DE102010037176A1 - Electrical energy storage device for use in hybrid or electric cars to provide electrical power to operate electromotor, has electrical connection parts separated from separating units in moving manner and placed in operative position - Google Patents

Abstract

The device (10) has voltage supplying modules (130-132) and electrical connection parts (140-142) that are connected in series manner, where the modules are connected by connections. Mechanical separating units (150-152) are moved from a rest position to an operative position based on data of an acceleration sensor. The electrical connection parts are separated from the separating units in moving manner and placed in the operative position. The separating units are moved by actuators (160-162) that are designed for movement on mechanical, pneumatic, hydraulic or electromechanical way. An independent claim is also included for a method for reducing electrical output voltage values of an electrical energy storage device.

Description

The present invention relates to an electrical energy store with safety function and to a method for reducing electrical output voltage values of an electrical energy store.

Electric energy storage in hybrid or electric vehicles provide electrical energy for operation of electric motors and have a voltage of up to several 100 V, since they have a plurality of modules with individual battery cells, which are connected in series. The individual modules each have only a relatively low voltage. Only by an electrical interconnection of the modules, wherein the modules are electrically coupled together in a series circuit, resulting in the high voltages of the electrical energy storage of up to several 100 V.

The US 2009/0159311 A1 describes a vehicle battery system having a plurality of vehicle battery cells. The individual vehicle battery cells are coupled to each other via electrical conductors, wherein the electrical conductors are designed to be separable, in order to provide an interruption in the event of an accident.

The US 2009/1039781 A1 describes a vehicle having a battery to provide a supply of electrical energy, an electric motor to drive the vehicle, and a first control circuit connected between the battery and the motor to control the flow of electrical energy. The battery is embedded in a battery installation device, wherein a plurality of battery cells of the battery are connected to the battery installation device via fragile connection wires, so that when occurring and acting on the battery installation device and the battery cells acceleration forces the fragile connection wires, which are formed of a thin wire, are interrupted. In the battery installation device described there is a costly production and a complex assembly of the fragile connection wires.

The JP 09274906 A discloses the use of spring elements for ejecting individual cells of an electrical energy store in the event of a crash.

The JP 09284901 A describes a plurality of batteries arranged in series, wherein the batteries in the arrangement can be moved in one direction. Between each two batteries, a spring is stretched. When a collision is detected by a safety device, the spring automatically releases and the two batteries associated with the spring are moved in the intended direction and separated from the assembly.

Safety devices, which automatically provide for an electrical contact interruption of the series connection of battery individual cells in the event of an accident of a hybrid vehicle, are from the DE 42 34 551 C1 known.

A disadvantage of the safety devices described is that they can not prevent accidental internal short circuits of a built-up of multiple cells battery that bear dangerous voltages for the driver to live metal parts of the body.

The object of the present invention is to provide an electrical energy store and a corresponding method which automatically reduces electrical voltage values in the event of a crash.

This object is achieved by an electrical energy store with a safety function having the features of patent claim 1 and by a method according to patent claim 10 for reducing electrical output voltage values of an electrical energy store.

Accordingly, the invention provides an electrical energy store with a safety function for reducing electrical output voltage values, wherein the electrical energy store has series-connected voltage-supplying modules and electrical connections through which the modules are connected, with a mechanical separating device which can be moved from a rest position into an operative position is, wherein the electrical connections of the voltage-supplying modules of the electrical energy storage device of the mechanical separation device are severable by a passage into the operative position.

Further, the present invention provides a method for reducing electrical output voltage levels of an electrical energy storage having a safety function, the electrical energy storage having serially connected voltage delivering modules and electrical connections through which the modules are connected, the method comprising a mechanical disconnect from a rest position is moved into an operative position, wherein the electrical connections of the series-connected modules of the electrical energy storage are severed by moving the mechanical separator.

The idea underlying the present invention lies in the use of the mechanical separating device in the electrical energy store. In the case of an accident of the hybrid or electric vehicle, the mechanical separating device is moved from a rest position to an operative position. By this movement of the separator, the electrical connection between individual modules of the electrical energy storage is separated. The mechanical separator dissolves the series connection of the individual modules. As a result of this separation, the low voltage of the individual modules no longer adds to a high output voltage.

The electric energy storage device according to the invention has the advantage over the known approaches that after a crash of the hybrid or electric vehicle on the electrical energy storage no potentially dangerous high voltage is applied more.

In the dependent claims are advantageous developments and improvements of the respective subject of the invention.

According to a preferred development, the electrical energy store has actuators, by means of which the mechanical separating device can be moved.

According to a further preferred development, the actuators are designed for generating movement in a mechanical, pneumatic, hydraulic, or electromechanical manner.

According to a further, preferred development, the mechanical separating device can be moved into the active position on the basis of data from an acceleration sensor.

According to a further, preferred development, the voltage-supplying modules have electrical voltage values which are below a contact voltage permissible for touching active parts.

According to a further, preferred development, the electrical energy store has an electrical output voltage value which is above a contact voltage permissible for touching active parts.

According to a further preferred development, the electrical energy store has a deformation area in which the mechanical separating device can be moved into the operative position.

According to a further, preferred development, the mechanical separating device can be moved from the rest position into the operative position on the basis of an evaluation of data of a deformation sensor.

According to a further, preferred development, the modules have series-connected battery cells.

According to a preferred development, the displacement of the mechanical separating device into the active position takes place on the basis of an evaluation of data of an acceleration sensor.

According to a further preferred development, the mechanical separating device is displaced by actuators in a mechanical, pneumatic, hydraulic or electromechanical manner.

According to a further, preferred development, the mechanical separating device is displaced into the active position only in a deformation region of the electrical energy store.

According to a further, preferred development, the displacement of the mechanical separating device into the active position takes place on the basis of an evaluation of data of a deformation sensor of the electrical energy store.

The embodiments of the invention are illustrated in the drawing and will be described in more detail below.

Show it:

1 a schematic representation of the electrical energy storage device according to a first embodiment of the present invention; and

2 a schematic representation of the electrical energy storage with severed electrical connection elements according to the first embodiment of the present invention.

DESCRIPTION OF PREFERRED EMBODIMENTS

The 1 shows a schematic representation of the electrical energy storage 10 according to a first embodiment of the present invention. The electrical energy storage 10 has, for example, a first pole 11 and a second pole 12 of the electrical energy storage 10 on. Furthermore, the electrical energy store comprises 10 preferably several battery cells 101 - 109 , which are connected in series and in groups to a variety of modules 130 - 132 are summarized. The modules 130 - 132 are via electrical connections 140 - 142 also connected in series. The electrical energy storage 10 has mechanical separators 150 - 152 on, which by actuators 160 - 162 are movable. The actuators allow, for example, a movement generation for the mechanical separation devices 150 - 152 by mechanical, pneumatic, hydraulic, or electromechanical means. For example, inductively operating electric motors, electromotive pneumatic, hydraulic or mechanical actuators or positioners are used to the mechanical separation devices 150 - 152 to move from the rest positions to the active positions. Furthermore, the electrical energy store with safety function has sensors such as deformation or acceleration sensors for the acquisition of data. By means of an evaluation of the data, for example, in the case of a registered accident of the hybrid or electric vehicle or a detected deformation of the electrical energy store, a method of the actuators or positioners for positioning the mechanical separation devices in the operative positions is obtained.

For example, an actuator or positioner is designed as a linear drive or linear drive system, which are designed a translational movement of the mechanical separation devices 150 - 152 to execute in a straight line or another predetermined course.

The 2 shows a schematic representation of the electrical energy storage 10 with severed electrical connection elements 140A . 141A . 142A according to the first embodiment of the present invention. The electrical energy storage 10 includes the first pole 11 and the second pole 12 of the electrical energy storage 10 , Furthermore, the electrical energy store comprises 10 the battery cells 101 - 109 , which in groups to the modules 130 - 132 are summarized. The severed electrical connections 140A . 141A . 142A separate an example, in series electrical wiring of the modules 130 - 132 because of the mechanical separators 150 - 152 through the actors 160 - 162 have been moved while doing the electrical connections 140 - 142 have severed.

The modules 130 - 132 individually have only output voltages that are below a Berührschutzspannung, which pose no danger to the driver. In particular, in the case of unwanted concern of output voltages of the modules 130 - 132 on an electrically conductive part of the hybrid or electric vehicle.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been 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.

Cited patent literature

• US 2009/0159311 A1 [0003]
• US 2009/1039781 A1 [0004]
• JP 09274906 A [0005]
• JP 09284901 A [0006]
• DE 4234551 C1 [0007]

Claims (14)

Electric energy storage ( 10 ) with a safety function for reducing electrical output voltage values, wherein the electrical energy store ( 10 ) series-connected voltage-supplying modules ( 130 . 131 . 132 ) and electrical connections ( 140 . 141 . 142 ), by which the voltage-delivering modules are connected, with a mechanical separating device ( 150 . 151 . 152 ), which is movable from a rest position to an operative position, wherein the electrical connections ( 140 . 141 . 142 ) of the voltage supplying modules ( 130 . 131 . 132 ) of the electrical energy store ( 10 ) from the mechanical separator ( 150 . 151 . 152 ) are severable by a move into the operative position. Electrical energy store according to claim 1, wherein the mechanical separation device ( 150 . 151 . 152 ) by actuators ( 160 . 161 . 162 ) is movable. Electrical energy store according to claim 2, wherein the actuators ( 160 . 161 . 162 ) are designed for generating movement in a mechanical, pneumatic, hydraulic, or electromechanical manner. Electrical energy store according to one of the preceding claims, wherein the mechanical separating device ( 150 . 151 . 152 ) is moved into the operative position due to data of an acceleration sensor. Electrical energy store according to one of the preceding claims, wherein the voltage-supplying modules ( 130 . 131 . 132 ) have electrical voltage values which are below a contact voltage permissible for touching active parts. Electrical energy store according to one of the preceding claims, wherein the electrical energy store ( 10 ) has an electrical output voltage value which is above a contact voltage permissible for touching active parts. Electrical energy store according to one of the preceding claims, wherein the electrical energy store ( 10 ) has a deformation region in which the mechanical separation device ( 150 . 151 . 152 ) can be moved into the operative position. Electrical energy store according to one of the preceding claims, wherein the mechanical separating device ( 150 . 151 . 152 ) is movable from the rest position to the operative position due to an evaluation of data of a deformation sensor. Electrical energy store according to one of the preceding claims, wherein the modules ( 130 . 131 . 132 ) series-connected battery cells ( 101 - 109 ) exhibit. Method for reducing electrical output voltage values of an electrical energy store ( 10 ) with a safety function, wherein the electrical energy storage ( 10 ) series-connected voltage-supplying modules ( 130 . 131 . 132 ) and electrical connections ( 140 . 141 . 142 ), through which the modules are connected, wherein in the method a mechanical separating device ( 150 . 151 . 152 ) is moved from a rest position to an operative position, wherein by moving the mechanical separating device ( 150 . 151 . 152 ) the electrical connections ( 140 . 141 . 142 ) of the series-connected modules ( 130 . 131 . 132 ) of the electrical energy store ( 10 ) are severed. Method according to claim 10, wherein the displacement of the mechanical separating device ( 150 . 151 . 152 ) takes place in the active position due to an evaluation of data of an acceleration sensor. Method according to one of claims 10 or 11, wherein the mechanical separation device ( 150 . 151 . 152 ) by actuators ( 160 . 161 . 162 ) is displaced in a mechanical, pneumatic, hydraulic, or electromechanical manner. Method according to one of the preceding claims, wherein the mechanical separating device ( 150 . 151 . 152 ) only in a deformation region of the electrical energy store ( 10 ) is moved into the operative position. Method according to one of the preceding claims, wherein the displacement of the mechanical separating device ( 150 . 151 . 152 ) in the active position due to an evaluation of data of a deformation sensor of the electrical energy store ( 10 ) he follows.

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