DE102020007860A1 - Electrical energy storage for a vehicle - Google Patents

Abstract

The invention relates to an electrical energy store (3) for a vehicle (1) with a plurality of individual cells (4) interconnected in series, which are arranged in a hose (5) and designed as a single cell string (2) by means of the hose (5). According to the invention, the single cell line (2) formed by means of the hose (5) is spirally wound up in a circular receiving unit (6) with a spiral frame (9) and a turntable (7) in the rear area of the vehicle (1).

Description

The invention relates to an electrical energy store for a vehicle with a plurality of individual cells interconnected in series, which are arranged in a hose and designed as a single cell string by means of the hose.

From the DE 10 2014 203 643 A1 a battery is known. The battery comprises at least a first and a second battery cell which are arranged in series, a flexible cell connector which connects the first battery cell to the second battery cell, and a hose element which encloses the first and second battery cells and the flexible cell connector.

The invention is based on the object of specifying an electrical energy store for a vehicle with a plurality of individual cells electrically interconnected in series.

The object is achieved according to the invention by an electrical energy store which has the features specified in claim 1.

Advantageous refinements of the invention are the subject matter of the subclaims.

An electrical energy store for a vehicle comprises a plurality of individual cells interconnected in series, which are arranged in a hose and designed as a single cell string by means of the hose. According to the invention, the strand of single cells formed by means of the hose is spirally wound up in a circular receiving unit with a spiral frame and a turntable in the rear area of the vehicle.

An electrical energy store designed in this way can be removed from the vehicle in a comparatively simple manner and without great effort, for example for repairing and / or replacing individual cells. In particular, in the event of an accident in the vehicle, the electrical energy store can be removed from the vehicle relatively quickly, so that a fire risk and a risk of a non-extinguishable fire in the vehicle can be at least substantially reduced.

The electrical energy store is arranged in particular in the rear area of the vehicle in such a way that it can be removed from the vehicle without aids, in particular without a lifting platform.

Embodiments of the invention are explained in more detail below with reference to drawings.

• 1 schematisch eine Seitenansicht eines Fahrzeuges vor einer Anordnung eines mittels eines Schlauches gebildeten Einzelzellenstranges eines elektrischen Energiespeichers,
• 2 schematisch eine Draufsicht eines Heckbereiches des Fahrzeuges bei Anordnung des Einzelzellenstranges und
• 3 schematisch eine Draufsicht des Heckbereiches nach Anordnung des Einzelzellenstranges.

Show:

• 1 schematically a side view of a vehicle in front of an arrangement of a single cell string of an electrical energy storage device formed by a hose,
• 2 schematically a top view of a rear area of the vehicle with the arrangement of the single cell string and
• 3rd schematically a plan view of the rear area after the arrangement of the single cell string.

Corresponding parts are provided with the same reference symbols in all figures.

1 shows a side view of a vehicle 1 in front of an arrangement of a single cell string 2 to form an electrical energy store 3rd .

In the case of a vehicle designed as an electric vehicle 1 is the electrical energy storage 3rd usually permanently installed, for example on the vehicle underbody. An electrical energy store arranged in this way 3rd , which is usually designed compactly as a structural unit, is comparatively difficult from the vehicle 1 removable, for example around the energy storage 3rd to be replaced or in the event of a fire in the vehicle 1 .

Especially in the event of a fire in the vehicle 1 can the energy storage 3rd not fast enough from the vehicle due to its fixed installation on the vehicle 1 are dismantled, with individual cells electrically interconnected 4th of the energy storage 3rd Materials include that a fire not only spreads comparatively quickly but also cannot be extinguished in the conventional way.

In particular, a risk of fire spreading in the event of a vehicle accident 1 to reduce significantly and to reduce the energy storage 3rd comparatively easy from the vehicle 1 can be taken from the energy storage 3rd as described below.

The single cells 4th of the energy storage 3rd are cylindrical, electrically connected in series and in a flexible hose 5 arranged, which is formed for example from a fiber-reinforced and fireproof fabric. By means of the one in the hose 5 arranged single cells 4th is a single cell string 2 educated.

In the rear of the vehicle 1 is one in the 2 and 3rd circular receiving unit shown in more detail 6th arranged.

The recording unit 6th has a circular turntable 7th with a drive unit 8th and a spiral-shaped receiving structure arranged thereon, in particular in the form of a spiral-shaped frame 9 , as well as a current-carrying circular current extraction unit 10 with sliding contacts.

The drive unit 8th is designed in particular as an electric motor and for winding and unwinding the individual cell string 2 intended.

The spiral frame 9 as a support structure is on the turntable 7th arranged and attached or on the turntable 7th designed and serves both to accommodate the spirally wound single cell strand 2 as well as for its fixation, the fixation through the spiral structure of the frame 9 is realized.

In one possible embodiment of the receiving unit 6th is a temperature control unit not shown, especially in the spiral frame 9 integrated so that the single cells 4th of the single cell line 2 can be cooled and heated according to need. In particular, the temperature control unit is used to transport one away during loading and unloading of the individual cells 4th resulting heat loss, with the individual cells 4th at comparatively low outside temperatures before starting up the vehicle 1 can be heated to an optimal operating temperature by means of the temperature control unit.

Temperature fluctuations in the electrical energy store can therefore be avoided by means of the temperature control unit 3rd efficiently balanced.

The means of the in the hose 5 arranged upright single cells 4th formed single cell strand 2 is about an opening O in the rear of the vehicle 1 or on the side at the rear in the receiving unit 6th insertable, as in 2 is shown. It shows 2 a top view of the rear of the vehicle 1 with arrangement of the single cell string 2 in the recording unit 6th . For example, several openings can also be used O as a way to access the electrical energy storage 3rd on the vehicle 1 be formed, the respective opening by means of a, for example by means of a lock, secured cover 11 is lockable.

Is an inserted end of the single cell line 2 by a driver of the receiving unit 6th is detected and coupled to this, the drive unit 8th , e.g. B. automatically activated so that the turntable 7th rotates and the single cell string rotates 2 by means of the frame 9 in this spiral wound. In particular, are at a front end of the single cell string 2 Arranged contact plates, not shown in detail, for drawing current.

In 3rd is the single cell string 2 shown in the wound state, with all individual cells in the completely wound state 4th in the recording unit 6th , especially within the frame 9 , are located.

In one possible embodiment there are several of these receiving units 6th provided in the vehicle 1 can be stacked on top of each other so that the receiving units 6th with their respective turntable 7th and frame 9 can be made smaller. This makes the single cell strings 2 made shorter, with a receiving unit 6th with single cell line 2 can form a battery segment.

Such a battery segment can, for. B. have an electrical voltage of 50 volts, and is compared to the energy store 3rd quickly exchangeable, so that z. B. also a charging time of the electrical energy store 3rd can be shortened by simply exchanging a discharged battery segment with a charged battery segment.

Regarding the turntable 7th the acquisition unit 6th is the power consumption unit 10 arranged centered and on an underside of the turntable 7th sliding contacts are arranged in the form of a two-pole slip ring.

One of the individual cells is forwarded by means of the slip ring 4th , ie from the single cell string 2 , withdrawn current, for example to an AC / DC converter, allows.

By means of an electrical energy store designed in this way 3rd it is in the event of a vehicle accident 1 possible that of emergency services of the electrical energy storage 3rd as a unit, a battery segment or several battery segments from the vehicle 1 can be taken. The removal can be done manually and / or by means of a suitable construction. This construction can for example be designed in such a way that the respective hose 5 with the single cells 4th in a container which is filled with an extinguishing agent, e.g. B. water, is introduced, e.g. B. rolled up, is. Thus, a fire that has started or has already been triggered can occur in individual individual cells 4th can be effectively prevented or prevented.

It is also conceivable that people hurrying to help, for example first aiders, have a single cell line 2 or several strands of single cells 2 , depending on how many battery segments the electric Energy storage 3rd includes, from the vehicle 1 can pull.

For this purpose it can be provided that, for. B. after detecting certain signals by means of a collision sensor system of the vehicle 1 which the respective the opening O or the openings O locking cover 11 or covers 11 , especially in the rear of the vehicle 1 , is or will be released.

Alternatively or additionally, the electrical energy store can 3rd or a single battery segment automatically from one of the released openings O are pushed out, it is detected by means of a vehicle-side sensor system and / or by means of an energy storage monitoring unit that a fault current in one of the individual cell strings 2 is present. Thus, the risk of a fire and / or an uncontrolled spread can at least be prevented.

The charging time of the energy storage 3rd can also be shortened by moving the vehicle 1 for example, drives to a station at which fully charged single cell strings 2 are available. It can also be provided that this exchange is carried out fully automatically.

For this purpose it can be provided that the vehicle 1 moves backwards to a removal unit of the station and at this a completely discharged single cell string 2 fully automatically removed and a fully charged single cell string 2 through the opening O in the rear of the vehicle 1 is introduced.

This exchange can be carried out fully automatically in a comparatively short time, so that relatively long charging times and rapid charging processes that place stress on the energy store are not required.

List of reference symbols

1

vehicle

2

Single cell string

3

Energy storage

4th

Single cell

5

tube

6th

Recording unit

7th

Turntable

8th

Drive unit

9

frame

10

Power take-off unit

11

cover

O

opening

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 102014203643 A1 [0002]

Claims (3)

Electrical energy store (3) for a vehicle (1) with a plurality of individual cells (4) interconnected in series, which are arranged in a hose (5) and designed as a single cell string (2) by means of the hose (5), characterized in that the single cell line (2) formed by means of the hose (5) is spirally wound up in a circular receiving unit (6) with a spiral frame (9) and a turntable (7) in the rear area of the vehicle (1). Electrical energy storage (3) according to Claim 1 , characterized in that the hose (5) is formed from a fire-resistant fabric. Electrical energy storage (3) according to Claim 1 or 2 , characterized in that the receiving unit (6) comprises a temperature control unit for controlling the temperature of the individual cells (4) and is coupled to a drive unit (8) for executing a rotary movement.

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