DE202010000213U1 - Power supply device in the form of a single cell or a battery consisting of several electrically interconnected single cells - Google Patents

Abstract

Power supply device in the form of - a cell or - a battery, consisting of a plurality of individual cells which are inserted into a battery housing and are electrically connected to one another and which is or are washed around for the temperature control by a temperature control medium, characterized in that each cell is inserted in a cooler housing, the Housing jacket (5) for forming an annular gap surrounding a cell (1) is at a distance from the outer jacket of the cell (1), and that air inlet channels and air outlet channels (11) open into the annular gap.

Description

The invention relates to a power supply device according to the preamble of claim 1.

In the case of power supply cells, for example based on nickel-metal hydride or lithium, in particular if they are composed to form a battery, in particular a motor vehicle battery, into a composite of a multiplicity of individual cells, there is the need for active cell or battery cooling.

In the DE 601 24 634 T2 (ex EP 1 178 558 ) is described as belonging to the prior art, a cooling system for a power supply device for a motor vehicle. This cooling system comprises a housing accommodating a large number of individual cells with air inlets arranged in the region of the housing bottom and air outlets located at the top of the housing. In order to ensure the most uniform possible cooling of the individual cells, cooling adjustment ribs are arranged within the housing such that the speed of the cooling air from the housing bottom to the housing top side is greater.

Another in this document treated power supply device includes a plurality of arranged in upper and lower rows of individual cells which are inserted into a block containing a plurality of air gaps such that around the individual cells air channels for the individual cells flowing around cooling air are formed. The cooling air flows into a located in the top of the block air inlet duct, to which the air gaps and thus the individual cells surrounding cooling channels are connected. The cooling air flows through the block receiving the individual cells substantially in "parallel connection" and leaves this block through an air outlet channel, which runs essentially parallel to the air inlet channel. Apart from the fact that the block with the cooling channels surrounding the individual cells is structurally very complicated, no uniform cooling of all individual cells is guaranteed here if a plurality of rows of single cells are arranged in the block between the air inlet duct and the air outlet duct.

In the DE 102 02 807 B4 For temperature control of high-performance secondary batteries for vehicle applications, a device is described in which a temperature control medium flows for cooling or heating through the interior of each cell.

The invention has for its object to provide a device to provide with improved efficiency, a power supply device, in particular in the form of a single cell or a plurality of electrically interconnected single cells existing battery to achieve improved efficiency, a uniform and sufficient temperature, especially cooling can ,

To solve this problem, the device according to the invention is characterized by the features of the characterizing part of claim 1, d. H. the essential feature of the invention is that each individual cell is housed by itself in a substantially closed radiator housing, which is provided with air inlet and outlet ducts.

Preferred embodiments are treated in the subclaims.

The invention will be described in more detail below with reference to the drawing:

The 1 and 2 show in isometric view an exploded view of a single cell with various cooler housing elements;

3 is an isometric view of a composite of several individual cells battery with individual supply of the radiator housing via a hose system;

4 is an isometric view of a composite of several individual cells battery with cooling air supply to the radiator housing via a compressed air chamber.

5 shows an isometric view of a composite of several individual cells battery with cooling air supply to the radiator housing via a distributor plate.

The term "cooling" is generally representative of the term "tempering", since it can often be useful for cold start in cold environment often to supply the individual cells to protect and extend the life hot air or hot air.

For a better understanding of the invention, this will be described with reference to FIGS 1 using a two cell poles 2 and 3 having single cell 1 described in the in 2 shown manner is inserted into a radiator housing. The radiator housing consists essentially of a cell 1 leaving an annular gap 4 surrounding housing jacket 5 as well as an upper locking ring 6 and a lower locking ring 7 ,

The cells 1 may have circular, rectangular, in particular square or polygonal, oval or other cross sections.

The upper locking ring 6 is for the inflow of cooling air with a preferably axially extending supply air opening 6.1 provided in one to the bottom of the locking ring 6 open annular channel opens, preferably inwardly by means of one on top of the cell 1 resting O-rings 8th and on the outside by a on the outer edge of the housing shell 5 lying O-ring 9 is sealed.

In the upper end of the annular gap, a ring is inserted, which is provided with a plurality of circumferentially distributed air inlet channels, which establish a connection between the annular channel and the annular gap.

The lower locking ring 7 is with subsequent to the annular gap air outlet channels 11 provided, such that the air flows through the radiator housing from top to bottom.

An O-ring 13 between the locking ring 7 and the cell and an O-ring 14 between the lower edge of the housing shell 5 and the lock ring 7 prevent a lateral outflow of cooling air.

The lower locking ring 7 is distributed over its circumference with, for example, three supports 12 as a support for a cell 1 Mistake.

The total opening cross section of the air inlet ducts opening into the annular gap is equal to or greater than the total opening cross section of the air outlet ducts 11 in such a way that, if necessary, a certain overpressure can build up within the annular gap.

In the in the 3 to 5 shown, several cells 1 containing batteries 20 respectively. 30 respectively. 40 are the cells 1 with the radiator housings receiving them on supports of the floor panels 21 respectively. 31 respectively. 41 turned off, as it is z. B. for the bottom plate 21 in the 6 and 6A is shown.

The construction and the concept of the floor slab 21 in association with the lower ends of each housing shell 5 and every cell 1 corresponds essentially to the lower locking ring 7 ,

The batteries 20 . 30 and 40 are above the cells 1 each with a cover plate 26 respectively. 36 respectively. 46 provided for each individual cell into an annular gap between a cell 1 and a housing shell 5 opening supply air opening 26.1 respectively. 36.1 respectively. 46.1 having.

The floor plates 31 and 41 and the cover plates 36 and 46 the batteries 30 and 40 are designed in the same way as the bottom plate 21 and the cover plate 26 ,

In 3 correspond to the supply air openings 26.1 the cover plate 26 the supply air opening 6.1 according to 1 ,

At the in 3 illustrated battery 20 the coolant supply takes place by means of a hose system 22 that a main line 23 and branching off to the supply air openings 26.1 leading branch lines 24 contains.

At the in 4 illustrated battery 30 the individual cells are in a compressed air chamber sealed to the outside 32 accommodated. The through an air inlet 33 supplied cooling air is distributed within the pressure chamber and passes through the supply air 36.1 into the respective annular gaps surrounding the cells.

At the in 5 illustrated battery 40 the cooling air supply of the annular gaps surrounding the individual cells takes place by means of a cover plate 46 overlying distributor plate 42 that one to the Zuluftöffnungen 46.1 leading channel system 42.1 having outgoing therefrom, not shown bores, in the Zuluftöffnungen 46.1 lead. The at the top of the distributor plate 42 attached canal system 46.1 is by means of a cover plate 43 locked.

Since several individual cells combined to form a battery heat them differently depending on their local position, a control device, not shown, is assigned to the air distribution and air supply system such that each individual cell can be supplied with cooling air quantities matched to its cooling requirement.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 60124634 T2 [0003]
• EP 1178558 [0003]
• DE 10202807 B4 [0005]

Claims (15)

Power supply device in the form - a cell or - a battery consisting of several used in a battery case, electrically interconnected single cells, which is lapped for controlling a temperature control medium or be, characterized in that each cell is used for itself in a radiator housing whose Housing jacket ( 5 ) to form a cell ( 1 ) surrounding annular gap at a distance from the outer jacket of the cell ( 1 ) and that in the annular gap air inlet ducts and air outlet ducts ( 11 ). Apparatus according to claim 1, characterized in that the air inlet ducts at the one radiator housing end and the air outlet ducts ( 11 ) is disposed at the opposite radiator housing end. Device according to claim 1 or 2, characterized by one of the upper and lower ends of each annular gap ( 4 ) closing closure device ( 6 . 7 respectively. 21 . 26 respectively. 31 . 36 respectively. 41 . 46 ). Device according to one of claims 1 to 3, characterized in that the air inlet ducts are connected to an annular channel into which a supply air opening ( 6.1 ) opens. Apparatus according to claim 4, characterized in that the upper closure device preferably in the form of a on the housing shell ( 5 ) attached lock ring ( 6 ), and that the lower closure means preferably also as a locking ring ( 7 ) is trained. Apparatus according to claim 3, characterized in that the upper and lower closure means sealing rings ( 8th . 9 respectively. 13 . 14 ) assigned. Apparatus according to claim 1 or 2, characterized in that in each annular gap ( 4 ) a plurality of circumferentially distributed air inlet ducts and air outlet ducts ( 11 ). Device according to one of claims 1 to 7, characterized in that the total opening cross section of the opening into the annular gap air inlet ducts equal to or greater than the total opening cross section of the adjoining the annular gap air outlet ducts ( 11 ). Apparatus according to claim 3, characterized in that each lower closure means radially inwardly directed supports ( 12 ) as a support for each cell ( 1 ) having. Device according to one of claims 1 to 9, characterized by a plurality of housing sheaths ( 5 ) fitted cover battens ( 26 respectively. 36 respectively. 46 ), for each cell ( 1 ) an air inlet opening ( 26.1 respectively. 36.1 respectively. 46.1 ) for introducing temperature control medium in between the cells ( 1 ) and the housing mantles ( 5 ) has formed annular gaps. Apparatus according to claim 10, characterized in that the supply air openings ( 36.1 ) within a compressed air chamber ( 32 ) into which an air inlet opening ( 33 ) opens. Apparatus according to claim 10, characterized in that a connected to a cooling air supply source channel system with a plurality of in the air inlet openings ( 26.1 respectively. 46.1 ) individual channels is provided. Apparatus according to claim 12, characterized by a on the cover plate ( 46 ) lying distributor plate ( 42 ), one to the supply air openings ( 46.1 ) leading channel system ( 42.1 ) with adjoining bores, which are in the Zuluftöffnungen ( 46.1 ). Apparatus according to claim 13, characterized in that the channel system ( 42.1 ) at the top of the distributor plate ( 42 ) and by a cover plate ( 43 ) is closed. Device according to one of claims 10 to 14, characterized by an air distribution and supply system with associated control device, such that each individual cell can be supplied to their cooling demand coordinated amounts of cooling air.

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