WO2016120200A1

WO2016120200A1 - Method and system for equipping motor vehicles with energy stores, energy store and method for producing an energy store

Info

Publication number: WO2016120200A1
Application number: PCT/EP2016/051437
Authority: WO
Inventors: Jörg MICHAEL; Johannes Landgraf
Original assignee: Audi Ag
Priority date: 2015-01-31
Filing date: 2016-01-25
Publication date: 2016-08-04
Also published as: DE102015001252A1

Abstract

The invention relates to a method for equipping motor vehicles (10, 10a) with energy stores (1, 1a, 1b, 1c) of a different type which is determined for each motor vehicle (10, 10a) according to a specification (12), each energy store (1, 1a, 1b, 1c) having a cylindrical housing that is designed in a defined manner (2) and that is the same for all energy stores (1, 1a, 1b, 1c), at least with respect to its extent and fastening devices, and each motor vehicle (10, 10a) having at least one fitting position (11) that is adapted to the housing (2). In said method, at least one energy store (1, 1a, b, 1c) is selected, according to the specification (12), for a motor vehicle (10, 10a) to be equipped and is fitted in the at least one fitting position (11) on the motor vehicle (10, 10a).

Description

Method and system for equipping motor vehicles with energy storage, energy storage and method for producing a

energy storage

The invention relates to a method for equipping motor vehicles with energy storage devices of different types, for each motor vehicle according to a specification of a specific type, a corresponding system, an energy store for a motor vehicle and a method for producing an energy store.

Conventional motor vehicles are usually operated with liquid, fossil fuels, in particular gasoline or diesel. For this purpose, such a conventional motor vehicle as energy storage on a tank in which the liquid fuel is stored until it is fed to an internal combustion engine for the production of drive energy. In the meantime, however, motor vehicles with alternative drive concepts have also been proposed in which the drive energy is thus obtained from other energy carriers. For example, it has been proposed to operate motor vehicles with gaseous fuels, in particular with hydrogen or compressed natural gas. Furthermore, motor vehicles are known in which the drive energy is at least partially obtained from electrical energy, including such motor vehicles as energy storage usually have a battery with electric storage cells.

Such batteries, in particular high-voltage batteries are supplied in cuboid housings and installed in the body of the motor vehicle. For high-pressure gaseous fuels, such as compressed natural gas (CNG) or hydrogen, tanks are provided with cylindrical containers as energy storage, since these represent the optimal, most stable form with respect to the high pressure. Put such tanks other requirements / space requirements than the aforementioned batteries or conventional tanks for liquid fuel (fuel).

Concepts have been proposed according to which motor vehicles can be prefabricated by their users with regard to the generation of drive energy. This means that it can be specified, for example by a buyer when ordering a motor vehicle as a default, which variant is to be used to generate drive energy and which variants should be combined. However, this makes complex demands on the assembly of motor vehicles with energy storage, after different connection concepts / space for the energy storage are kept in the body, therefore all conceivable variants in the basic design and in production must be considered. For example, the design of the body changes with the selection of certain drive variants.

The invention is therefore an object of the invention to provide a way to simplify the assembly of motor vehicles with different energy storage devices according to a specification.

To solve this problem is provided according to the invention in a method of the type mentioned that each energy storage a defined trained, for all energy storage at least with respect to the expansion and the fastening devices same, cylindrical housing and each motor vehicle at least one matched to the housing installation position, wherein for a vehicle to be equipped at least one energy storage is selected according to the specification and installed in the at least one installation position of the motor vehicle.

Thus, the invention ultimately proposes a standardization of energy storage, so that energy storage for at least two types of energy carriers at the same installation position in the motor vehicle, in particular in the body, can be introduced and secured. This is ensured by the fact that the housing of the energy storage in terms of Extension and the fastening devices are similar, for example, an energy storage device for a gaseous fuel in this respect designed a similar housing as an energy storage device for electrical energy, thus a battery having. Differences on the housing are for different types of energy storage, therefore different energy sources contained, usually, preferably only be given by the fact that different connection devices are present, which of course is also conceivable, especially if a usable for all types of energy carriers housing can be created is to provide the housing all completely identical with connection devices for all kinds of energy sources. Conveniently, if energy-carrier-specific connection devices are to be provided on the housing, these are arranged at different positions, since corresponding connection devices on the motor vehicle side can then also be pre-positioned at the installation position.

Thus, the present invention enables a variant reduction in the placement of alternative energy storage in a motor vehicle, after a uniform fastening, accommodation and installation concept is given. An orderer or owner of a motor vehicle can choose different options for equipping the motor vehicle, wherein the at least one installation position is used accordingly. For example, a choice can be made between electrical range and range with natural gas or hydrogen.

It should be noted that in particular an interchangeability of energy storage can be provided in a motor vehicle. Thus, when an orderer or user of a motor vehicle places more emphasis on power than on range, not only when ordering the motor vehicle and its manufacture, an energy storage device for gaseous fuel can easily be exchanged for a battery as energy storage, but also later realize, in particular, when the fastening device are detachably formed by the housing and the installation position. The use of more electrical energy provides more boost power available, which of course is also conceivable in several installation positions in the motor vehicle to retrofit additional energy storage, if so far have been left vacant positions.

In this case, energy storage devices can be used for at least two energy carriers selected from the group of gaseous fuels, in particular hydrogen and / or natural gas, liquid fuels and electric storage cells. Suitably, the concept of the invention can be extended to all conceivable energy sources, thus be given a motor vehicle architecture in which not only special alternative types of energy supplying energy storage can be used, but also classic energy sources such as gasoline and diesel can be stored in cylindrical energy storage. Thus, after determining the appropriate installation positions for the cylindrical energy storage the entire variety of drive concepts (conventional with gasoline or diesel, hybrid vehicles, electric vehicles, fuel cell vehicles, ...) are covered without different locations and geometries for different energy storage are kept in the vehicles have to. The choice of the cylindrical basic shape for the housing of the energy storage is ultimately based on the requirement for compressed gaseous fuels, for which the energy storage should be suitable in any case.

It is of course conceivable that even finer gradations in the allocation of the available storage space for energy sources can be created if at least one energy storage for at least two different energy sources, in particular electric storage cells and gaseous fuels, is used. There are therefore energy storage conceivable in the housing different energy sources can be stored. For example, electrical storage cells can fill up a portion of the housing, while the other portion of the housing is formed as a container for gaseous fuels. In particular, a freely selectable placement of energy storage devices is also involved Energy carriers or containers possible, which will be discussed in more detail with respect to the energy storage device according to the invention and the inventive method for producing an energy storage.

Conveniently, housing made of a wound fiber material, in particular CFK or GRP, used. This not only gives the advantage that high-pressure gaseous fuels can be stored in the energy storage, the housing thus can in particular at least partially form containers for gaseous fuels, but it is also generally high intrinsic stability and protection against mechanical effects, for example in an accident, given. In particular, in this way, other energy sources, such as electric storage cells, are installed on a wider variety of positions in the motor vehicle, so that overall expanded package opportunities arise, for example, the integration of a battery as energy storage in the engine compartment. This is made possible by the high intrinsic stability and resistance to mechanical action. The basis of such a housing may for example be a winding tube.

The invention also relates to a system for assembling motor vehicles with energy storage different, for each motor vehicle according to a specification of a certain kind, comprising the motor vehicles and the energy storage, which is characterized in that each energy storage a defined trained, for all energy storage at least in terms of expansion and the fastening devices same, cylindrical housing and each motor vehicle have at least one matched to the housing mounting position. Such a system forms the basis for carrying out the method according to the invention, after a standard for the housing of energy storage devices is defined, following the energy store for different energy carriers. All statements regarding the assembly process according to the invention can be analogously applied to the system according to the invention. In addition, the invention also relates to an energy storage device for a motor vehicle, comprising a cylindrical, an interior defining housing, which is characterized in that arranged in a first subspace of the interior as an energy source electric storage cells and a second subspace of the interior as a container for a gaseous or liquid energy carrier, in particular fuel, is formed.

Such an energy storage device makes it possible to provide a plurality of types of energy carriers in a single installation position, and moreover enables a more individual adaptation of motor vehicles, which relates to the distribution of the various ways of generating drive energy. The cylindrical shape, wherein the housing is preferably formed from a wound fiber material, in particular CFRP or GFRP, allows stable storage of gaseous fuels, in particular of hydrogen or compressed natural gas. However, the stable outer shape and the preferred intended use of wound fiber material, which may be present as a winding tube, however, also brings advantages for other energy sources, since due to the robust design of the energy storage can also be arranged at basically endangered for example in accidents places.

Specifically, it may be provided that the memory cells are arranged on at least one, the cross-section of the interior space perpendicular to the cylinder longitudinal direction substantially filling, circular circuit board. It is thus intended to arrange electrical memory cells, thus typical battery cells, which in particular may themselves be cylindrical, on a circular circuit board, so that modules are formed. These modules can be installed in the cylindrical housing. The number of existing modules then ultimately determines the storage capacity for electrical energy and determines which subspace remains for the second, gaseous or liquid energy carrier. In other words, it can thus be provided that, in the case of a plurality of circuit boards, these together with the electrical memory cells arranged thereon form a battery module and are arranged consecutively in the cylinder longitudinal direction. This makes it possible, the space within the case, easily scalable depending on the desired electrical storage capacity.

Accordingly, the invention finally also relates to a method for producing an energy store with battery modules successively arranged in the housing in the cylinder longitudinal direction, which is characterized in that an electrical battery portion is specified, is selected based on the battery portion of a number of battery modules, the interior is filled with the battery modules and the remaining interior is formed as the container for the gaseous or liquid energy carrier. For this purpose, for example, the housing wall can be supplemented by a corresponding container bottom part of the battery modules and the like. Thus, it is thus possible to individually adjust the proportion of electrical energy sources and fuel according to a specification.

Overall, the present invention thus describes the possibility to standardize energy storage, so that a uniform space supply is given by the motor vehicle for energy storage of different types. The ability to create energy storage devices that house different sources of energy offers opportunities for individual fine-tuning. Due to the clear definition of the interfaces between the energy storage and the motor vehicle energy storage for energy sources of different types can be mounted and dismounted in the same manner, whether in the production of the motor vehicle or customer service.

Further advantages and details of the present invention will become apparent from the embodiments described below and with reference to the drawing. Show: an energy storage,

2 shows a battery module for an energy store, 3 shows a partially open, designed as a high-voltage battery energy storage,

Fig. 4 shows a partially opened energy storage for electrical energy and fuels, and

Fig. 5 is a schematic diagram of a system according to the invention.

Fig. 1 shows an external view of an energy storage device 1, which can be seen to have a cylindrical housing 2 and can contain different energy sources, in the present case electrical storage cells, gaseous fuels and / or liquid fuels. For all these types of energy sources and also, as will be discussed in more detail below, combinations of these energy sources, the external appearance of the housing 2 is at least equal in that the extensions and fastening devices for installation in a mounting position within a motor vehicle correspond. This means that the installation position in the motor vehicle is matched to the corresponding expansion and fastening properties of the energy accumulator, in the present case grooves 3 are shown in the surface of the housing 2, which correspond to guide rails in the installation position, and further screwing devices 4 are indicated , It should be noted that of course other types of fastening devices may be used.

Not shown in detail in Fig. 1 for the sake of clarity, connecting devices, and thus supply and discharge lines for fuels and / or electrical energy connections, which but standardized positions on the surface of the housing 2 are assigned, corresponding to the positions of corresponding connection devices from the installation position ,

FIG. 2 shows a battery module 5, which comprises a circular circuit board 6 with electrical memory cells 7 arranged thereon. The area Elongation of the board 6 is chosen so that the cavity in the interior of the cylindrical housing 2 is used as completely as possible by the battery module 5.

As shown in FIG. 3 for the example of serving as a high-voltage battery energy storage 1 a, the battery modules 5 can be arranged sequentially in the cylinder longitudinally shown in the case 2 shown there cut.

The use of battery modules 5 makes it possible to also create energy storage devices in which battery modules and a container for a fuel are present, thus energy sources of different types can be provided in a single energy storage device 1.

An exemplary embodiment is shown in the schematic diagram of FIG. 4 for an energy store 1 b, to whose one end two battery modules 5 in the cylinder longitudinal direction are successively arranged in the housing 2. Through an inserted, curved container bottom 8, a container 9 is formed in the remaining part of the space of the interior of the housing 2, which is also shown here for purposes of illustration.

Depending on the choice of the number of battery modules 5 thus remains a subspace that can be used as a container 9, in the embodiment of Fig. 4 as a container 9 for gaseous fuels, in particular compressed natural gas or hydrogen.

It should be noted that in all embodiments shown here, the housing 2 is formed on the basis of a CFRP winding tube, which not only provides the necessary stability for the storage of compressed, gaseous fuels, but the robustness of other energy sources, such as liquid Fuels such as gasoline or diesel, and electrical energy cells significantly increased, so that in particular a shoring in critical areas, for example in the engine compartment of a motor vehicle, is possible. Fig. 5 shows schematically a system according to the invention and the implementation of the method according to the invention in the system according to the invention. This includes visible motor vehicles 10, which in the present example each have two installation positions 1 1 for energy storage. The installation positions 1 1 are the same design in all motor vehicles 10 and matched to the extent and the fastening devices of the housing 2 of the energy storage device 1 also belonging to the system. The energy storage devices 1 can, of course, be subdivided into energy storage devices of different types, which consequently contain different energy sources, in the present case energy storage devices 1 a being pure high-voltage batteries (see FIG. 3), energy storage devices 1 b as combinations of high-voltage batteries and containers gaseous fuels, cf. Fig. 4, are shown. Energy storage 1 c may for example be those in which the housing 2 is completely formed as a container for liquid, conventional fuels. Of course, a variety of other types of energy storage 1 are also conceivable, all have in common that the housing 2 is formed the same extent in the expansions and fastening devices. This means that each of the energy storage 1 is suitable to be installed in the installation positions 1 1 of the motor vehicles 10.

If, for example, a person orders a motor vehicle 10a individually tailored to him by the energy carriers, he gives a specification 12 which indicates which distribution of energy carriers the person wishes. In the present case, the person wants to use half of the existing installation space for conventional fuel, thus liquid fuel, but at the same time the motor vehicle 10a should also be able to drive with compressed natural gas and power should be provided by electric storage cells. Consequently, based on the specification 12, an energy store 1 c and an energy store 1 b, optionally adapted as explained with respect to FIG. 4, are selected, and the energy stores 1 b, 1 c are installed on the installation positions 1 1 in the motor vehicle 10 a, as shown in FIG 5 is indicated below. This results in the installation for the person performing this no differences, since the installation runs innnner the same for all conceivable energy storage 1 in the standardized installation positions 1 1. Should the person giving the specification 12 reschedule and desire different sources of energy or a different distribution of energy carriers, one or both of the energy stores 1 b, 1 c can also be removed again and replaced by other energy stores 1.

Claims

PATENT APPLICATIONS

1 . Method for equipping motor vehicles (10, 10a) with energy stores (1, 1a, 1b, 1c) of different types, for each motor vehicle (10, 10a) according to a specification (12) of a specific type,

characterized,

that each energy store (1, 1 a, 1 b, 1 c) a defined trained, for all energy storage (1, 1 a, 1 b, 1 c) at least with respect to the expansion and the fastening devices same, cylindrical housing (2) and each Motor vehicle (10, 10a) at least one on the housing (2) tuned installation position (1 1), wherein for a vehicle to be equipped (10, 10a) at least one energy storage (1, 1 a, 1 b, 1 c) according to Default (12) selected and in the at least one installation position (1 1) of the motor vehicle (10, 10a) is installed.

2. The method according to claim 1,

characterized,

in that energy stores (1, 1a, 1b, 1c) are used for at least two energy carriers selected from the group of gaseous fuels, in particular hydrogen and / or natural gas, liquid fuels and electric storage cells (7).

3. The method according to claim 1 or 2,

characterized,

in that at least one energy store (1, 1a, 1b, 1c) is used for at least two different energy carriers, in particular electric storage cells (7) and gaseous fuels.

4. The method according to any one of the preceding claims,

characterized,

that housing (2) made of a wound fiber material, in particular CFK or GRP, are used.

5. The method according to claim 4,

characterized,

in that at least one installation position (11) is provided in the engine compartment.

6. System for equipping motor vehicles (10, 10a) with energy stores (1, 1 a, 1 b, 1 c) different, for each motor vehicle (10, 10 a) according to a specification (12) of a certain kind, comprising the motor vehicles (10 , 10a) and the energy stores (1, 1 a, 1 b, 1 c),

characterized,

that each energy store (1, 1 a, 1 b, 1 c) a defined trained, for all energy storage (1, 1 a, 1 b, 1 c) at least with respect to the expansion and the fastening devices same, cylindrical housing (2) and each Motor vehicle (10, 10a) at least one on the housing (2) tuned mounting position (1 1).

7. Energy store (1 b) for a motor vehicle (10, 10 a), comprising a cylindrical, an interior defining housing (2), characterized

that in a first subspace of the interior as an energy source electrical storage cells (7) are arranged and a second subspace of the interior is formed as a container (9) for a gaseous or liquid energy carrier.

8. Energy storage according to claim 7,

characterized,

the housing (2) is formed from a wound fiber material, in particular CFK or GFK.

9. Energy storage according to claim 7 or 8,

characterized, in that the memory cells (7) are arranged on at least one circular circuit board (6) substantially filling the cross-section of the interior space perpendicular to the cylinder longitudinal direction.

10. Energy storage according to claim 9,

characterized,

in the case of a plurality of circuit boards (6), these together with the electrical memory cells (7) arranged thereon form a battery module (5) and are arranged consecutively in the cylinder longitudinal direction.

1 1. Method for producing an energy store (1 b) according to Claim 10,

characterized,

in that an electrical battery portion is predetermined, a number of battery modules (5) is selected on the basis of the battery portion, the interior is filled up with the battery modules (5) and the remaining interior space is formed as the container (9) for the gaseous or liquid energy carrier.