DE102020133935A1 - Battery housing for accommodating a high-voltage battery, in particular a high-voltage battery of a motor vehicle, motor vehicle, method for checking a high-voltage battery arranged in a battery housing - Google Patents

Abstract

A battery housing (1) for accommodating a high-voltage battery (2), in particular a high-voltage battery (2) of a motor vehicle (100), is proposed, the battery housing (1) having an opening (3), the opening (3) being closed by a closure (4) is closed, the closure (4) being configured in such a way that an optical property of the closure (4) changes depending on the degree of moisture on an interior (5) of the battery housing (1) facing inside (6) of the Closure (4) changes. A motor vehicle (100) and a method for checking a high-voltage battery (2) arranged in a battery housing (1) are also proposed.

Description

The present invention relates to a battery housing for accommodating a high-voltage battery, in particular a high-voltage battery of a motor vehicle, a motor vehicle and a method for checking a high-voltage battery arranged in a battery housing.

High-voltage batteries, in particular high-voltage batteries for motor vehicles, are typically arranged in battery housings. When the motor vehicle is in operation, strong mechanical loads, such as constant acceleration and braking, vibrations and the like, act on the high-voltage battery and the battery housing. For safe operation of the high-voltage battery, it must be ensured that it is firmly seated in the battery housing.

In addition, it is essential that the humidity in the battery housing is below a critical value. If the humidity is too high, the high-voltage battery could be damaged, for example by a short circuit.

Openings in the battery housing are sealed to protect the high-voltage battery. However, this is disadvantageous if the high-voltage battery and the battery housing are to be examined for checking purposes, for example during quality control audits, when visiting a workshop or also during operation of the motor vehicle. Due to the encapsulation of the high-voltage battery, measuring the moisture inside the battery housing in particular is only possible with difficulty.

It is therefore an object of the present invention to provide a battery housing which does not have the described disadvantages of the prior art but offers the possibility of detecting the moisture inside the battery housing using simple means.

This object is achieved by a battery housing for accommodating a high-voltage battery, in particular a high-voltage battery of a motor vehicle, the battery housing having an opening, the opening being closed by a closure, the closure being configured so that an optical property of the closure changes as a function a degree of humidity on an inside of the shutter facing an interior of the battery case changes.

The method according to the invention makes it possible to check the moisture in the interior of the battery case without having to open the battery case. Existing and subsequently sealed openings in the battery housing are used for this purpose. Due to the change in the optical properties, the moisture can also be tested without mechanical contact, which enables a quick and inexpensive test.

It is conceivable that the change in optical properties is brought about by chemical or physical processes. It is conceivable that the closure has one or more salts. It is conceivable that the change in the optical property is reversible. However, it is also conceivable that the change in the optical property is irreversible.

Advantageous configurations and developments of the invention can be found in the subclaims and the description with reference to the drawings.

According to a preferred embodiment of the invention, it is provided that the closure for closing the opening is glued on, the closure preferably being a sticker. This opens up a simple way of closing the existing opening with little effort. The label is preferably equivalent to the walls of the battery case in terms of its mechanical properties and/or electrical properties, such as puncture resistance and/or heat resistance and/or electrical insulating ability.

According to a further preferred embodiment of the invention, it is provided that the closure is transparent, at least for individual wavelengths or wavelength ranges in the visible range, with the closure preferably only being transparent if the degree of moisture on the inside is below a limit value, and preferably is transparent, regardless of the degree of moisture, at least for individual wavelengths or wavelength ranges in the visible range. In this way, it is possible in an advantageous manner to visually inspect the interior of the battery housing without having to open the battery housing.

According to a further preferred embodiment of the invention, it is provided that the closure is retroreflective, at least for individual wavelengths or wavelength ranges in the visible range, with the closure preferably only being retroreflective if the degree of moisture on the inside is below a limit value or if the degree the humidity on the inside is above the limit value. This makes it easy and safe to find the lock, especially in the case of automated and camera-supported audits. The danger that a (partially) transparent shutter is not found automatically can be significantly reduced.

According to a further preferred embodiment of the invention it is provided that the closure is UV-active, the closure preferably only being UV-active when the degree of humidity on the inside is below a limit value or when the degree of humidity on the inside is above of the limit value. This also improves the ability to find the lock in automated and camera-supported audits. If necessary, UV light sources can be used for this purpose and the closure can be caused to light up with these.

According to a further preferred embodiment of the invention, it is provided that the change in the optical property includes a change in the retroreflectivity of the closure. This advantageously makes it possible to sense the degree of moisture in the battery housing quickly and reliably in an automated manner, for example with the aid of a camera. It is conceivable that the retroreflectivity is changed in relation to the intensity of the reflected light or in relation to a wavelength range for which the closure is retroreflective.

According to a further preferred embodiment of the invention, it is provided that the change in the optical property includes a change in the color of the closure. This enables the humidity in the battery housing to be checked safely and easily without a complex test setup, for example with the naked eye.

According to a further preferred embodiment of the invention, it is provided that the change in the optical property includes a change in the UV activity of the closure. In this way, it is also possible in an advantageous manner to detect the degree of moisture in the battery housing quickly and reliably in an automated manner and, for example, with the aid of a camera. It is conceivable that the UV activity is changed in relation to the intensity of the emitted light or in relation to a wavelength range of the emitted light or of the UV light inducing the UV activity.

A further object of the invention for solving the problem formulated at the outset is a motor vehicle having a battery housing according to the invention.

A further object of the invention for solving the problem formulated at the outset is a method for checking a high-voltage battery arranged in a battery housing, the degree of moisture contained in the battery housing being determined using an optical property of a closure closing an opening in the battery housing. The method according to the invention allows the level of moisture within the battery housing to be checked quickly and easily during an audit, a workshop visit or even during operation of the high-voltage battery, without having to open the battery housing for this purpose. For this purpose, openings in the battery housing that have been closed with the closure for operating the high-voltage battery are used in an advantageous manner.

According to a further preferred embodiment of the invention, it is provided that a spatial arrangement of the high-voltage battery in the battery housing is determined optically by the closure. For this purpose, it is preferably provided that the closure is transparent, at least for individual wavelengths or wavelength packets, particularly preferably in the visible range.

According to a further preferred embodiment of the invention, it is provided that the optical property includes a degree of retroreflectivity of the closure. This advantageously makes it possible to sense the moisture in the battery housing quickly and reliably in an automated manner, for example with the aid of a camera. It is conceivable that the retroreflectivity is changed in relation to the intensity of the reflected light or in relation to a wavelength range for which the closure is retroreflective.

According to a further preferred embodiment of the invention it is provided that the optical property comprises a degree of UV activity of the closure. In this way, it is also possible in an advantageous manner to detect the degree of moisture in the battery housing quickly and reliably in an automated manner and, for example, with the aid of a camera. It is conceivable that the UV activity is changed in relation to the intensity of the emitted light or in relation to a wavelength range of the emitted light or of the UV light inducing the UV activity.

According to a further preferred embodiment of the invention, it is provided that the optical property includes a color of the closure. This enables the humidity in the battery housing to be checked safely and easily without a complex test setup, for example with the naked eye.

According to a further preferred embodiment of the invention it is provided that the optical property and preferably the spatial arrangement of the high-voltage battery in the Battery housing are detected by a camera.

Another object of the invention is a method for detecting a spatial arrangement of a component of a motor vehicle and for sealing the component, an opening of the component being closed with a retroreflective closure, the closure being illuminated with light by an illuminant and light reflected by the closure captured by a camera. Due to the retroreflectivity, a very reliable and rapid detection of the spatial arrangement is possible. The component can be a battery housing, for example, preferably a battery housing according to the invention. However, the component can also be another part of the motor vehicle, such as a body part.

According to a further preferred embodiment of the invention, it is provided that the sealing and the detection of the spatial arrangement are used as part of a process step for manufacturing the motor vehicle, the component being in particular a body part and/or the process step in particular comprising a painting process.

All the details, features and advantages previously disclosed in connection with the battery housing according to the invention also relate to the motor vehicle according to the invention and to both methods according to the invention.

• 1 illustriert schematisch ein Batteriegehäuse gemäß einer beispielhaften Ausführungsform der vorliegenden Erfindung sowie ein Verfahren gemäß einer beispielhaften Ausführungsform der vorliegenden Erfindung.
• 2 illustriert schematisch ein Kraftfahrzeug gemäß einer beispielhaften Ausführungsform der vorliegenden Erfindung.

Further details, features and advantages of the invention result from the drawings and from the following description of preferred embodiments with reference to the drawings. The drawings merely illustrate exemplary embodiments of the invention, which do not limit the inventive concept.

• 1 12 schematically illustrates a battery case according to an exemplary embodiment of the present invention and a method according to an exemplary embodiment of the present invention.
• 2 FIG. 1 schematically illustrates a motor vehicle according to an exemplary embodiment of the present invention.

1 12 schematically illustrates a battery case 1 according to an exemplary embodiment of the present invention and a method according to an exemplary embodiment of the present invention. The battery case 1 is a battery case 1 of an automobile (see FIG 2 ). A high-voltage battery 2 is arranged in the battery housing 1, for example for supplying an electric machine for driving the motor vehicle with electric voltage or electric current.

An opening 3 of the battery housing 1 is closed with a closure 4, here a sticker. The closure 4 is transparent at least for individual wavelength ranges in the visible range, so that the interior 5 of the battery housing 1 can be inspected through the closure 4 . In order to ensure good mechanical protection of the high-voltage battery 1, the closure 4 is designed to be stable and resistant to tearing and piercing.

In order to be able to determine the degree of moisture in the interior 5 of the battery housing 1 without having to open the battery housing 1, the closure 4 changes at least one optical property depending on the degree of moisture on its inner side 6 facing the interior 5 of the battery housing 1. This change in the optical property can be brought about by chemical or physical processes, for example by chemical reactions of salts on the inside 6 of the closure 4 .

The change in optical property here includes a change in the color of the shutter 4 when the humidity level exceeds a threshold.

As part of the production and testing of motor vehicle parts, audits are carried out automatically to ensure stable quality. Cameras 7 can support the sensing of the optical property of the closure 4 . To make it easier for the camera 7 to find the closure 4, the closure 4 is retroreflective and UV-active. In order for the camera 7 to locate the closure 4 , the closure 4 is illuminated with light 9 by an illuminant 8 . If the closure 4 is retroreflective for the incident light 9 , the light 9 is reflected and captured by the camera 7 .

It is conceivable that the degree of retroreflectivity is changed depending on the degree of humidity. The closure 4 could thus become retroreflective if the degree of humidity exceeds a limit value. Alternatively, the shutter 4 could be retroreflective when the humidity level is below the threshold and lose retroreflectivity when the humidity level exceeds the threshold. However, it is also conceivable that the closure 4 is retroreflective for a first wavelength at a humidity level below the limit value and that the closure 4 is retroreflective for a second wavelength different from the first wavelength at a humidity level above the limit value.

In order for the camera 7 to locate the closure 4, the closure 4 can also be illuminated with light 9 in the UV range. If the shutter 4 is UV-active, light 9 is emitted by the shutter 4 and captured by the camera 7 .

It is conceivable that the degree of UV activity is changed depending on the degree of humidity. The closure 4 could thus become UV-active when the level of moisture exceeds a limit value. However, the shutter 4 could be UV active when the humidity level is below the threshold and lose its UV activity when the humidity level exceeds the threshold. However, it is also conceivable that the closure 4 is UV-active at a level of humidity below the limit value for a first wavelength of the incident light 9 and that the closure 4 at a level of humidity above the limit value for a wavelength different from the first wavelength , second wavelength of the incident light 9 is UV-active. It is also conceivable that the closure 4 emits light 9 of a first wavelength at a degree of humidity below the limit value with incident UV light and that the closure 4 emits light 9 of a second wavelength at a degree of humidity above the limit value with incident UV light. wavelength different from the first wavelength.

2 FIG. 1 schematically illustrates a motor vehicle 100 according to an exemplary embodiment of the present invention. The motor vehicle 100 has a battery case 1 according to an exemplary embodiment of the present invention.

Claims (17)

Battery housing (1) for accommodating a high-voltage battery (2), in particular a high-voltage battery (2) of a motor vehicle (100), the battery housing (1) having an opening (3), the opening (3) being closed by a closure (4). is, wherein the closure (4) is configured so that an optical property of the closure (4) depending on a degree of moisture on an interior (5) of the battery housing (1) facing inside (6) of the closure (4) changes. Battery housing (1) according to claim 1 , characterized in that the closure (4) for closing the opening (3) is glued on, the closure (4) preferably being a sticker. Battery housing (1) according to one of the preceding claims, characterized in that the closure (4) is transparent, at least for individual wavelengths or wavelength ranges in the visible range, the closure (4) preferably only being transparent if the degree of humidity on the inside (6) is below a limit value and is preferably transparent, regardless of the degree of moisture, at least for individual wavelengths or wavelength ranges in the visible range. Battery housing (1) according to one of the preceding claims, characterized in that the closure (4) is retroreflective, at least for individual wavelengths or wavelength ranges in the visible range, with the closure (4) preferably only being retroreflective if the degree of moisture on the Inside (6) is below a limit value or when the humidity level on the inside (4.1) is above the limit value. Battery housing (1) according to one of the preceding claims, characterized in that the closure (4) is UV-active, the closure (4) preferably only being UV-active if the degree of moisture on the inside (6) is below a limit value or if the humidity level on the inside (6) is above the limit value. Battery housing (1) according to one of Claims 4 until 5 , characterized in that the change in the optical property includes a change in a retroreflectivity of the closure (4). Battery housing (1) according to one of the preceding claims, characterized in that the change in the optical property includes a change in the color of the closure (4). Battery housing (1) according to one of Claims 5 until 7 , characterized in that the change in optical property includes a change in UV activity of the closure (4). Motor vehicle (100) having a battery housing (1) according to one of the preceding claims. Method for checking a high-voltage battery (2) arranged in a battery housing (1), the degree of moisture contained in the battery housing (1) being determined using an optical property of a closure (4) closing an opening (3) in the battery housing (1). . procedure after claim 10 , wherein a spatial arrangement of the high-voltage battery (2) in the battery housing (2) is optically determined by the closure (4). Procedure according to one of Claims 10 until 11 , wherein the optical property comprises a degree of retroreflectivity of the shutter (4). Procedure according to one of Claims 10 until 12 wherein the optical property comprises a level of UV activity of the closure (4). Procedure according to one of Claims 10 until 13 , wherein the optical property comprises a color of the closure (4). Procedure according to one of Claims 10 until 14 , The optical property and preferably the spatial arrangement of the high-voltage battery (2) in the battery housing (2) are detected by a camera (7). Method for detecting a spatial arrangement of a component of a motor vehicle (100) and for sealing the component, an opening (3) of the component being closed with a retroreflective closure (4), the closure (4) being covered by a light source (8). Light (9) is illuminated and light (9) reflected from the shutter (4) is captured by a camera (7). procedure after Claim 16 , wherein the sealing and the detection of the spatial arrangement are used as part of a process step for the production of the motor vehicle (100), wherein the component is in particular a body part and / or the process step comprises in particular a painting process.

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