DE102020003310A1 - High voltage battery - Google Patents

Abstract

The invention relates to a high-voltage battery (1) with several individual battery cells and / or battery modules, with at least one blow-off line (3) for escaping gases, and with a device (4) for reducing the internal pressure via the blow-off line if necessary. The invention is characterized in that that an ignition device (8) is arranged in the area of the blow-off line (3).

Description

The invention relates to a high-voltage battery with a plurality of individual battery cells and / or battery modules, according to the type defined in more detail in the preamble of claim 1.

So-called high-voltage batteries, which have a direct voltage of more than 60 V, are used, for example, in electrically or partially electrically powered vehicles. Such batteries are usually designed as lithium-ion batteries. In order to avoid overpressure in the battery in the event of a short circuit in one of the battery cells or other damage to such battery cells, devices for reducing the internal pressure are typically known, which release the resulting gases from the battery and, for example, via a blow-off line, which is often also called Venting line is called, release into the environment. In this context, for example, on the DE 10 2014 006 343 A1 be referred to the applicant. Such a venting line with a device for reducing the internal pressure is described there. The purpose of this document is to provide the device for reducing the internal pressure, which can be implemented as a bursting disc, for example, with a corresponding signal transmitter so that its response can be detected.

If, when such a device responds, gases are diverted from the battery, then these gases can form an ignitable mixture in connection with the ambient air. This ignitable mixture can then remain, for example, in a garage or another poorly ventilated place in which the vehicle is parked. Ignitable mixtures are formed in the vicinity of the vehicle. If an unintentional ignition occurs at a later point in time, this poses an extremely high risk, as flash flames and explosions can occur, which can lead to considerable damage to the vehicle and the surrounding area and endanger human life.

Such a scenario can also arise with large stationary storage batteries, which are used, for example, for emergency power supply or in the area of ships, if, for example, the gases from a housing, typically in the form of a sea container, get into the environment, are distributed in the outside area and there unintentionally be ignited.

In the prior art, attempts are therefore made to reduce the ignitability of the mixtures by means of various measures. For example, the WO 2015/184310 A1 a structure with a flame retardant, which is to prevent the ignition of the gases. Also the JP 2013-161 735 A deals with this. The venting gases are fed through a cartridge in which an agent is added to the gas, which makes it flame-retardant. This agent is described, for example, as a gas, liquid or powder and can, for example, contain suitable bromine and / or phosphorus compounds and a metal hydroxide, which make the ignition of the gases significantly more difficult and thus reduce the risk.

In the end, this always reduces the risk, but never eliminates it. In addition, for example, the material in the cartridge can be used up or the material itself can pose a risk to the environment. The object of the present invention is therefore to avoid these disadvantages and to specify an improved high-voltage battery according to the preamble of claim 1.

According to the invention, this object is achieved by a high-voltage battery having the features in claim 1. Such a battery can preferably be used in an at least partially electrically powered vehicle. However, it is also suitable for stationary applications, battery systems on ships or the like.

The high-voltage battery according to the invention comprises several single battery cells and / or battery modules as well as at least one blow-off line or venting line for escaping gases and a device for reducing the internal pressure via the blow-off line, which, if necessary, lets gases escape from the single battery cells and / or battery modules. According to the invention, an ignition device is arranged in the region of the blow-off line. The principal danger of igniting gases is difficult to control. The inventor has now recognized that a targeted burn-off of the gases in the area of the blow-off line can be controlled relatively easily and efficiently. Such a targeted burn-off in the area of the blow-off line is therefore to be preferred in any case to an uncontrolled outflow of the gases with the risk that explosive mixtures can form. Based on these considerations, the high-voltage battery according to the invention therefore provides an ignition device in the area of the blow-off line in order to ignite the gases in a targeted manner and burn them off in a controlled manner if necessary. After the targeted burning off of the gas, only flue gas remains, which is then no longer ignitable and cannot form explosive mixtures.

According to a very advantageous development of the high-voltage battery according to the invention, the ignition device is on that of the surroundings facing, that is to say the end of the blow-off line facing away from the individual battery cells and / or battery modules. In particular, this at least one blow-off line can be a collecting line which receives the venting lines of the individual battery cells and / or battery modules, brings them together and protrudes from the housing. In the simplest case, the at least one blow-off line can only be an opening in the housing, so that the gases first collect in the housing and then exit in a targeted manner through this opening.

An extremely favorable development of the high-voltage battery according to the invention provides that the ignition device is designed as a glow plug. In principle, different types of ignition devices are fundamentally conceivable. The use of a glow plug has the advantage that this is a component that is widespread in the automotive sector and is easily and inexpensively available on the market. If required, the controlled burning of the gases can be initiated very reliably via such a glow plug.

According to a very advantageous further development of the idea, the device for reducing the internal pressure can be designed as a rupture disk which, above a certain excess pressure, breaks or tears and allows the gases to flow away. As in the aforementioned prior art in the form of DE 10 2014 006 343 A1 In the area of the blow-off line and / or the device for reducing the internal pressure, a corresponding signal transmitter can be present, for example a tear-wire transmitter, an inductive transmitter or the like, which detects the response of the device, e.g. the bursting of the rupture disc.

According to a further very favorable embodiment of the high-voltage battery according to the invention, it can now also be provided that the ignition device or a control device thereof is set up to ignite as a function of a signal from this signal transmitter. The ignition device, for example the glow plug mentioned above, is therefore only operated when the device for reducing the internal pressure, for example the bursting disc, has responded. This can be recorded via the corresponding signal transmitter. As soon as the signal is present, the ignition device is then supplied with electrical power in order, for example in the case of a glow plug, to be heated until it glows. The gas that then flows into this area is reliably ignited at the glow plug and burns down in the area of the high-voltage battery, so that no unwanted explosion can occur in the area. Through this targeted burning, a high level of safety of the high-voltage battery can be achieved, which is a very decisive advantage, especially when used in vehicles.

Further advantageous configurations of the high-voltage battery according to the invention also result from the exemplary embodiment, which is shown in more detail below with reference to the figures.

• 1 eine beispielhafte Hochvoltbatterie in einem Gehäuse in einem Querschnitt;
• 2 eine Hochvoltbatterie analog zu der in 1 mit einer Vorrichtung zur Verringerung des Innendrucks in einer Ausführung gemäß dem Stand der Technik; und
• 3 eine Darstellung analog zu der in 2 in einer Ausführungsform gemäß der Erfindung.

Show:

• 1 an exemplary high-voltage battery in a housing in a cross section;
• 2 a high-voltage battery analogous to the one in 1 with a device for reducing the internal pressure in an embodiment according to the prior art; and
• 3 a representation analogous to that in 2 in one embodiment according to the invention.

In the representation of the 1 is a high-voltage battery 1 shown within a housing labeled 2. The case 2 For example, the battery housing can be in an at least partially electrically powered vehicle. For example, it can also be a shipping container in the case of a large mobile battery, for example on a cargo ship. It could just as well be a corresponding housing for a stationary battery. The structure is essentially always the same.

About the high-voltage battery 1 , which in turn is made up of individual battery cells and / or battery modules, this housing is located around it 2 with one in the case 2 remaining space. This is via a blow-off line 3 connected to the environment, for example in the blow-off line 3 or in the area of high-voltage batteries 1 or devices corresponding to their battery modules and / or individual battery cells 4th are provided to reduce an increased internal pressure in the event of damage. This device 4th is in the representation of the 1 for example as a so-called rupture disc in the blow-off line 3 shown. Via a sensor known in principle from the prior art 5 This rupture disc can respond as a device 4th for example, detect in a control unit labeled 6. Different options for such a sensor 5 or signal transmitters are in the DE 10 2014 006 343 A1 described in detail by the applicant.

In the representation of the 2 is now the in 1 The structure shown is taken up again. It's inside the high-voltage battery 1 came to a damaging event, so that gases were formed, which after the rupture disc was destroyed as contraption 4th via the blow-off line 3 Flow into the environment U. There is an ignitable mixture designated 7, which these venting gases have formed together with the air in the environment U. If there is undesired heating, a spark or the like, this mixture can ignite and burn down in an uncontrolled manner via a jet flame or explode. This poses a considerable security risk.

In the representation of the 3 is the in 2 The structure shown is taken up again, with a simple and efficient solution to the problem being provided. The sensor speaks 5 indicates that the device 4th , in this case the rupture disc has burst, this is indicated in the control device 6th recognized. The control device 6th then controls a glow plug 8th as an ignition device in the area of the blow-off line 3 , especially at their transition into the environment U. This glow plug ensures that it is out of the housing 2 about the high-voltage battery 1 outflowing gas controlled at the end of the blow-off line 3 burns down. In the actual environment U then only flue gas designated by 9 reaches this targeted via a flame 10 indicated combustion, which is completely uncritical with regard to further combustion and / or the formation of explosive mixtures. This is done through the active, conscious and controlled burning of the venting gases at the end of the blow-off line 3 a high safety advantage over the risk of an uncontrolled explosion or the like achieved.

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 102014006343 A1 [0002, 0011, 0016]
• WO 2015/184310 A1 [0005]
• JP 2013161735 A [0005]

Claims (7)

High-voltage battery (1) with several individual battery cells and / or battery modules, with at least one blow-off line (3) for escaping gases, and with a device (4) for reducing the internal pressure via the blow-off line if necessary, characterized in that in the area of the blow-off line (3 ) an ignition device (8) is arranged. High-voltage battery (1) Claim 1 , characterized in that the ignition device (8) is arranged on the end of the at least one blow-off line (3) facing away from the individual battery cells and / or battery modules. High-voltage battery (1) Claim 1 or 2 , characterized in that the ignition device is designed as a glow plug (8). High-voltage battery (1) Claim 1 , 2 or 3 , characterized in that the device (4) for reducing the internal pressure is designed as a rupture disk. High-voltage battery (1) after one of the Claims 1 until 4th , characterized in that a signal transmitter (5) for detecting the response of the device (4) is arranged in the area of the device (4) for reducing the internal pressure. High-voltage battery (1) Claim 5 , characterized in that the ignition device (8) and / or a control device (6) controlling it is set up to ignite as a function of a signal from the signal transmitter (5). Vehicle with a high-voltage battery (1) after one of the Claims 1 until 6th .

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