DE102017219528B4 - Method for producing a battery tray with a cooling device - Google Patents

Abstract

A method of making a battery pan (200) having a cooling device (220) formed by at least one cooling line (225), comprising the steps of: - providing the prefabricated battery pan (200); - applying an adhesive (K) to the battery pan (200 Positioning the prefabricated cooling device (220) on the battery pan (200); pressing the cooling device (200) by means of at least one expandable or flexible solid material pressure pad (140) applying a homogeneous pressure to the cooling line (225); and simultaneously curing or at least curing the adhesive (K).

Description

The invention relates to a method for producing a battery trough with a cooling device for cooling battery cells or battery modules to be arranged in the battery trough.

A traction battery for the propulsion of an electric or hybrid vehicle usually requires a cooling device to dissipate the released during charging and discharging the battery cells heat.

The DE 10 2015 217 810 A1 describes a battery housing (4 ') with a heat conduction leading channel structure (14, 17) for temperature control of disposed within the housing or can be arranged cell modules (8) and / or battery cells (9). The DE 10 2007 010 743 B3 describes a battery (14) with a heat conducting plate (1), which has a cast-in cooling coil (2). The prior art is also referred to the DE 20 2007 017 390 U1 . DE 10 2013 204 744 A1 . DE 10 2015 107 170 A1 and DE 103 60 900 A1 ,

The general production technology concerning are from DE 716 480 A and US 5,225,027 A Press-like devices are known which have a rubber pad (2) and a plunger (116) with a membrane pad.

The invention has for its object to provide a method for easy production of a trained with a cooling device battery tray.

The object is achieved by a method according to the invention having the features of patent claim 1.

Further developments and embodiments of the invention will become apparent from the dependent claims, the following description of the invention and the drawings.

The battery trough, in particular for a traction battery, has a cooling device operable by means of coolant for cooling the battery cells and / or battery modules arranged or to be arranged in the battery trough, wherein the cooling device is formed by at least one cooling line or a cooling tube, which is associated with the battery pan, is actually bonded to a tub body (the battery pan).

The cooling device is, unlike that in the DE 10 2015 217 810 A1 described cast-integrated channel structure, at least one of coolant (eg., Cooling water) flow-through cooling line formed. A cooling line is in particular a cooling tube. This at least one cooling line or the at least one cooling tube is / is glued to the battery tray or the tub body (body), in particular glued directly.

The cooling line can be glued inside and / or outside with the battery tray and is glued in particular on the inside or the outside with the bottom or tub bottom.

The battery tray can be easily and inexpensively manufactured by the method according to the invention. Furthermore, despite tolerances on the battery pan and / or the cooling device, rejects can be reduced and the quality improved. In particular, tolerances have an influence on the cooling power situation in the battery tank. However, the cooling device works in the ideal working range so that maximum performance of the battery (traction battery) can be guaranteed.

The cooling line is preferably glued to the battery trough by means of at least one adhesive mat, in particular only with a single adhesive mat. An adhesive mat is in particular a patch formed from adhesive, which has a defined contour (in particular length and width) and uniform or homogeneous thickness. Regardless of manufacturing and assembly tolerances, the adhesive mat always ensures ideal bonding of the cooling line to the battery pan. In addition, the adhesive mat can be handled easily. Instead of a single adhesive mat, it is also possible to use a plurality of adhesive strips.

• - Bereitstellen der vorgefertigten Batteriewanne, d. h. eines vorgefertigten Wannenkörpers (Korpus), der einen Boden (Wannenboden) und diesen Boden umgebende Seitenwände aufweist;
• - Auftragen bzw. Aufbringen eines Klebers bzw. Klebstoffs auf die Batteriewanne, insbesondere auf die Innenseite oder Außenseite des Bodens, wozu die Batteriewanne insbesondere in einer Aufnahmeeinrichtung (s. u.) fixiert wird;
• - Positionieren der vorgefertigten Kühlvorrichtung auf bzw. in der Batteriewanne, wobei die Kühlvorrichtung auf dem Kleber bzw. der Klebermatte abgelegt wird, und wobei die Kühlvorrichtung wenigstens eine Kühlleitung, insbesondere in Form einer im Wesentlichen ebenen (2-dimensionalen) Kühlschlange, aufweist;
• - Andrücken der Kühlvorrichtung, resp. der Kühlleitung (bzw. des Kühlrohrs), und gleichzeitiges Aushärten oder zumindest Anhärten (Gelieren) des Klebstoffs, insbesondere durch Erwärmen bzw. Beheizen.

The method according to the invention for producing a battery trough having a cooling device formed by at least one cooling line comprises at least the following steps:

• - Providing the prefabricated battery tray, ie a prefabricated tub body (body) having a bottom (tub bottom) and this floor surrounding side walls;
• - Applying or applying an adhesive or adhesive to the battery tray, in particular to the inside or outside of the floor, for which purpose the battery tray is fixed in particular in a receiving device (see below);
• - Positioning of the prefabricated cooling device on or in the battery tray, wherein the cooling device is placed on the adhesive or the adhesive mat, and wherein the cooling device has at least one cooling line, in particular in the form of a substantially flat (2-dimensional) cooling coil;
• - Pressing the cooling device, respectively. the cooling line (or the cooling tube), and simultaneous curing or at least hardening (gelling) of the adhesive, in particular by heating or heating.

The inventive method is in particular using a device, as explained in more detail below, executed.

The battery tray and / or the adhesive can be tempered, d. H. be preheated.

The adhesive can be applied automatically by means of robots, in particular in the form of a glue bead (bead application). It is preferably provided that the adhesive application is monitored by means of a measuring system in order to automatically check the height of the adhesive application or adhesive bead and the adhesive pattern (bead course). In case of errors, the adhesive application can then z. B. corrected or reapplied after removal.

The adhesive may also be at least one adhesive mat (see above), which is deposited on or in the battery trough. The deposition of the adhesive mat is preferably carried out automatically using a robot. The use of adhesive mats also reduces the setup process.

According to the invention, the cooling device, respectively. the cooling line, using at least one pressure pad, which applies a substantially uniform or homogeneous (area) pressure on the cooling line pressed. Selective force peaks, which can lead to a displacement of the cooling line, are avoided by pressure distribution. In addition, a smoother and safer bond is guaranteed despite tolerances and changing environmental influences during production. The pressure pad can be made of a flexible solid material, in particular soft elastic material such. As rubber or silicone, be formed. The pressure pad may also be an expandable or inflatable pressure pad, in particular a pneumatically inflatable or hydraulically expandable pad, wherein the pad cover z. B. made of rubber or silicone is formed:

The pressure applied to the cooling device or cooling line with the pressure pad can be regulated in order to avoid excessively high pressures, which can lead to a displacement of the cooling line. Preferably, the pressure is maintained even during the curing or gelling of the adhesive and in particular also regulated. In an expandable pressure pad can be changed by regulating the internal pressure. With a control loop, the pressure generated by the pressure pad, with which the cooling device or the cooling line is pressed against the battery trough, can be monitored and optionally readjusted fully automatically. The regulation creates optimal conditions for the curing or gelling of the adhesive. The control loop also allows automatic readjustment, i. H. a feed movement of the pressure pad, during the curing or gelling, in order to respond to the flow or displacement of the curing or gelling adhesive. With such a regulation also component tolerances can be compensated.

• - eine Aufnahmeeinrichtung für die Batteriewanne, in der die Batteriewanne bzw. der Wannenkörper während dem Fügen, insbesondere definiert bzw. in vorbestimmter Weise, festgehalten werden kann; und
• - eine Andrückeinrichtung, mit der die Kühlvorrichtung zwecks Verklebung, insbesondere definiert bzw. in vorbestimmter Weise, an die Batteriewanne angedrückt werden kann.

A device for producing a battery trough, which has a cooling device formed by at least one cooling line, which is adhesively bonded to the battery trough, may comprise at least the following components:

• a receiving device for the battery trough, in which the battery trough or the trough body during the joining, in particular defined or in a predetermined manner, can be held; and
• - A pressing device with which the cooling device for the purpose of bonding, in particular defined or can be pressed in a predetermined manner to the battery tray.

The pressing device may have at least one pressure pad (see above). The pressure pad can, for example, be attached to a robot-guided gripper. However, the pressing device can also be designed as kraftbeaufschlagbarer hold-down. In particular, this is a segmented hold-down, wherein each hold-down segment may have at least one pressure pad.

It is preferably provided that the receiving device and the pressing device are designed as a lower and upper tool (a joining tool), which are formed relative to each other and movable with a joining cavity (cavity). At least one pressure pad (see above) may be arranged in the joining cavity.

• - wenigstens eine Heizeinrichtung, zur Erwärmung bzw. Beheizung der Aufnahmeeinrichtung und/oder der Andrückeinrichtung; .
• - einen Roboter zum automatisierten Auftragen des Klebstoffs, insbesondere zum automatisierten Ablegen wenigstens einer Klebematte auf bzw. in der Batteriewanne;
• - eine Steuereinrichtung, insbesondere mit einem Regelkreis zur Druckregelung.

The device may further comprise at least one of the following components:

• - At least one heating device, for heating or heating of the receiving device and / or the pressing device; ,
• a robot for the automated application of the adhesive, in particular for the automated laying down of at least one adhesive mat on or in the battery trough;
• - A control device, in particular with a control circuit for pressure control.

• 1 zeigt in einer schematischen Schnittansicht eine Vorrichtung zur Herstellung einer Batteriewanne mit Kühlvorrichtung.
• 2 zeigt in einer schematischen Schnittansicht eine Batteriewanne mit einer Kühlvorrichtung, die mit der Vorrichtung aus 1 hergestellt ist.

The invention will be explained in more detail with reference to the drawing.

• 1 shows a schematic sectional view of an apparatus for producing a battery tray with cooling device.
• 2 shows in a schematic sectional view of a battery tray with a cooling device, which with the device 1 is made.

In the 1 The device shown is as a joining tool 100 formed and has a lower tool 110 trained receiving device and as an upper tool 120 trained pressing device on. The upper tool 120 can also be referred to as hold-down. The joining tool 100 has a joining cavity 130 on. The joining tool 100 is, for example, installed in a press or locking device.

With the joining tool 100 can the in 2 shown battery tray 200 getting produced. The battery tray 200 has a tub body 210 and a cooling device 220 on. The cooling device 220 is through at least one cooling line 225 formed, which is molded into a cooling pipe system and inside with the tank bottom 215 is glued. The adhesive is labeled K.

For the production of the battery tray 200 becomes the prefabricated tub body 210 , which may be formed in one piece or several pieces of sheet metal or plastic (also fiber reinforced plastic), in the cavity of the lower tool 110 inserted. After that (or possibly before that) is placed on the inside of the tub floor 215 the adhesive K applied, in particular in the form of an adhesive mat, and the cooling line 225 is on the glue K filed as in 1 shown.

Subsequently, the joining tool 100 by relative movement of the tool parts 110 and 120 closed. One on the pressing device or on the upper tool 120 arranged pressure pad 140 brings a substantially homogeneous pressure on the cooling line 225 on. At the same time, the glue becomes K hardened by heating, including in particular the receiving device or the lower tool 110 can be formed with a heater. The one with the pressure pad 140 applied pressure can by a between the tool parts 110 and 120 acting closing force and / or by using an expandable pressure pad 140 be generated. Preferably, a control of the done with the pressure pad 140 applied pressure, as explained above.

After curing of the adhesive K, the joining tool 100 open. and the battery tray 200 be removed.

In an analogous manner, the cooling device 220 also from the outside with the tub bottom 215 be glued.

Claims (5)

A method of making a battery pan (200) having a cooling device (220) formed by at least one cooling line (225), comprising the steps of: - Providing the prefabricated battery tray (200); - Applying an adhesive (K) on the battery tray (200); - positioning the prefabricated cooling device (220) on the battery pan (200); - Pressing the cooling device (200) by means of at least one expandable or made of flexible solid material pressure pad (140) which applies a homogeneous pressure on the cooling line (225), and simultaneously curing or at least curing of the adhesive (K). Method according to Claim 1 , characterized in that the adhesive (K) is applied by means of robots, wherein the adhesive application is monitored by means of a measuring system. Method according to Claim 1 , characterized in that the adhesive (K) is at least one adhesive mat which is deposited on the battery trough (200). Method according to one of Claims 1 to 3 , characterized in that the pressure applied to the pressure pad (140) is regulated. Method according to one of Claims 1 to 4 wherein a device (100) is used to manufacture the battery pan (200), comprising: - a battery pan (200) receiving means (110) in which the battery pan (200) can be held in place during joining; - A pressing device (120), with which the cooling device (220) can be pressed for bonding to the battery tray (200); wherein the receiving device (110) and the pressing device (120) are formed as a lower and upper tool which are relatively movable and with a Fügehohlraum (130) formed in the joining cavity (130) at least one expandierbäres or formed of flexible solid material pressure pad (140 ) is arranged.

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