EP2552738A2 - Method and arrangement of electrical conductors for charging a vehicle battery - Google Patents

Abstract

An arrangement (1) of electrical conductors (2, 2',...) for inducing an alternating current (3) which flows through this conductor arrangement (1), by means of a magnetic alternating field (4) which acts on this conductor arrangement, is used to charge a battery (5) of a vehicle (6) using the alternating current (3) which flows through the conductor arrangement (1). This conductor arrangement (1) is not connected to electrical conductors (8, 8',...) outside this conductor arrangement (1) via a low-impedance connection (7).

Description

 106830P467PC

Method and arrangement of electrical conductors for charging a vehicle battery

For charging accumulators, in particular the batteries of electric vehicles, in addition to conductive methods in which the energy transmission via cables and connectors takes place, also inductive methods available. The present invention has as its object to contribute to the further development of inductive methods and the arrangements used therein for charging the batteries of vehicles. This object is achieved by a product or a method according to one of the independent claims.

According to the invention, an arrangement of electrical conductors is provided, which is arranged to induce an alternating current flowing through this conductor arrangement by an alternating magnetic field acting on this conductor arrangement and to charge a battery of a vehicle with the aid of the alternating current flowing through the conductor arrangement. This conductor arrangement is not connected via a low-resistance connection to electrical conductors outside this conductor arrangement.

According to the invention, a vehicle is also provided with such a conductor arrangement and with electrically conductive parts outside this conductor arrangement, in which these electrically conductive parts are connected to one another in a low-resistance manner to a protective conductor which is set up in such a way that it can be earthed. According to the invention, a method for charging a battery of a vehicle is provided, in which acts in a first step by an alternating magnetic field which acts on a provided for charging the battery of the vehicle ladder arrangement of the vehicle, which does not have a low-resistance connection with electrical conductors is connected outside of this conductor arrangement, an alternating current is induced in this conductor arrangement. In this case, the absence of the low-resistance connection of the conductor arrangement with electrical conductors outside this conductor arrangement is monitored continuously during the charging process with the aid of a detection device.

In the context of the description of the present invention, an arrangement of electrical conductors for charging a battery of a vehicle is to be understood as any arrangement of one or more electrical conductors which is such that an alternating magnetic field acting on this conductor arrangement generates an alternating current in this conductor arrangement so that the alternating current induced in this ladder arrangement can be used to charge the battery of a vehicle.

Under an alternating current flowing through such a conductor arrangement is to be understood in this context, a current which is at least in parts of this conductor arrangement temporally variable, but in particular not necessarily periodically in time. This current can change its direction over time; however, this does not necessarily have to be the case. As used herein, the term alternating current is intended to encompass currents that flow in one direction and that vary only in current with time.

In this context, an alternating magnetic field is to be understood as meaning a magnetic field which varies over time and which is suitable for inducing an alternating current within the meaning of the present description in such a conductor arrangement. Such time-varying magnetic fields can be generated by time-varying currents in an external conductor arrangement, such as in a transformer or in an electromagnet. be called. However, alternating magnetic fields can also be caused by moving permanent magnets or by moving electrical outer conductor arrangements, through which temporally constant or temporally variable currents flow. The term of the alternating magnetic field includes in the present context in particular also electromagnetic alternating fields.

In this context, a battery is to be understood as any device suitable for storing energy, to which energy can be supplied in electrical form and also removed. These may in particular be galvanic cells or arrangements of galvanic cells.

In this context, a low-resistance connection of electrical conductors is to be understood as meaning an electrically conductive connection whose ohmic resistance is so low that current flow through this connection does not produce a voltage drop at the currents expected in the present context of application, which depends on the intended operation or Safety of the arrangement or installation in which this arrangement is used could have an effect.

According to a preferred embodiment of the invention, the conductor arrangement has a star point, which can be connected, in particular grounded, via a high-resistance connection to electrical conductors outside this conductor arrangement. In this embodiment, the star point and connected to it via the high-resistance connection electrical conductors outside the conductor arrangement as long as at the same electrical potential, as through the high-impedance connection no appreciable electric current flows .. This can be ensured that between the neutral point and the With him high impedance connected electrical conductors outside the conductor arrangement no dangerous contact voltages can occur, as long via the high-resistance connection no electric current causing such a dangerous contact voltage flows.

According to a further preferred embodiment of the invention, which can also be combined with the preceding embodiment, a device for detecting a low-resistance connection of the conductor arrangement with an electrical conductor outside this conductor arrangement is provided. Such a detection device enables the rapid detection of the occurrence or presence of a low-resistance connection of the conductor arrangement with an electrical conductor or a plurality of electrical conductors outside the conductor arrangement. Such detection devices are basically known in various forms.

According to a further preferred embodiment of the invention, which can also be combined with the aforementioned preferred embodiments, a device for switching off the alternating magnetic field is provided. Preferably, this shutdown device is controlled by a signal which is output by the detection device, if or as soon as this detection device detects the occurrence or presence of a low-ohmic connection of the conductor arrangement with an electrical conductor or a plurality of electrical conductors outside this conductor arrangement. In this way, it is possible to turn off the magnetic alternating field when a low-resistance connection of the conductor arrangement with an electrical conductor outside or outside this conductor arrangement, which induces an alternating current in this conductor arrangement by induction. After switching on the alternating magnetic field so the induced alternating current can decay, so that the persistence of unwanted leakage currents between the inventive arrangement of electrical conductors and electrical conductors outside this conductor arrangement is omitted.

Preferred is a vehicle according to the invention, in the protective conductor to a low-resistance connection with electrically conductive parts in the environment of the vehicle, in particular with an earth electrode, is set up. According to a further preferred embodiment of the invention, which can also be combined with previous embodiments, a vehicle is provided, with a device for detecting a low-resistance connection of the conductor arrangement with an electrical conductor outside this conductor arrangement. Particularly preferred is a vehicle with a device for switching off the alternating magnetic field.

Such a device 12 for switching off the alternating magnetic field preferably generates a signal for switching off the alternating magnetic field, which is preferably sent or directed to a device ET for generating the alternating magnetic field. This signal is preferably received and evaluated by a switching device. As soon as the switching device receives the signals emitted by the device 12 for switching off the alternating magnetic field, this switching device switches off the alternating magnetic field. This shutdown of the alternating magnetic field is preferably carried out by switching off the power supply of the device ET for generating the alternating magnetic field. The signal transport from the device 12 for switching off the alternating magnetic field, which is preferably but not necessarily mounted in or on the vehicle to the switching device preferably takes place wirelessly, for example using light beams, infrared rays or radio waves. Signal transport over several independent paths offers additional security. The signal may also be made inductively via the conductor arrangements e, f, g and 2, 2 ', 2 ", preferably by means of a carrier frequency modulated on the alternating current used to charge the battery generates by induction a corresponding signal in the respective other conductor arrangement, which can easily be demodulated and evaluated. Wireless transmission paths of this signal for switching off the alternating magnetic field offer the advantage, compared to wired transmission paths, that they do not cause unwanted low-resistance connections between the conductor arrangement (1) and electrical conductors (8, 8 ', ...) outside this conductor arrangement (1). , especially with ladders outside the vehicle can come about.

The means 12 for switching off the alternating magnetic field is caused to generate and transmit the signal for switching off the alternating magnetic field as soon as the device 1 1 for detecting a low-resistance connection 7 of the conductor arrangement 1 with an electrical conductor 8, 8 ', ... outside of this Conductor assembly 1 detects such a low-resistance connection. In particular, when the device 12 for switching off the alternating magnetic field is mounted together with the device 1 1 for detecting a low-impedance connection 7 in or on the vehicle, the control of the device 12 for switching off the alternating magnetic field by the device 1 1 for detection a low-impedance connection 7 wired. Even in the cases in which the device 12 for switching off the alternating magnetic field together with the device 1 1 for detecting a low-impedance connection 7 is mounted outside the vehicle, the control of the device 12 for switching off the alternating magnetic field by the means 11 for Detection of a low-impedance connection 7 wired. In many cases, however, a wireless connection between the device 12 for switching off the alternating magnetic field and the device 1 1 for detecting a low-resistance connection 7 will offer safety advantages, because no unwanted low-resistance connections between the conductor arrangement 1 and electrical conductors 8, 8 ', ... outside of this ladder arrangement 1, in particular with conductors outside the vehicle can come about. In the method according to the invention, preferably, a star point of the conductor arrangement is connected via a high-resistance connection with electrical conductors outside this conductor arrangement, in particular earthed. According to a further preferred embodiment of the invention, which can also be combined with previously described examples, in a method according to the invention, a protective conductor which electrically conductively connects electrically conductive parts of the vehicle outside the conductor arrangement to one another with low resistance with electrically conductive parts in the surroundings of the vehicle. in particular connected to an earth electrode. Embodiments of the method according to the invention in which the alternating magnetic field is switched off as soon as a low-resistance connection of the conductor arrangement with electrical conductors outside this conductor arrangement during the charging process are detected are particularly preferred.

In the following the invention with reference to further preferred embodiments and with the aid of figures will be described in more detail.

FIG. 1 shows schematically an exemplary embodiment of a conductor arrangement according to the invention, to which a magnetic alternating field acts;

Figure 2 shows a symbolic representation of the conductor arrangement shown in Figure 1;

FIG. 3 shows a symbolic representation of the conductor arrangement shown in FIG. 1 together with a further conductor arrangement which provides an alternating magnetic field; Figure 4 shows a schematic representation of another embodiment of a conductor arrangement according to the invention with a star; Figure 5 shows schematically the interaction of a conductor arrangement according to the invention with another conductor arrangement which provides the alternating magnetic field; Figure 6 shows schematically a preferred embodiment of the invention.

As shown in Figure 1 to a first embodiment of the invention, the inventive arrangement of electrical conductors, which is intended to charge a vehicle battery, for example, consist of a coil-like conductor arrangement 1 with a plurality of turns. The alternating current induced by the alternating magnetic field 4 in the conductor arrangement 1 flows through the conductor tracks or turns of the conductor arrangement 1 and can be tapped off at the points a and b and used for charging a vehicle battery. In the process, this induced alternating current will first be rectified regularly in a manner suitable for the purpose of the battery charge. FIG. 5 shows, for example, a rectifier 18, which is connected to the three phases 2, 2 ', 22' of a star connection of conductor arrangements, in particular of coil-shaped conductor arrangements, and generates a DC voltage on the output side, which is supplied to a battery 5.

Depending on the nature of the generation of the alternating magnetic field 4, the conductor arrangement 1 can be configured in different ways and arranged in different ways relative to a field-generating conductor arrangement ET. For example, FIG. 3 shows an arrangement of a conductor arrangement 1 according to the invention shown in FIG. 2 in spatial proximity to a basically similarly constructed alternating magnetic field generating conductor arrangement ET outside the vehicle with the battery to be charged. In the case shown in FIG. 3, the alternating magnetic field is generated in the coil or in the transformer ET by a single-phase alternating current fed in via the points c and d, respectively, and induced in the conductor order 1 a corresponding single-phase alternating current, which can be tapped on the points a and b, respectively.

A further example of a conductor arrangement according to the invention, which can also be used as a field-generating conductor arrangement, is shown in FIG. 4. This is a star-shaped interconnection of three coils 2, 2 ', 22' with feed points e, f and g. Such star-shaped interconnections are common in connection with AC three-phase systems. Such arrangements can serve both for generating a magnetic alternating field and as arrangements of electrical conductors in the sense of the invention, that is to say for charging a vehicle battery.

As shown in FIG. 5, for this purpose, the alternating magnetic field generating conductor arrangement ET and the in-vehicle conductor arrangement 1 are configured into a transformer. The alternating current flowing in the field-generating conductor arrangement ET, in this case a three-phase current, generates an alternating magnetic field which induces a corresponding alternating current in the secondary conductor arrangements 2, 2 ', 22' of the arrangement 1. This alternating current, a three-phase current in the case shown, is rectified by the downstream arrangement 18 for rectification, and the direct current generated on the output side by the arrangement 18 is used to charge the battery 5.

While the star point the magnetic alternating field of the generating arrangement is combined to form a neutral conductor PEN, form the conductors 2, 2 ', 22' of the arrangement 1, the outer conductor of a so-called IT network, the safety of which essentially depends on the between the conductors Arrangement 1 and electrical conductors 8, 8 'outside this arrangement, no low-electrical connections 7, 7' occur. In this case, the low-resistance connection 7 shown in FIG. 5 corresponds to a connection of an AC-conducting conductor 22 'to an electrical conductor 8' located outside the arrangement 1, and the low-resistance connection T corresponds to a connection a DC-conducting conductor with a conductor 8 located outside the arrangement 1.

According to a preferred embodiment of the invention, it is now provided to provide a device 11 for detecting low-resistance connections 7 of the conductor arrangement 1 with an electrical conductor 8, 8 'outside this conductor arrangement. Such detection devices 11 are known in principle to the person skilled in the art. Such a device 11 is also referred to as insulation monitor or insulation monitoring device. It monitors the insulation state of an IT network, ie a non-grounded power supply, to a minimum insulation resistance. Frequently, a current measurement against earth is carried out for this purpose. In the event of a fault, ie if the insulation fault current exceeds a predetermined threshold, the undershooting of the minimum insulation resistance can be detected and subsequently further measures to ensure safety can be taken. For example, a warning signal can be generated and output or, as is provided by a further preferred embodiment of the invention, the alternating magnetic field which supplies the conductor arrangement 1 with energy can be switched off.

In situations illustrated by way of example in FIGS. 5 and 6, in which the induced alternating currents are subjected to rectification, so that the resulting direct currents can be used to supply a vehicle battery, the particular difficulty arises in the earth faults both in the AC subnetwork can also occur in the DC sub-network of the entire vehicle power network. In addition to earth faults, other low-resistance connections to electrically conductive parts of the vehicle or other electrical conductors outside the arrangement 1 can occur. This particular situation of the possibility of ground faults and other low-resistance connections in both the AC and DC sub-networks of the overall arrangement requires the use of special detection means for detecting such low-resistance connections or ground faults. An example of such a device suitable for such situations in the detection of fault currents and in particular earth faults is described in the German patent application P 25 15 121, published on 14 October 1976.

In order to prevent the occurrence of dangerous touch voltages on electrical conductors in the vehicle, in particular with respect to ground or against conductors in the vicinity of the vehicle with a low-resistance connection to earth and the associated danger to persons, the invention preferably provides, the device for detecting a low-resistance connection to equip the conductor assembly 1 with an electrical conductor outside this conductor arrangement with a signal generator and supply this signal to a device for switching off the alternating magnetic field. This preferred embodiment has the advantage that, when a fault current occurs, an effective prevention of accidents can be ensured by switching off the magnetic alternating field providing the energy of the entire arrangement. The switching off of the alternating magnetic field can be carried out, for example, in such a way that the device ET for providing the alternating magnetic field has a switching device 12, which is controlled by the detection device 11. Preferably, the magnetic alternating field is switched off as soon as the detection device 11 recognizes that a connection 7 or T between the conductors of the arrangement 1 or one of the conductors of this arrangement on the one hand and a conductor outside this arrangement has a resistance below a minimum resistance. The value of this minimum resistance can be specified or dimensioned so that at the voltages used a risk to persons can be excluded by touching the conductor involved. In describing the present invention with the aid of the figures, the following reference numerals have been used: Arrangement of electrical conductors, conductor arrangement

 Head of the arrangement 1

 AC current through the conductor assembly 1

alternating magnetic field

 battery

 vehicle

Low-resistance connection between the assembly 1 and conductors outside the arrangementl

electrical conductor outside the arrangement 1

 star point

High-impedance connection between the neutral point 9 and electrical

Ladders outside the arrangement 1

 Device for detection, detection device

 Device for switching off the alternating magnetic field electrically conductive parts of the vehicle 6 outside of

 Ladder arrangement 1

 protective conductor

Low-resistance connection of the protective conductor 14 with electrically conductive parts 16 in the vicinity of the vehicle. 6

electrically conductive parts in the vicinity of the vehicle 6

earthing

Claims

claims

Arrangement (1) electrical conductor (2, 2 ', ...), the

a) for the induction of an alternating current (3) flowing through this conductor arrangement (1) by means of an alternating magnetic field (4) acting on this conductor arrangement and

b) for charging a battery (5) of a vehicle (6) by means of the conductor arrangement (1) flowing alternating current (3) is provided, adurch in that this conductor arrangement (1) via a low-resistance connection (7) with electrical Conductors (8, 8 ', ...) outside this conductor arrangement (1) is connected.

Arrangement (1) according to claim 1 with a star point (9), which is set up in such a way that the star point (9) is connected to electrical conductors (8, 8 ', ...) outside this conductor arrangement (1) via a high-resistance connection (10) ), in particular earthed.

Arrangement (1) according to one of the preceding claims, characterized by a device (1 1) for detecting a low-resistance connection (7) of the conductor arrangement (1) with an electrical conductor (8, 8 ', ...) outside this conductor arrangement (1 ).

Arrangement (1) according to one of the preceding claims, characterized by a device (12) for switching off the alternating magnetic field (4).

Vehicle (6) with an arrangement (1) according to one of the preceding claims and electrically conductive parts (13, 13 ', ...) outside this conductor arrangement (1), characterized in that these electrically conductive parts (13, 13', ...) are connected to each other with low resistance to a protective conductor (14), which is set up so that it can be earthed. Vehicle (6) according to claim 5, characterized in that the protective conductor (14) to a low-resistance connection (15) with electrically conductive parts (16) in the environment of the vehicle, in particular with an earth electrode (17) is arranged.

Vehicle (6) according to one of the preceding claims 5 or 6, characterized by a device (11) for detecting a low-resistance connection (7) of the conductor arrangement (1) with an electrical conductor (8, 8 ', ...) outside this conductor arrangement ,

Vehicle (6) according to one of the preceding claims 5 to 7, characterized by a device (12) for switching off the alternating magnetic field (4).

Method for charging a battery (5) of a vehicle (6) with the following features:

a) by an alternating magnetic field (4), which acts on a charging device for the battery (5) of the vehicle provided conductor arrangement (1) of the vehicle, which does not have a low-resistance connection with electrical conductors (8, 8 ', ...) is connected outside of this conductor arrangement, an alternating current (3) is induced in this conductor arrangement;

b) the absence of the low-resistance connection (7) of the conductor arrangement (1) with electrical conductors (8, 8 ', ...) outside this conductor arrangement is continuously monitored during the charging process by means of a detection device (11).

Method according to Claim 9, in which a neutral point (9) of the conductor arrangement (1) is connected, in particular earthed, via a high-resistance connection (0) to electrical conductors (8, 8 ', ...) outside this conductor arrangement. Method according to one of claims 9 or 10, wherein a protective conductor (14), the electrically conductive parts (13, 13 ', ...) of the vehicle outside of the conductor assembly (1) low impedance interconnected, low-coherent with electrically conductive parts (16) in the vicinity of the vehicle, in particular with an earth electrode (17) is connected.

Method according to one of Claims 9 to 11, in which the alternating magnetic field (4) is switched off as soon as a low-resistance connection (7) of the conductor arrangement (1) to electrical conductors (8, 8 ', Charging is detected.