DE102020109508A1 - Measuring device for checking the leakage of a battery, measuring system and method - Google Patents

Abstract

The invention relates to a measuring device (3) for checking the tightness of a battery housing (4) of a battery (2) for a motor vehicle, the measuring device (3) having a transmitter unit (6) which can be arranged within the battery housing (4) for emitting electromagnetic free-space waves and a has a receiving unit (7) which can be arranged outside the battery housing (4) for receiving electromagnetic free space waves, the transmitting unit (6) being designed to transmit a test signal (11) in the form of electromagnetic free space waves inside the battery housing (4), and the receiving unit (7) ) on receiving the test signal (11) sent by the transmitter unit (6) outside the battery housing (4) is designed to detect a leak (13) in the battery housing (4). The invention also relates to a measuring system (1) and a method.

Description

The invention relates to a measuring device for checking the tightness of a battery housing of a battery for a motor vehicle. The invention also relates to a measuring system with a measuring device and a battery and a method for checking the tightness.

In the present case, the interest is directed towards batteries, in particular traction batteries for electrically driven motor vehicles, that is to say electric vehicles or hybrid vehicles. Such batteries typically include a multiplicity of battery components, for example battery cells and battery electronics. The battery components are arranged within a battery housing of the battery. In order to protect the battery components from environmental influences, for example water or dirt, the battery housing should be designed to be tight.

In order to be able to check the tightness of a battery housing, the DE 10 2013 209 702 A1 a connection device. The connection device comprises an attachment element for tight fitting onto a pressure compensation element integrated into the battery housing, and a pressure connection on the attachment element in order to subject the interior of the battery housing to overpressure or underpressure through the pressure compensation element.

It is the object of the present invention to provide an alternative and particularly easy to implement solution for checking the tightness of a battery housing of a battery for a motor vehicle.

According to the invention, this object is achieved by a measuring device, a measuring system and a method having the features according to the respective independent claims. Advantageous embodiments of the invention are the subject of the dependent claims, the description and the figure.

A measuring device according to the invention is used to check the tightness of a battery housing of a battery for a motor vehicle. The measuring device has a transmitting unit, which can be arranged inside the battery housing, for emitting electromagnetic free space waves, and a receiving unit, which can be arranged outside the battery housing, for receiving electromagnetic free space waves. The transmission unit is designed to transmit a test signal in the form of electromagnetic free space waves within the battery housing. When the test signal sent out by the transmitting unit is received outside the battery housing, the receiving unit is designed to detect a leak in the battery housing.

The invention also relates to a method for checking the tightness of a battery housing of a battery for a motor vehicle. In the method, a test signal in the form of electromagnetic free space waves is emitted within the battery housing. It is then checked whether the test signal transmitted inside the battery housing is received outside the battery housing. If the test signal is received outside of the battery housing, a leak in the battery housing is detected.

The invention also includes a measuring system having a battery with a battery housing and a measuring device according to the invention. The transmitting unit is arranged inside the battery housing and the receiving unit is arranged outside the battery housing. The rechargeable battery is preferably a high-voltage accumulator which can be used as a traction battery for an electrically drivable motor vehicle. A multiplicity of battery components are also arranged within the battery housing. Such battery components are, for example, battery cells, battery electronics, cooling devices for cooling the battery cells, etc. The battery housing is in particular at least partially formed from a metallic material, for example aluminum. The battery housing has a housing wall which encloses an interior space or receiving space for receiving the battery components. In the event that the battery housing is tight, this housing wall forms a shield against electromagnetic free space waves. In other words, electromagnetic free space waves cannot pass through the housing wall of a sealed battery housing and thus cannot escape from the interior into the surroundings of the battery.

In order to check whether the battery housing is tight, a test signal in the form of electromagnetic free space waves is sent out inside. For this purpose, the transmission unit can have at least one separate transmission antenna, which is installed or arranged specifically for checking the tightness in the interior of the battery housing. The at least one separate transmitting antenna is designed in particular as an omnidirectional antenna and / or a phased array antenna. In this way, the at least one transmitting antenna can transmit the test signal in all directions within the battery housing. It can also be provided that the transmission unit has at least one battery component of the battery that can be stimulated to emit electromagnetic free space waves and is arranged in the battery housing. So it will enables a battery component of the battery to act as a transmitting antenna for transmitting the test signal. Such a battery component can be a component of the battery electronics, for example. This is particularly advantageous because the measuring device can thus be designed in a particularly cost-effective manner, with little additional use of hardware.

The receiving unit is arranged outside the battery housing in the vicinity of the battery. The receiving unit has in particular at least one receiving antenna and an evaluation unit. The transmitting unit and the receiving unit are separated by the housing wall of the battery housing. The transmitter unit sends out the test signal in the form of high-frequency, electromagnetic free space waves. The transmitted test signal has a predetermined frequency in particular. If the battery housing is leaky, the test signal can escape into the surroundings via the leaking point in the battery housing or the leakage and can be received there by the at least one receiving antenna. This means that the evaluation unit detects the leak in the battery housing. Because the transmitted test signal has a predetermined frequency, the test signal received by the receiving unit can be clearly assigned to the transmitting unit. It can thus be avoided that interference waves from the environment are detected and incorrectly interpreted as a leak in the battery housing. If the battery housing is tight, the test signal cannot pass the housing wall, remains in the interior and cannot be received by the receiving unit. In this way, the evaluation unit recognizes the tightness of the battery housing. The leakage diagnosis by means of the free space waves is carried out in particular in the assembly at the end of the production of the battery, before the battery is installed in the motor vehicle, in a so-called end-of-line test.

Checking the tightness of the battery housing by means of electromagnetic waves has the advantage that it is particularly easy to implement. Due to the electromagnetic free space waves propagating at the speed of light, the leak test can also be carried out particularly quickly and with little expenditure of time, so that a large number of batteries can be tested for leakage in a short time in the end-of-line test.

The receiving unit is preferably designed to localize the leak and assign it to a housing wall area of the housing wall of the battery housing. The receiving unit can therefore recognize in which housing wall area of the housing wall the leak is located, so that it can, for example, easily be sealed by assembly personnel. For example, the receiving unit can have at least two receiving antennas for this purpose, which can be arranged at different locations outside the battery housing and are thus separated from the transmitting unit within the battery housing by different housing wall areas. On the basis of the receiving antenna receiving the test signal, the leak can then be assigned to that housing wall area which is located between the transmitting unit and the receiving receiving antenna. The receiving unit can also have at least one receiving antenna and an actuating device. The actuating device is designed to move the at least one receiving antenna along the housing wall of the battery housing and thus to position it at different locations outside the battery housing. The housing wall is therefore moved by the receiving antenna and a check is made as to whether the receiving antenna receives the test signal transmitted into the interior of the battery housing at any point.

It has proven to be advantageous if the receiving unit is designed to determine a size of the leak on the basis of a transmitting power of the transmitting unit and a receiving power of the receiving unit. The larger the leak, the greater the power received by the receiving unit. Based on the size of the leak, the assembly personnel can decide, for example, whether the battery housing can be repaired or needs to be replaced.

The embodiments presented with reference to the measuring device according to the invention and their advantages apply accordingly to the measuring system according to the invention and to the method according to the invention.

Further features of the invention emerge from the claims, the figure 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 figure can be used not only in the respectively specified combination, but also in other combinations or on their own.

The invention will now be explained in more detail using a preferred exemplary embodiment and with reference to the drawing. The only figure shows 1 a schematic representation of a measuring system 1 .

The measuring system 1 has a battery 2 as well as a measuring device 3 for checking the tightness of a battery housing 4th the battery 2 on. The battery 2 is in particular a high-voltage energy store and has a large number of battery components (not shown here), for example battery cells, battery control devices, etc., which are located in an interior 5 of the battery case 4th are arranged. The measuring device 3 a transmitter unit 6th and a receiving unit 7th on. The transmitter unit 6th is in the interior 5 of the battery case 4th arranged and the receiving unit 7th is in an environment 8th the battery 2 outside of the battery case 4th arranged.

The transmitter unit 6th has a transmitting antenna 9 which is designed to emit electromagnetic free space waves. The transmitting antenna 9 can be specially designed for checking in the battery housing 4th arranged interference source or a battery component of the battery acting as an interference source 2 be. The receiving unit 7th has a receiving antenna 10 which is designed to receive electromagnetic free space waves. The transmitting antenna 9 is designed to be a test signal 11 in the interior 5 of the battery case 4th to send out. If a housing wall 12th of the battery case 4th a leak 13th has, the test signal can 11 about this leak 13th in the neighborhood 8th spread out and from the receiving antenna 10 be received. By receiving the test signal 11 by means of the receiving antenna 10 can the receiving unit 7th the leak 13th recognize.

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 102013209702 A1 [0003]

Claims (10)

Measuring device (3) for checking the tightness of a battery housing (4) of a battery (2) for a motor vehicle, the measuring device (3) having a transmitter unit (6) that can be arranged inside the battery housing (4) for emitting electromagnetic free-space waves and one outside the battery housing ( 4) has a disposable receiving unit (7) for receiving electromagnetic free space waves, the transmitting unit (6) being designed to send a test signal (11) in the form of electromagnetic free space waves inside the battery housing (4), and the receiving unit (7) when receiving of the test signal (11) emitted by the transmitter unit (6) outside the battery housing (4) is designed to detect a leak (13) in the battery housing (4). Measuring device (3) Claim 1 , characterized in that the transmitting unit (6) has at least one separate transmitting antenna (9) for transmitting the test signal (11). Measuring device (3) Claim 2 , characterized in that the at least one separate transmitting antenna (9) is designed as an omnidirectional antenna and / or a phased array antenna. Measuring device (3) Claim 1 characterized in that the transmission unit (6) has at least one battery component of the battery (2) which can be excited to emit electromagnetic free space waves and is arranged in the battery housing (4). Measuring device (3) according to one of the preceding claims, characterized in that the receiving unit (7) is designed to localize the leak (13) and assign it to a housing wall area of a housing wall (12) of the battery housing (4). Measuring device (3) Claim 5 , characterized in that the receiving unit (7) has at least two receiving antennas (11) which can be arranged at different locations outside the battery housing (4) and are thus separated from the transmitting unit (6) within the battery housing (4) by different housing wall areas. Measuring device (3) Claim 5 , characterized in that the receiving unit (7) has at least one receiving antenna (11) and an adjusting device which is designed to move the at least one receiving antenna (11) along the housing wall (12) of the battery housing and thus at different locations outside the To position the battery housing (4). Measuring device (3) according to one of the preceding claims, characterized in that the receiving unit (7) is designed to determine a size of the leak (13) on the basis of a transmitting power of the transmitting unit (6) and a receiving power of the receiving unit (7). Measuring system (1) comprising a battery (2) with a battery housing (4) and a measuring device (3) according to one of the preceding claims, wherein the transmitting unit (6) is arranged inside the battery housing (4) and the receiving unit (7) is arranged outside the Battery housing (4) is arranged. Method for checking the tightness of a battery housing (4) of a battery (2) for a motor vehicle, comprising the steps: - Sending a test signal (11) in the form of electromagnetic free space waves within the battery housing (4), - Check whether the test signal (11) transmitted inside the battery housing (4) is received outside the battery housing (4), and - Detection of a leak (13) in the battery housing (4) if the test signal (11) is received outside the battery housing (4).

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