DE102021110035B3 - Electrical battery module and method of assembling the same - Google Patents

Abstract

A battery module has a battery module housing, in which at least one battery cell and an electronic module with a plug connector connected to it via one or more lines are arranged. The battery module housing includes a housing base with a mount for the at least one plug connector and a fluid-tight connection to the housing base and closing cover with an opening through which the plug connector is accessible when the cover is connected to the housing base. The battery module also includes a connector that can be attached to the cover in a fluid-tight manner from the outside and has a receptacle for the connector, which is positioned relative to the opening when the connector is mounted on the cover such that the connector can be received in the receptacle when the cover is connected to the battery module housing. The receptacle of the connecting piece makes contact with the one or more electrical lines and leads them to a connection of the connecting piece that is accessible from the outside of the cover and at which the one or more electrical lines routed from the electronic module to the plug connector can be contacted.

Description

FIELD OF INVENTION

The present invention relates to a battery module, for example for a vehicle, with one or more electrical lines routed out of the housing via one or more connections, and to a method for assembling the same.

BACKGROUND

Battery systems are used in many applications in which, for example, drives are to be supplied with electrical energy, including in land, air and water vehicles of all kinds.

The battery systems can include several battery modules, which are interconnected in a suitable form. A battery module usually includes a number of battery cells, which are usually connected in series. For easier handling and to protect against damage and environmental influences, the battery cells are usually arranged in a closed housing. Power, sensor and control lines are routed through appropriate bushings into the interior of the housing, whereby care must be taken that the bushings do not impair the tightness of the housing.

Different cell types are used in the production of battery modules, including cells with a fixed cylindrical housing, so-called round cells, cells with a cuboid fixed housing, so-called prismatic cells, and flat cells without a fixed housing, so-called pouch cells. Pouch cells potentially have the highest volumetric and gravimetric energy density and, due to their flat shape, are particularly easy to install in battery cell stacks in housings. Since pouch cells are flexible, the housing surrounding them must have high strength and rigidity. In order to also have a long service life, the pouch cells must be subjected to external pressure.

It is known from the prior art to brace pouch cells in the direction of thickness with the aid of compression pads made of elastic foam with a high proportion of gas and thus high compressibility with a small remaining block dimension with complete compression and to insert them into a housing. From the pamphlet US 4.55 4.226A such a battery is known. After the battery cell stacks have been placed in a housing, the cover can be placed on the housing to seal it tightly.

An electronic circuit can be arranged in the housing for cell monitoring. The electronic circuit is connected to the individual battery cells of the battery cell stack and/or to sensors via one or more electrical lines and can thus record electrical parameters and other parameters important for the use of the battery module, for example temperatures or pressures. The electronic circuit can also be connected to measurement and control circuits via electrical contacts that are accessible from the outside of the housing. The passage of the electrical contacts through the housing must be designed in such a way that the tightness of the housing is not impaired. As a rule, the electronic circuit is inserted into the housing after the battery cells have been installed, before the cover is placed on the housing. For this purpose, a plug or a socket can be mounted on the cover in such a way that tightness is ensured. The electrical contacts of the plug or socket can be connected to the electronic circuitry via a cable within the housing. In order to ensure that the cover can be handled easily during assembly, the cable must have a certain minimum length so that the connection between the plug or the socket and the electronic circuit can be established before the cover is put on. When the cover is closed, the length of the cable that is then no longer required must be safely accommodated in the housing in such a way that damage and short circuits cannot occur. This can lead to considerable effort when assembling the battery modules and also require a complex construction of the housing and/or the cover.

From the U.S. 2011/0070475 A1 a battery module housing is known in which a cover protrudes like a trough into the interior of a battery housing. Among other things, an electrical connection is arranged in the cover, which provides an electrical connection to electronic components arranged inside the battery module housing. A fluid-tight cover of the trough-like lid has a protruding connector which, when the cover is in place, engages the electrical connection and provides the electrical connections on the outside of the seal.

From the US 2014/0308557 A1 an energy storage device is known in which a battery is arranged in a battery module housing. One end of a cable is connected to the battery, at the other end a two-part connector is provided, one part of which is mounted on the battery module housing from the inside and the other part Part is mounted from the outside of the battery module housing. The external part of the plug has plug-in terminals for connection.

From the DE 198 44 603 A1 there is known a feedthrough connector with opposed plug terminals which is insertable into an opening of a housing and seals the opening. A plug can be inserted into the feedthrough connector from inside the housing and mated with a plug inserted into the feedthrough connector from outside the housing.

From the JP 2006269206 A a plug connector which can be attached to a housing in a sealing manner and has a socket which projects into the housing is known. A plug located inside the housing can be plugged into the socket before the connector is mounted on the housing.

It is an object of the present invention to propose a battery module with a housing base body and a cover that can be fastened thereto in a fluid-tight manner, which is easy to handle during assembly on the housing base body and which makes electrical energy and/or signals accessible from outside the battery module housing via a fluid-tight connection.

DESCRIPTION OF THE INVENTION

A battery module according to the invention comprises a battery module housing in which at least one battery cell and at least one electronics module are arranged. The electronics module is connected to at least one plug connector via one or more lines. The battery module housing comprises a housing base body and a cover which can be connected to it in a fluid-tight manner and which closes it. The connection between the cover and the housing body can be made, for example, by welding, gluing, flanging, by means of rivets or screws or by means of snap-in connections. The cover has an opening through which the connector is accessible when the cover is connected to the housing body. The at least one connector can, for example, protrude from the opening so that it can be grasped, or the at least one connector can be grasped through the opening so that it can be handled during further assembly steps. The battery module also includes a connecting piece which can be attached to it in a fluid-tight manner from the outside of the cover, for example by means of screws, snap-in hooks or other fastening means known to those skilled in the art. The fluid-tightness between the connecting piece and the cover can be produced, for example, by means of a seal. The connector itself is also fluid-tight, i.e., apart from fluid-carrying connections that may be provided for this purpose in the connector, fluids do not pass through the connector, so that the battery housing is sealed in a fluid-tight manner when the cover and connector are mounted. In the present context, fluid-tight means that at least liquids such as water cannot penetrate into the battery module housing. The connecting piece has at least one receptacle which, when the connecting piece is mounted on the cover, faces the inside of the battery module housing and is positioned relative to the opening such that the at least one plug connector located in the battery module housing can be received therein when the cover is connected to the battery module housing. The at least one plug connector can be designed as a plug or socket, and the at least one receptacle can be designed as a socket or plug accordingly. The at least one receptacle of the connecting piece makes contact with the one or more electrical lines of the at least one plug connector and leads them to corresponding contacts of at least one connection of the connecting piece that is accessible from the outside of the cover, at which the one or more of the at least one electronic module to the at least one Connectors guided electrical lines can be contacted. The at least one electronics module can be set up to monitor the at least one battery cell and can include appropriate sensors or connections for these and evaluation circuits. According to the invention, a bearing for the at least one connector is provided, which guides it within the housing body. Alternatively or additionally, the mounting can also fix the at least one plug connector in at least one spatial direction, for example in a spatial axis that is perpendicular to a guide direction. The fixation can also be in a guiding direction, for example at the end of a movement along the guiding direction.

In one or more configurations, the at least one plug connector is accommodated in the battery module housing so as to be movable along at least one axis. The at least one axis can preferably extend perpendicularly to a plane in which the cover is in fluid-tight contact with the housing base body, so that the at least one connector can be moved in the direction of the cover. The movement of the at least one connector can be limited in one or both directions, for example by means of a respective stop. The at least one plug connector can be accommodated in a corresponding bearing, or can be essentially freely movable in a corresponding free space.

In a further development, the bearing has an elastic element which exerts a force acting in the direction of the cover on the at least one connector, for example a spring or an elastically compressible element. As a result, the at least one connector is moved out of the housing body when no opposing force acts on it, and it can be better grasped and manipulated for assembly of the connector.

In one or more configurations of the battery module, the bearing for the at least one plug connector is arranged on a holder arranged between the at least one battery cell and the at least one electronics module. The holder can form electrical insulation between the at least one battery cell and the at least one electronic module, and can fix the at least one electronic module.

In one or more configurations of the battery module, the at least one plug connector is set up to be detachably latched in the opening in the cover. For this purpose, latching lugs or clamping springs can be provided on the connector. These refinements can simplify the connection of the plug connector and connecting piece because the at least one plug connector does not have to be held in place. The latching of the at least one plug connector in the opening can be set up to release when a force acting on the plug connector in the direction of the housing base body is exceeded and to allow movement of the at least one plug connector into the battery module housing.

The battery module according to the invention enables simple production, with handling being particularly simple when producing a fluid-tight electrical contact that is accessible from outside the closed battery module housing.

A method for producing a battery module according to the invention initially comprises the provision of a housing base body, a cover, at least one battery cell, at least one electronic module with at least one plug connector connected thereto and a connecting piece. The at least one battery cell and the at least one electronic module are then introduced into the housing base body. The cover is then placed on the housing body and connected, and the housing body is thus closed with the cover. The cover can, for example, be releasably connected to the housing base body with screws, snap-in connections or by clamp connections. It is also possible to permanently connect the cover to the housing body by welding, gluing, flanging or other types of connection known to those skilled in the art. When the cover is put on, the at least one connector can be guided or positioned in such a way that it can be gripped through the opening in the cover or at least partially protrudes from it and can thus be gripped for further assembly, e.g. by a gripper of an assembly machine or manually. The at least one connector can now be connected to the at least one receptacle of the connecting piece. Finally, the connecting piece with the at least one plug connector received in the at least one receptacle is positioned over the opening and attached to the cover in a fluid-tight manner, for example by means of screws. If a bearing is provided for the at least one connector and the at least one connector was not already guided in the bearing when the cover was put on, the at least one connector can be accommodated in the bearing when the connecting piece is positioned.

If the at least one plug connector can be locked in the opening of the cover, this can be done before the plug connector is connected to the receptacle of the connecting piece. This eliminates the need to hold the plug connector when connecting to the connecting piece.

In order to prevent dust or moisture from penetrating the battery module housing during assembly, a temporary cover can be attached over the opening in the cover before the cover is joined to the housing body, which is removed again after joining and before attaching the connector . The temporary covering can also already be attached to the provided cover, so that the step of attaching before the joining of the cover and the housing base body can be omitted.

The battery module according to the invention can be manufactured using a method that is simplified compared to known manufacturing processes. In particular, the handling of the parts when connecting the cover to the housing body is simplified. In addition, a line with a smaller excess length can be used to connect the at least one electronic module to the connecting piece. In addition, if the connector is damaged after assembly, it can be replaced as an individual part without having to remove the cover from the housing body.

character list

• 1 eine erste schematische Schnittdarstellung von Elementen eines Batteriemoduls in einem ersten teilmontierten Zustand,
• 2 eine zweite schematische Schnittdarstellung von Elementen des Batteriemoduls in einem zweiten teilmontierten Zustand,
• 3 eine dritte schematische Schnittdarstellung von Elementen des Batteriemoduls in montiertem Zustand,
• 4 eine erste schematische Schnittdarstellung von Elementen eines beispielhaften erfindungsgemäßen Batteriemoduls in einem ersten teilmontierten Zustand,
• 5 eine zweite schematische Schnittdarstellung von Elementen des beispielhaften erfindungsgemäßen Batteriemoduls in einem zweiten teilmontierten Zustand,
• 6 eine dritte schematische Schnittdarstellung von Elementen des beispielhaften erfindungsgemäßen Batteriemoduls in montiertem Zustand, und
• 7 ein exemplarisches schematisches Flussdiagramm eines Verfahrens zur Montage des erfindungsgemäßen Batteriemoduls.

The invention is explained below with reference to the drawing. In the drawing shows:

• 1 a first schematic sectional view of elements of a battery module in a first partially assembled state,
• 2 a second schematic sectional view of elements of the battery module in a second partially assembled state,
• 3 a third schematic sectional view of elements of the battery module in the assembled state,
• 4 a first schematic sectional view of elements of an exemplary battery module according to the invention in a first partially assembled state,
• 5 a second schematic sectional view of elements of the exemplary battery module according to the invention in a second partially assembled state,
• 6 a third schematic sectional view of elements of the exemplary battery module according to the invention in the assembled state, and
• 7 an exemplary schematic flow chart of a method for assembling the battery module according to the invention.

In the figures, identical or similar elements are denoted by the same reference symbols.

DESCRIPTION OF EXEMPLARY EMBODIMENTS

1 shows a first schematic sectional view of elements of a battery module 100 in a first partially assembled state. In the illustration, at least one battery cell 102 and one electronic module 104 are already positioned in a housing base body 110 . A seal 118 is placed on the edge of the housing body 110 . A connector 108 is placed freely in front of an opening 114 in a cover 112 . The cover 112 is not yet connected to the housing base body 110 . A connector 116 is positioned with a receptacle 120 in front of the opening 114 . A connection 122 of the connecting piece 116 points away from the cover and is accessible from the outside after assembly. A gasket 118, which is intended to seal against the lid 112, is already positioned on the connector 116. As shown in FIG.

2 shows a second schematic sectional view of elements of the battery module 100 in a second partially assembled state. Cover 112 is shown assembled to housing body 110 and gasket 118 between the two components fluidly seals the junction of the two components, indicated by the compressed gasket. The cover 112 can be connected to the housing base body by assembly elements (not shown in the figure) such as screws, rivets or latching connections, or by an integral connection such as soldering, welding or gluing. A clamping connection between the housing body 110 and the cover 112 is also conceivable. The figure clearly shows that the plug connector 108 is passed through the opening 114 and is accessible or grippable from outside the battery module housing. The connecting piece 116 is already positioned in relation to the connector 108 in such a way that it can be inserted into the receptacle 120 . In this figure it is easy to see that handling during assembly is very simple, since only the easily movable connector 108 and the likewise easily movable connecting piece 116 have to be handled. The comparatively heavy and bulky lid 112 does not need to be held or moved. The connector 108 can still be pulled out of the battery module housing a little on the line 106 . Compared to a battery module in which the connector has to be mounted on the cover before the cover is placed on the housing body, the lead can be made shorter. As a result, only a smaller length of cable has to be accommodated in the battery module housing when the battery module is completely assembled.

3 shows a third schematic sectional view of elements of the battery module 100 in the assembled state. The figure clearly shows how the seal 118 between the connecting piece 116 and the cover 112 seals the battery module housing in a fluid-tight manner. The attachment of the connector 116 to the cover 112 is not shown in the figure for the sake of simplicity. The plug connector 108 accommodated in the receptacle 120 has been moved into the housing during the assembly of the connection piece 116 . The short lead 106 overlies the electronics module 104. Electrical contacts of lead 106 are accessible from outside the battery module housing via connector 122. The connection 122 can, for example, be another plug connector or provide other connections.

4 shows a first schematic sectional view of elements of an exemplary battery module according to the invention in a first partially assembled state. The representation essentially corresponds to that of 1 , A holder 126 being provided between the battery cell 102 and the electronics module 104 in this exemplary embodiment. The electronic module 104 may be mounted to bracket 126. The holder 126 has a bearing 124 in which the connector 108 can be movably mounted along a spatial axis. The bearing 124 can, for example, comprise pins or webs arranged to match the connector 108, on or between which the connector can be guided. The bearing 124 can, for example, be led through corresponding openings in the electronics module 104 . The line 106 or a part thereof can also be routed between the pins or webs of the bearing 124 (not shown in the figure). The bearing 124 can be designed in such a way that the connector 108 is only received in it after it has been inserted into the battery housing (represented by the solid line), or in such a way that the connector 108 is already guided in it before the housing base body 110 is closed with the cover 112 (represented by the dashed extensions).

5 shows a second schematic sectional view of elements of the exemplary battery module 100 according to the invention in a second partially assembled state. Except for the holder 126, the representation essentially corresponds to that of FIG 2 . Exactly as before with reference to 2 described, the plug connector 108 can still be moved freely after the cover 112 has been mounted on the housing base body 110 , for example in order to grip it and place it in the receptacle 120 of the connecting piece 116 . The plug connector 108 can already be guided in the bearing 124 (represented by the dashed extensions), but it can also lie outside of the bearing 124.

6 shows a third schematic sectional view of elements of the exemplary battery module according to the invention in the assembled state. Except for the holder 126, the representation essentially corresponds to that of FIG 2 . The seal 118 between the connecting piece 116 and the cover 112 seals the battery module housing in a fluid-tight manner. The plug connector 108 accommodated in the receptacle 120 has been moved into the housing during the assembly of the connection piece 116 . The short lead 106 overlies the electronics module 104. Electrical contacts of lead 106 are accessible from outside the battery module housing via connector 122. The line 106 or part of it can be guided from the bearing 124 of the plug connector 108 . The in the 4 and 5 Parts of the bearing 124 shown in dashed lines, which guide the connector 108 even before the cover 112 is installed, are not visible in the figure; they are hidden by the connector 116.

While the connector 116 in the 1 until 6 is shown as a straight component, ie with the receptacle and connection lying on one axis, the receptacle and the connection can be aligned at any angle to one another.

7 shows an exemplary schematic flowchart of a method 200 for assembling the battery module 100 according to the invention. In step 202, a housing base body 110, a cover 112, at least one battery cell 102, at least one electronic module 104 with at least one plug connector 108 connected thereto and a connecting piece 116 are provided. In step 204, the at least one battery cell 102 and the at least one electronic module 104 with the at least one plug connector 108 connected thereto are introduced into the housing base body 110. Optionally, in step 205, the opening 114 in the lid 112 can now be temporarily closed with a cover. Subsequently, in step 206 the housing base body 110 is closed with the cover 112 . If the opening 114 was previously closed with a cover, this is now removed again in step 207 . Then in step 208 the connecting piece 116 is connected to the at least one plug connector, ie the at least one plug connector 108 is inserted into the at least one receptacle 120 of the plug connector 108 . Finally, in step 210 the connecting piece 116 is connected to the cover 112 in a fluid-tight manner.

Reference List

100

battery module

102

battery cell

104

electronics module

106

Management

108

connector

110

housing body

112

lid

114

opening

116

connector

118

poetry

120

recording

122

connection

124

storage

126

bracket

200

procedure

202

Deploying Components

204

bringing in the components

205

Attaching a temporary cover

206

closing the housing

207

Removing the temporary cover

208

Mating connector and connector

210

Attaching the connector to the lid

Claims (9)

Battery module (100) with a battery module housing, in which at least one battery cell (102) and at least one electronics module (104) with at least one plug connector (108) connected to it via one or more lines (106) are arranged, the battery module housing having a housing base body (110 ) and a cover (112) that can be connected in a fluid-tight manner to the basic housing body (110) and closes it, the cover (112) having an opening (114) through which the at least one plug connector (108) is connected to the basic housing body (110). Lid (112) is accessible, a bearing (124) being provided for the at least one connector (108), which guides and/or fixes it within the housing base body (110), the battery module (100) also having a connecting piece (116) comprises, which fluid-tight from the outside of the lid (112) is attachable thereto, and which at least one receptacle (120) for the at least one n plug connector (108), which is positioned in relation to the opening (114) when the connecting piece (116) is mounted on the cover (112) in such a way that the at least one plug connector (108) is in the receptacle when the cover (112) is connected to the battery module housing (120) can be accommodated, the at least one receptacle (120) of the connecting piece (116) making contact with the one or more electrical lines (106) of the at least one plug connector (108) and with corresponding contacts at least one of the outside of the cover (112) accessible terminal (122) of the connecting piece (116), at which the one or more electrical lines (106) routed from the at least one electronic module (104) to the at least one plug connector (108) can be contacted. Battery module (100) after claim 1 , wherein the at least one connector (108) is accommodated in the battery module housing so as to be movable along at least one axis. Battery module (100) after claim 1 or 2 , wherein the bearing (124) for the at least one connector (108) has an elastic element which exerts a force acting in the direction of the cover (112) on the at least one connector (108). Battery module (100) according to one of the preceding claims, wherein the mounting (124) of the at least one connector (108) is arranged on a bracket (126) arranged between the at least one battery cell (102) and the at least one electronic module (104). Battery module (100) after claim 4 , wherein the holder (126) forms an electrical insulation between the at least one battery cell (102) and the at least one electronic module (104). Battery module (100) according to any one of the preceding claims, wherein the at least one connector (108) is adapted to be releasably latched in the opening (114). Method (200) for assembling a battery module (100) according to one of Claims 1 until 6 , comprising: - providing (202) a housing base body (110), a cover (112), at least one battery cell (102), at least one electronic module (104) with at least one plug connector (108) connected thereto and a connecting piece (116), - Introduction (204) of the at least one battery cell (102) and the at least one electronic module (104), to which the at least one plug connector (108) is connected by means of one or more lines (106), into the housing base body (110), - arranging the at least one plug connector (108) in a mount (124) within the housing base body (110), - closing (206) the housing base body (110) with the cover (112), - connecting (208) the connecting piece (116) to the at least one connector (108), and - attaching (210) the connector (116) to the cover (112). Method (200) according to claim 7 , further comprising: - attaching (205) a temporary covering of the opening (114) in the lid (112) before closing (206) the housing body (110) with the lid (112), and - removing (207) the temporary covering the opening (114) in the cover (112) after the closure (206) of the housing base body (110) with the cover (112). Vehicle, in particular electrically or partially electrically powered vehicle, with at least a battery module according to one of Claims 1 until 6 .

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