a result, the deflection angle of the fluid on the inlet and outlet side of the throughflow channels (at 37 ) is <90 °.

Preferably, the housing end walls 48 and 50, together with the adjacent broad side 18 and 20 of the two end cells 14 of the cell blocks 12, likewise each delimit a flow channel 22 .

As a comparison of the battery box according to FIGS. 1 and 2 shows, the inclined arrangement of the cell blocks 12, in addition to a considerably reduced pressure loss in the through-flow channels 22 , allows among other things both the overall height and the installation space of the battery box and thereby the material expenditure to be reduced considerably, which in turn a reduction in the box weight he possible.

In the battery box shown in Fig. 3, for example, two groups of cell blocks 12 are provided in the battery housing 52 in mutually parallel inclined arrangement one above the other, the inclined arrangement and the formation and mutual arrangement of the cells 14 of the cell blocks 12 of those of the cell lenblock 12 in the battery box corresponds to FIG. 2.

A between the two groups of cell blocks 12 vorgese hen and to the lower and upper housing walls 54 , 56 arranged in parallel bulkhead 58 also forms the lower cell blocks 12 seen in the vertical direction opposite channel wall part of the outflow channel 36 and the corresponding channel wall part of the inflow channel 34th of the upper cell blocks 12 .

Fig. 4 shows a possible design variant of the battery box according to FIG. 3, in which the two groups of cells blocks 12 , based on the bulkhead 58 , are symmetrically angeord net.

Fig. 5 shows a further possible structure of a cell block 12 for use in the battery box according to FIGS . 2 to 4.

The formation of the individual cells 14 corresponds to that of FIGS . 2 to 4; they are therefore, like the cell housing, with the reference numerals used in Fig. 2 be.

The flat cuboid cells 14 of the cell blocks 12 erstrec ken in this case with their longer side of their cell housing 16 obliquely to the flow direction of the fluid in the flow and in the outflow channel 34 and 36 .

The cell blocks 12 are constructed, for example, by three cell groups 62 , which in turn are formed by individual cells 14 , the mutual assignment and electrical connection of which can be made as disclosed, for example, in DE 195 04 687 C1, FIGS. 1 and 2 is.

Claims (9)

1. Battery box with a plurality of structurally identical, electro-chemical memories, the pole side electrically interconnected cells ( 14 ) which are aligned in alignment with one another and together form at least one elongated cell block ( 12 ) defined in the battery box, which forms the is arranged between an inflow channel ( 34 ) and an Abströmka channel ( 36 ) and each of which a channel wall part of this extends in the longitudinal direction of the cell block ( 12 ) forms the channels ( 34 , 36 ) and in the adjacent cells ( 14 ) by at least one Flow channel ( 22 ) are separated from one another, via which the inflow and outflow channels ( 34 and 36 ) are fluidly connected to one another, the channel wall parts of the inflow and outflow channels ( 34 , 36 ) opposite the cell block ( 12 ) being parallel to one another are and the inflow channel ( 34 ) in the flow direction of this one, the flow channels ( 22 ) so as the outflow channel ( 36 ) flow through the fluid and the outflow channel ( 36 ) widens in the direction of flow of the fluid, characterized in that the mutually parallel and the cell block ( 12 ) opposite channel wall parts of the inflow channel ( 34 ) and outflow channel ( 36 ) he stretch parallel to the flow direction of the fluid and form box outer walls ( 42 , 44 ). 2. Battery box according to claim 1, characterized in that a flat cuboid cell housing ( 16 ) have the cells ( 14 ) with the broad sides of their cell housing ( 16 ) adjacent and are congruently assigned to each other and that adjacent broad sides of cell housings ( 16 ) each at least limit a flow channel ( 22 ) that is closed transversely to the direction of flow. 3. Battery box according to claim 2, characterized in that the each end of the cell block ( 12 ) adjacent walls de ( 48 , 50 ) of the battery box to the adjacent, end-side cell ( 14 ) of the cell block ( 12 ), together with this at least one Flow channel ( 22 ) defining, are parallel. 4. Battery box according to claim 2 or 3, characterized in that the cells ( 14 ) of the cell block ( 12 ) with their length longer housing side transverse to the flow direction of the fluid in the flow and in the outflow channel ( 34 or 36 ). 5. Battery box according to claim 2 or 3, characterized in that the cells ( 14 ) of the cell block ( 12 ) extend obliquely to the direction of flow of the fluid in the inflow and outflow channels ( 34 and 36 ) with their length longer housing side. 6. Battery box according to one of the preceding claims, characterized in that the mutually parallel channel wall parts of inflow and outflow channel ( 34 , 36 ) through the bottom ( 42 ) and a cover ( 44 ) of the battery box are formed. 7. Battery box according to one of the preceding claims, characterized in that within the battery box at least two cell blocks ( 12 ) or at least two groups of mutually parallel cell blocks ( 12 ) are arranged, each of which is housed in a separate housing chamber by a bulkhead ( 58 ) are which bulkhead ( 58 ) also a channel wall part to form an inflow channel ( 34 ) for one of the cell blocks ( 12 ) or for a group of cell blocks ( 12 ) and egg NEN wall part to form an outflow channel ( 36 ) for the other cell block (12) or blocks of the other group of cells (12). 8. Battery box according to claim 7, characterized in that the cell blocks ( 12 ) are arranged in parallel in both housing chambers. 9. Battery box according to claim 7, characterized in that the cell blocks ( 12 ) provided in both housing chambers are arranged symmetrically with respect to the bulkhead wall ( 58 ).