DE102020107727A1 - Battery module for a battery of a motor vehicle, battery and motor vehicle - Google Patents

Abstract

The invention relates to a battery module (2) for a battery of a motor vehicle with at least two interconnected cell packs (1) each having at least two interconnected round cells (4) and an integrally formed cell holder (3) which is attached to an upper side (5) and a Underside (6) each has at least one cylindrical segment-shaped receiving area (7) extending along a longitudinal direction (L) of the round cells (4) into which the round cells (4) are inserted and which are more than Extend 180 ° over a circumference of the round cells (4), the battery module (2) having a slot-like module housing (22) which has two housing parts (23, 24) in the form of a lower part (23) and an upper part (24) and in which the at least two cell stacks (1) are arranged one behind the other in the longitudinal direction (L), the housing parts (23, 24) each extending at least one along the longitudinal direction (L) has stretching, cylindrical segment-shaped recess (26) which extend less than 180 ° over the circumference of the round cells (4), so that the housing parts (23, 24) and the cell holder (3) form respective hollow cylindrical sheaths for the round cells (4), and wherein the housing parts (23, 24) have integrated cooling channels (28) for cooling the round cells (4) in the longitudinal direction (L).

Description

The invention relates to a battery module for a battery of a motor vehicle with at least two interconnected cell packs. The cell packs each have at least two interconnected round cells as well as an integrally formed cell holder, which on an upper side and a lower side has at least one cylindrical segment-shaped receiving area extending along a longitudinal direction of the round cells, into which the round cells are inserted and which are used to hold the Round cells extend more than 180 ° over a circumference of the round cells. The invention also relates to a battery and a motor vehicle.

In the present case, the interest is directed towards batteries for electrically drivable motor vehicles, for example battery-electrically operated vehicles, so-called BEVs, hybrid vehicles, so-called HEVs, or fuel cell vehicles, so-called FCEVs. The batteries usually have at least one battery module with several interconnected battery cells, for example round cells. One challenge here is to arrange the battery modules as safely, space-savingly and in a high packing density as possible in an available installation space in the motor vehicle, and to be able to cool the round cells of the battery modules as well as possible.

From the DE 10 2012 217 041 A1 a cell holding module for at least one electrical energy storage cell is known for this purpose. The cell holding module has a module body device with a module area which has at least one cell receiving recess for receiving and holding the at least one electrical energy storage cell. In addition, the module body device has an electrical connection area with at least two electrical pole connections and a coolant connection area with at least one coolant inlet for supplying a coolant and at least one coolant outlet for discharging the coolant.

The object of the present invention is to provide a solution as to how round cells of a battery module for a battery of a motor vehicle can be arranged and efficiently cooled in a safe, simple and space-saving manner.

According to the invention, this object is achieved by a battery module, a battery and a motor vehicle having the features according to the respective independent claims. Advantageous embodiments of the invention are the subject matter of the dependent claims, the description and the figures.

A battery module according to the invention for a battery of a motor vehicle has at least two interconnected cell packs. The cell packs have at least two interconnected round cells and a one-piece cell holder. The cell holder has on an upper side and an underside in each case at least one cylindrical segment-shaped receiving area extending along a longitudinal direction of the round cells. A round cell is inserted into each receiving area, the respective receiving area for holding the round cell extending more than 180 ° over a circumference of the round cell. In addition, the battery module has a shaft-like module housing which has two housing parts in the form of a lower part and an upper part and in which the at least two cell packs are arranged one behind the other in the longitudinal direction. The housing parts each have at least one cylinder segment-shaped depression extending along the longitudinal direction. Each recess extends less than 180 ° over the circumference of the round cell, so that the housing parts and the cell holder form respective hollow-cylindrical sheaths for the round cells. In addition, the housing parts have integrated, longitudinally extending cooling channels for cooling the round cells.

The round cells are cylindrical, rechargeable battery cells or accumulator cells, each of which has a longitudinally extending, cylindrical cell jacket and two longitudinally opposite, round cell covers in the form of a housing cover and a housing base. The round cells each have two cell poles or cell terminals for contacting the round cells, which are arranged together on one of the cell covers or on both cell covers. At least two round cells, in particular at least four round cells, are packaged to form the cell packet and interconnected with one another.

The cell holders, which are made of an electrically insulating material, are provided to hold the round cells. For example, each cell holder can be a plastic part and manufactured by injection molding. The cell holder has the top and the bottom opposite the top. In addition, the cell holder has two side regions extending in the longitudinal direction, perpendicular to the longitudinal direction, opposite one another in the width direction. The cell holder also has two end faces extending in the width direction and opposite one another in the longitudinal direction. A length of a cell holder corresponds in particular to a length of the round cells.

Both in the upper side and on the lower side, at least one receiving area is designed as a groove-like depression or recess. In particular, at least two receiving areas running parallel to one another and extending in the longitudinal direction are arranged in each case in the upper side and the lower side. The receiving areas extend along the longitudinal direction, parallel to the side areas, from one end face to the other end face of the cell holder, so that when the round cells are arranged in the receiving areas, the cell covers of the round cells are arranged and accessible on the end faces of the cell holder. In the case of at least two receiving areas on the top and the bottom, the receiving areas on the top and the receiving areas on the underside are, in particular, arranged offset to one another in the width direction. Thus, web-like wall areas of the cell holder between the receiving areas of the top and the bottom can be designed to be particularly narrow, which advantageously results in a particularly compact cell holder with small external dimensions.

The receiving areas are designed in the shape of cylinder segments and are accessible via slot-like openings extending in the longitudinal direction on the upper side and the lower side of the cell holder, which have an opening angle of less than 180 °. Thus, the round cells can be inserted into the receiving areas via the openings and, in the inserted state, are surrounded by the cell holder along the circumferential direction over more than half of the circumference.

A partial area of the round cells protrudes beyond the openings of the receiving areas from the receiving areas. At least one wall area of the cell holder adjoining a receiving area is preferably designed to be reversibly bendable, so that the round cells can be inserted into the receiving area via the opening of the receiving area running along the longitudinal direction. When plugging in, the at least one wall area of the receiving area is bent to the side so that the round cell can be inserted into the receiving area. After insertion, the at least one wall area bends back again and holds the round cell in the receiving area of the cell holder. In particular, the round cells are not pushed into the receiving areas via an end face of the cell holder, but rather are inserted via the openings in the top and bottom. Because the wall areas of the receiving areas enclose more than half of the circumference of the round cells, the round cells can be reliably held in the cell holder. In addition, the round cells can also be held in the receiving area by means of an adhesive.

The round cells of a cell package are connected to one another in series and / or in parallel. For this purpose, a cell contact system for interconnecting the round cells of a cell package can be arranged on at least one end face of the cell holder. In the event that the cell poles are arranged on a cell cover of the round cells, the cell contact system is arranged on that end face of the cell holder on which the cell cover with the cell poles is located. In the event that the cell poles are arranged on opposite cell covers, a cell contact system is arranged on the opposite end faces of the cell holder. In the event that the round cells of a cell package are to be connected in parallel, the cell contacting systems can be designed as electrically conductive contact plates which are arranged on the front and back of the cell package and thus rest against the cell poles of the round cells. At least two cell packs are lined up one behind the other and arranged in the shaft-like module housing, the interconnection of round cells of a cell pack being interconnected with the interconnection of round cells of at least one further cell pack. In order to interconnect the cell packs arranged one behind the other with the parallel connections of round cells, for example in series, the cell packs can be arranged in the module housing in such a way that the cell contact system of one cell pack is arranged adjacent to the cell contact system of another cell pack.

The shaft-like module housing has the two housing parts in the form of the lower part and the upper part, which when assembled form a module housing cover that overlaps the top of the cell holder, a module housing base that overlaps the underside of the cell holder, and two module housing side walls that overlap the side areas of the cell holder. The lower part and the upper part are designed in particular as identical parts, that is to say structurally identical. The module housing is designed to be open on the front and rear, so that the cell poles of the cell pack arranged on the front and the cell pack arranged on the rear are accessible and contactable, for example by means of an end contact plate. The end contact plates can, for example, have module connections for interconnecting a plurality of battery modules. The housing parts can be hingedly connected by a hinge. In a further development of the invention, the housing parts each have at least one tubular socket on a side edge extending in the longitudinal direction, the sockets of the housing parts being aligned with one another in the assembled state of the module housing and a locking pin for connecting the housing parts and thus for closing the module housing is pushed through the tubular sockets. Such a closure the module housing can be implemented particularly easily. In addition, the module housing can be opened again by removing or pulling the locking pin out of the sockets.

The module housing also has groove-like depressions or recesses on an inner side, in which the partial areas of the round cells protruding from the openings of the receiving areas can be arranged. Each round cell is encased by the cell holder and a housing part of the module housing in that the receiving area of the cell holder and the recess of the housing part form the cylindrical casing for the cell jacket of the round cell. The round cells are arranged horizontally and in two layers in the module housing. At least one lower round cell is arranged between the underside of the cell holder and the lower part of the module housing and at least one upper round cell is arranged between the upper side of the cell holder and the upper part of the module housing. An insulating layer, which is electrically insulating and thermally conductive, can also be arranged between the round cells and the module housing.

Furthermore, the module housing has the cooling channels, which are designed as passage openings in the housing parts and through which a coolant can flow. The cooling channels extend along the round cells through the housing part and thus cool a housing jacket of the round cells. The module housing is designed in particular as an extruded profile, for example made of aluminum, so that the cooling channels are formed by extrusion. It can be provided that the cooling channels are arranged in intermediate wall areas between the depressions. The battery module has in particular two distributor pieces and two collector pieces. In each case a distributor piece and a collector piece are arranged at one end or at opposite ends of the battery module in the longitudinal direction and are fluidically connected to cooling duct openings of the cooling ducts. For example, the cooling channels of the upper part and the lower part can be fluidically coupled to a distributor piece, via which the coolant is supplied to the cooling channels, and to a collector piece, via which the coolant is removed from the cooling channels. It can also be provided that a thermally conductive, electrically insulating paste is arranged between the round cells and the housing parts. In this way, the thermal resistance between the round cells and the housing parts can be reduced and the round cells can be cooled particularly effectively.

The module housing can also have positioning aids on an outside, by means of which a plurality of module housings and thus a plurality of battery modules can be stacked on top of one another. The positioning aids can, for example, interlock according to the tongue and groove principle. For example, the upper parts of the module housing can have springs and the lower parts of the module housing can have grooves. The springs of a module housing can thus be arranged in the grooves of a module housing arranged above.

It proves to be advantageous if the two longitudinally extending side areas of the cell holder that are opposite one another in the width direction have through openings and the battery module has rod-like tie rods which are pushed through the through openings to hold the cell packs arranged one behind the other in the longitudinal direction together. The cell holders arranged one behind the other are therefore threaded onto the rod-like tie rods by arranging the through openings of the cell holders in alignment with one another and inserting the tie rods through the through openings. The cell packs are clamped or pressed together by the tie rods.

It proves to be advantageous if the end face (s) of the cell holder on which the at least one cell contacting system is arranged. Have positioning aids for the cell contact system. In particular, the end faces have plug-in openings as the positioning aids, the at least cell contacting system having pin-like positioning elements which are plugged into the plug-in openings. The plug-in openings are in particular blind holes in the end faces of the cell holder, into which the pin-like positioning elements are inserted. The at least one cell contact system can thus be easily positioned by plugging it together with the at least one end face of the cell holder.

The invention also relates to a battery for a motor vehicle with at least one battery module according to the invention. A motor vehicle according to the invention comprises a battery according to the invention. The motor vehicle can be designed, for example, as a battery-electric vehicle, a hybrid vehicle or a fuel cell vehicle. The battery is arranged in particular under a rear seat bench of the vehicle and has a plurality of battery modules stacked on top of one another in the vertical direction of the vehicle. The shaft-like module housings allow the battery modules to be stacked on top of one another in a simple and space-saving manner.

The embodiments presented with reference to the battery module according to the invention and their advantages apply accordingly to the battery according to the invention and to the motor vehicle according to the invention.

Further features of the invention emerge from the claims, the figures and the description of the figures. The features and combinations of features mentioned above in the description as well as the features and combinations of features mentioned below in the description of the figures and / or shown alone in the figures can be used not only in the respectively specified combination, but also in other combinations or on their own.

• 1 eine schematische Darstellung eines Zellpakets eines Batteriemoduls;
• 2 eine schematische Darstellung eines Zellhalters des Zellpakets;
• 3 eine schematische Darstellung eines mit Rundzellen bestückten Zellhalters;
• 4 eine schematische Darstellung mehrerer, aufgereihter Zellpakete;
• 5 eine schematische Darstellung eines Modulgehäuses des Batteriemoduls;
• 6 eine schematische Darstellung der Zellpakete in dem Modulgehäuse;
• 7 eine schematische Darstellung des Batteriemoduls; und
• 8 eine schematische Schnittdarstellung eines Teilbereiches des Batteriemoduls.

The invention will now be explained in more detail using a preferred exemplary embodiment and with reference to the drawings. Show:

• 1 a schematic representation of a cell pack of a battery module;
• 2 a schematic representation of a cell holder of the cell packet;
• 3 a schematic representation of a cell holder equipped with round cells;
• 4th a schematic representation of several lined up cell packets;
• 5 a schematic representation of a module housing of the battery module;
• 6th a schematic representation of the cell packs in the module housing;
• 7th a schematic representation of the battery module; and
• 8th a schematic sectional view of a partial area of the battery module.

Identical and functionally identical elements are provided with the same reference symbols in the figures.

1 shows a cell package 1 for one battery module 2 , which is for example in 6th and 7th is shown. The battery module 2 can be used with other identical battery modules 2 be connected to a battery for an electrically drivable motor vehicle. The cell package 1 has a cell holder 3 on which in 2 is shown. The cell holder 3 is made of an electrically insulating material, for example plastic, and is used to hold cylindrical battery cells or round cells 4th (please refer 1 and 3 ) of the battery module 2 . In the present case, the cell packet 1 eight round cells 4th up, the cell holder 3 can for example be an injection molded part. The cell holder 3 has a top 5 and a bottom 6th on. The top 5 and the bottom 6th each have four cylinder segment-shaped receiving areas 7th on, which extends along a longitudinal direction L of the round cells 4th between end faces 8th of the cell holder 3 extend and which are arranged in a width direction B perpendicular to the longitudinal direction L next to one another. The one at the top 5 arranged recording areas 7th are open at the top and the receiving areas arranged on the underside 7th are open at the bottom. The recording areas 7th thus have a slot-like, elongated opening 9 on which the round cells 4th in the recording areas 7th can be plugged in. The one at the top 5 arranged recording areas 7th are offset in width direction B to those on the bottom 6th arranged recording areas 7th arranged.

The cell holder 3 surrounds the round cells 4th over more than 180 °, but less than 360 °, of a circumference of a cylindrical cell jacket 10 of the round cells 4th so that the round cells 4th in the reception areas 7th are clamped. In addition, a radius of curvature corresponds to the cylindrical segment-shaped receiving areas 7th a radius of curvature of the round cells 4th so that the cell holder 3 over the entire surface of the round cells 4th is present. In addition, the round cells 4th also by means of an adhesive in the receiving areas 7th be glued in. Around the round cells 4th over the openings 9 in the recording areas 7th Being able to plug in is at least one of the receiving areas 7th adjoining wall area 11 of the cell holder 3 reversibly bendable. This wall area 11 in particular has a small thickness through which the wall area 11 is flexible or elastic and when inserting the round cell 4th can be bent to the side. After arranging the round cell 4th in the recording area 7th can be the wall area 11 Bend back again so that the wall area 11 on the cell jacket 10 and the round cell 4th in the recording area 7th holds.

Part of the round cells 4th protrudes over the opening 9 from the respective recording area 7th out. The recording areas 7th extend over an entire length of the round cells 4th , being a length of the cell holder 3 in the longitudinal direction L the length of the round cells 4th is equivalent to. On the front sides 8th of the cell holder 3 are round cell housing covers 12th of the round cells 4th exposed so that the cell poles of the cell housing covers 12th for contacting the round cells 4th are accessible. Both cell poles can either be attached to one of the cell housing covers 12th a round cell 4th be arranged. Alternatively, one cell pole can be attached to a cell housing cover 12th be arranged so that the cell poles of a round cell 4th opposite in the longitudinal direction. The cell packet has to contact the cell poles 1 Cell contact systems 13th on which on the front sides 8th of the cell holder 3 and are arranged on the cell poles. In the present case, the eight round cells 4th a cell packet 1 can be connected in parallel. The cell contact systems 13th as electrically conductive contact plates 14th , for example punched sheets, be designed, which are electrically and mechanically connected to the cell poles. In the present case, the contact plates are 14th congruent with the end faces of the with round cells 4th equipped cell holder 3 educated. The cell contact system 13th but can depending on the interconnection of the round cells 4th have a different shape. For positioning the cell contact systems 13th on the round cells 4th are here on the front sides 8th of the cell holder 3 Positioning aids 15th in the form of blind hole-like plug-in openings 16 arranged, which with positioning pins, not shown here, of the cell contacting systems 13th can be plugged together.

For forming the battery module 2 become, as in 4th shown several cell packets 1 lined up one behind the other in the longitudinal direction L. For this purpose, side areas extending in the longitudinal direction L have side areas 17th the cell holder 3 as well as the contact plates 14th the cell contact systems 13th Through openings 18th on. Through every passage opening 18th can be a rod-like tie rod 19th are passed through so that the cell packets 1 about the tie rods 19th can be threaded and braced. On a first and a last cell packet 1 in the series of cell pacts 1 are end contact plates 20th with module connectors 21 arranged over which several battery modules 2 can be electrically interconnected with each other. At the end contact plates 20th are also the tie rods 19th attached so that the cell packets 1 are braced and fixed to each other. The cell packets 1 are also interconnected, for example in series. For example, the contact plates 14th two neighboring cell packets 1 are arranged adjacent to each other and the cell packets 1 through the tie rods 1 are pressed together.

The tensioned cell packets arranged one behind the other 1 are in a module housing 22nd inserted, which in the open state in 5 is shown. The in the opened module housing 22nd inserted cell packs 1 are in 6th shown. The module housing 22nd has two housing parts 23 , 24 in the form of a base 23 and a top 24 on which folds over a hinge 25th are connected. The lower part 23 and the top 24 have cylindrical segment-shaped depressions 26th on which the out of the openings 8th protruding parts of the round cells 4th surround. The depressions 26th surround the circumference of the round cells 4th less than 180 ° but more than 0 °. The depressions 26th in the housing parts 23 , 24 and the recording areas 7th the cell holder 3 form cylindrical receiving chambers for the round cells 4th , which are the round cells 4th in the assembled or folded state of the housing parts 23 , 24 , as in 7th shown sheathing. The assembled housing parts 23 , 24 form the slot-like module housing, which is open on the front and back 22nd from which the round cells 4th are arranged in a particularly compact and space-saving manner. To the case parts 23 , 24 To keep them in the collapsed condition, they can have respective tubular bushings 27 have, which in the folded state of the housing parts 23 , 24 are arranged in alignment with one another and through which a locking pin, not shown here, can be pushed.

The housing parts 23 , 24 also have integrated cooling channels 28 on, which act as passage openings through the housing parts 23 , 24 in the longitudinal direction L parallel to the depressions 26th extend. The cooling channels 28 are based on a sectional view through the battery module 2 in 8th shown. In particular, the cooling channels extend 28 through partition areas 29 between the wells 26th . So they have a particularly small distance to the round cells 4th so that they can be cooled particularly well. On the front and back of the battery module 2 are distribution pieces 30th and collectibles 31 arranged over which the cooling channels 28 a coolant can be supplied and removed again. The distributor pieces 30th and the collectibles are formed from T-shaped sections. The cooling channels 28 of the lower part 23 are with a lower manifold 30th and a lower collector's item 31 fluidically coupled. Via the lower distributor piece 30th becomes the cooling ducts 28 of the lower part 23 a coolant is supplied and via the lower header 31 removed again. The cooling channels 28 of the top 24 come with an upper distributor 30th and a top collector's item 31 fluidically coupled. Via the upper distributor piece 30th becomes the cooling ducts 28 of the top 24 a coolant is supplied and via the upper header 31 removed again. The distributor pieces 30th and collectibles 31 several battery modules 2 can be fluidically coupled to one another and connected to a cooling circuit of the motor vehicle.

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was 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.

Patent literature cited

• DE 102012217041 A1 [0003]

Claims (13)

Battery module (2) for a battery of a motor vehicle with at least two interconnected cell packs (1) each having at least two interconnected round cells (4) and an integrally formed cell holder (3) which is attached to an upper side (5) and an underside (6) each has at least one cylindrical segment-shaped receiving area (7) extending along a longitudinal direction (L) of the round cells (4) into which the round cells (4) are inserted and which extend more than 180 ° over a Extend the circumference of the round cells (4), characterized in that the battery module (2) has a slot-like module housing (22) which has two housing parts (23, 24) in the form of a lower part (23) and an upper part (24) and in which the at least two cell stacks (1) are arranged one behind the other in the longitudinal direction (L), the housing parts (23, 24) each at least one extending along the longitudinal direction (L) extending, cylindrical segment-shaped recess (26) which extend less than 180 ° over the circumference of the round cells (4), so that the housing parts (23, 24) and the cell holder (3) form respective hollow cylindrical sheaths for the round cells (4), and wherein the housing parts (23, 24) have integrated cooling channels (28) extending in the longitudinal direction (L) for cooling the round cells (4). Battery module (2) Claim 1 , characterized in that two side regions (17) of the cell holder (3) which are opposite one another perpendicular to the longitudinal direction (L) and extend in the longitudinal direction (L) have through openings (18) and the battery module (2) has rod-like tie rods (19) which are pushed through the through openings (18) for holding together the cell packets (1) arranged one behind the other in the longitudinal direction (L). Battery module (2) Claim 1 or 2 , characterized in that at least one wall area (11) of the cell holder (3) adjoining a receiving area (7) is reversibly bendable so that each round cell (4) has an opening (9) of the receiving area running along the longitudinal direction (L) (7) can be inserted into the receiving area (7). Battery module (2) according to one of the preceding claims, characterized in that the top (5) and the bottom (6) each have at least two receiving areas (7) running parallel to one another and extending in the longitudinal direction (L), the receiving areas (7 ) on the top (5) and the receiving areas (7) on the bottom (6) are arranged offset from one another perpendicular to the longitudinal direction (L). Battery module (2) according to one of the preceding claims, characterized in that the battery module (2) for the lower part (23) and the upper part (24) each has a distributor piece (30) and a collector piece (31), which at one end of the Module housing (22) or at opposite ends of the module housing (22) in the longitudinal direction (L) and are fluidically connected to cooling channel openings of the cooling channels (28). Battery module (2) according to one of the preceding claims, characterized in that the housing parts (23, 24) are hingedly connected (25) by a hinge. Battery module (2) according to one of the preceding claims, characterized in that the housing parts (23, 24) each have at least one tubular socket (27) on a side edge extending in the longitudinal direction (L), the sockets (27) of the housing parts ( 23, 24) are aligned with each other in the assembled state of the module housing (22) and a locking pin for connecting the housing parts (23, 24) and thus for locking the module housing (22) is pushed through the tubular sockets (27). Battery module (2) according to one of the preceding claims, characterized in that on one end face (8) of the cell holder (3) or on mutually opposite end faces (8) of the cell holder (3) in the longitudinal direction (L) a cell contacting system (13) for interconnection the round cells (4) of a cell package (1) is arranged. Battery module (2) Claim 8 , characterized in that the at least one end face (8) of the cell holder (3) has positioning aids (15) for the cell contact system (13). Battery module (2) Claim 9 , characterized in that the at least one end face (8) has plug-in openings (16) as the positioning aids (15), the cell contacting system (13) having pin-like positioning elements which are plugged into the plug-in openings (16). Battery module (2) according to one of the preceding claims, characterized in that a thermally conductive, electrically insulating paste is arranged between the round cells (4) and the housing parts (23, 24). Battery for a motor vehicle with at least one battery module (2) according to one of the preceding claims. Motor vehicle with a battery after Claim 12 .

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