DE102018004747A1 - Charging station for inductive charging of an energy storage device of a vehicle - Google Patents

Abstract

The invention relates to a charging station (1) for inductively charging an energy store of a vehicle (2), comprising a standing area (SF) for the vehicle (2) with a base plate (3) comprising at least one primary coil.
According to the invention, a microwave generator (5) is arranged on the bottom plate (3), by means of which a microwave field (6) can be generated in the region of a magnetic field between the bottom plate (3) and a loading plate (4) of the vehicle (2).

Description

The invention relates to a charging station for inductive charging of an energy storage device of a vehicle according to the features of the preamble of claim 1.

From the prior art, as in the DE 10 2015 207 992 A1 described a vehicle battery charging system and a vehicle battery charging method. A vehicle includes a battery and a charge plate electrically connected to the battery. The vehicle also includes a control system that causes a connection signal to be repeatedly transmitted during a battery charging operation to maintain the charging of the battery via the charging plate, and in response to detecting an object in the vicinity or predicting its entry into the vicinity the charging plate that the transmission of the connection signal is interrupted to stop the charging of the battery.

The invention is based on the object to provide a comparison with the prior art improved charging station for inductively charging an energy storage of a vehicle.

The object is achieved by a charging station for inductive charging of an energy storage device of a vehicle with the features of claim 1.

Advantageous embodiments of the invention are the subject of the dependent claims.

A charging station for inductively charging an energy storage device of a vehicle comprises a footprint for the vehicle with a base plate comprising at least one primary coil.

According to the invention, a microwave generator is arranged on the bottom plate. By means of this microwave generator is a microwave field, in particular in the region between the bottom plate of the charging station and a loading plate of the vehicle and thus generated during a charging operation in the range of a magnetic field between the bottom plate and pallet, advantageously also in an environment around the area between the bottom plate and pallet and thus this magnetic field around.

The microwave field generated by means of the microwave generator has the function of a so-called "active denial system". By means of the microwaves, which advantageously have a frequency of 95 GHz, it triggers a painful stimulus on a living object, for example a human or an animal, so that the living object is prevented from being in the magnetic field between the bottom plate and the loading plate. The solution according to the invention thus prevents the penetration of living objects into this magnetic field by the triggering of such a pain stimulus.

This is important because, due to the strong magnetic field built up for energy transfer between the floor panel and the vehicle's loading panel, electromagnetic field limits recommended by, for example, the International Committee on Non-Ionizing Radiation Protection (ICNIRP) are in the range between at least one primary coil in the bottom plate of the charging station and the at least one secondary coil having charging plate of the vehicle and in a surrounding area, for example up to an edge of the vehicle, not be complied with. In order to protect persons and animals from these electromagnetic fields, therefore, a corresponding protective measure is provided, also referred to as living object protection (LOP), which is realized by the inventive solution.

By means of the solution according to the invention, this function is called Living Object Protection (LOP), i. H. the protection of living objects, especially humans and animals, realized against the magnetic field between the bottom plate and pallet without mechanical parts and thus in a particularly simple manner. In particular, this means that there are no mechanical parts that could collide with the vehicle and thus be damaged itself and / or damage the vehicle, and also no complex mechanism for moving such mechanical parts is required to bring them into a protective position and for starting the charging station and move to remove the vehicle from the charging station again from this protective position.

Alternatively or in addition to the integration of the microwave generator in the charging station, in particular in the form of the described arrangement on the bottom plate, an integration of the microwave generator in the vehicle is possible, for example by arranging on the pallet. The described operation would then be the same.

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

• 1 schematisch eine Seitenansicht eines Fahrzeugs an einer Ladestation zum induktiven Laden eines Energiespeichers des Fahrzeugs, und
• 2 schematisch eine Frontansicht des Fahrzeugs an der Ladestation.

Showing:

• 1 schematically a side view of a vehicle at a charging station for inductively charging an energy storage of the vehicle, and
• 2 schematically a front view of the vehicle at the charging station.

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

The 1 and 2 show a vehicle 2 during inductive charging of an energy storage of the vehicle 2 at a corresponding charging station 1 , The charging station 1 includes a stand space SF for the vehicle 2 with a bottom plate 3 having at least one primary coil.

An inductive charging system, which is a contactless charging, for example, designed as an electric vehicle or hybrid vehicle vehicles 2 More specifically, their energy storage allows, has a coil system that comprises at least one primary coil and at least one secondary coil. In the primary coil, a high-frequency current is fed, which forms a magnetic field. This magnetic field induces a voltage in the secondary coil.

The vehicle 2 has a pallet on a subfloor 4 with this at least one secondary coil on. The vehicle is loading 2 positioned so that the primary coil under the vehicle 2 , in particular below the secondary coil. Ie. baseplate 3 with primary coil of the charging station 1 and pallet 4 with secondary coil of the vehicle 2 are positioned one above the other like in the 1 and 2 shown.

Due to the strong magnetic field prevailing for energy transfer, recommended limits for electromagnetic fields in the region between the at least one primary coil and the at least one secondary coil as well as in an environmental region, for example up to, are specified by the ICNIRP (International Committee on Non-Ionizing Radiation Protection) an edge of the vehicle 2 , not respected. Therefore, protective measures are provided to protect people and animals from this strong magnetic field. This is also known as Living Object Protection (LOP).

One possibility of such a protective measure is for example a detection system, also referred to as living object detection (LOD), ie a detection of living objects by means of corresponding sensors, for example by means in the bottom plate 3 integrated radar antennas. The radar antennas are activated in charging mode and send radar waves. When these radar waves hit an object with fluid content, such as a human or an animal, they are reflected and received by the radar antennas.

Thus, a human or an animal moves towards the bottom plate 3 , this human or animal will be at a certain distance from the bottom plate 3 recognized by the detection system, so that the charging operation can be interrupted. However, this interruption of the charging operation is a disadvantage of this solution. People can be warned, for example, by a visual, audible and / or haptic warning of too close approach, so that when following the warning notice the interruption of the charging operation can be avoided. However, this is not the case in particular with animals, so that the danger exists that the energy storage of the vehicle 2 can not be charged for a long time if an animal is in the magnetic field.

Therefore, in the following, a much more advantageous solution for the protection of living objects, especially humans and animals, in front of the magnetic field between the bottom plate 3 and pallet 4 described, ie a much more advantageous possibility of Living Object Protection (LOP).

This is on the bottom plate 3 a microwave generator 5 arranged, by means of which a microwave field 6 in the area between the bottom plate 3 the charging station 1 and the pallet 4 of the vehicle 2 and thus in charging operation in the region of the magnetic field between the bottom plate 3 the charging station 1 and the pallet 4 of the vehicle 2 , and for example additionally in a predetermined surrounding area, for example up to the edge of the vehicle 2 , is producible. By means of the microwave generator 5 For example, microwaves with a frequency of 95 GHz can be generated.

The means of the microwave generator 5 generated microwave field 6 indicates the functionality of a so-called "active denial system". It triggers a stimulus of pain by means of the microwaves in a living object, for example in a human or an animal, so that the living object is prevented from becoming in the space between the bottom plate during the energy transfer 3 and the vehicle 2 , in particular in the magnetic field between the base plate 3 and pallet 4 to stop. This is when the vehicle 2 in the charging station 1 and thus over the bottom plate 3 stands, by means of the microwave generator 5 the local microwave field 6 generated in the manner described above according to the principle of the "active denial system".

The described solution operates advantageously, as already mentioned above, with microwaves the frequency of 95 GHz. In comparison, household microwave appliances operate at a frequency of 2.45 GHz. The emitted by the solution described electromagnetic radiation has a much higher energy density than in household microwave appliances, but the energy penetrates only about 0.4 mm into the skin. The high radiant energy heats up water molecules in the skin within seconds to approx. 55 ° C. This is perceived as a pain stimulus and should animate to escape, ie to move out of the by this microwave field 6 protected area and thus in particular from the field of magnetic field between the bottom plate 3 and the pallet 4 and additionally, for example, from a surrounding area around this magnetic field.

By means of this solution the penetration of living objects into this magnetic field is thus prevented by the triggering of such a pain stimulus, whereby the loading operation does not have to be interrupted and living objects, in particular humans and animals, are not endangered.

For example, it can be provided that the microwave generator 5 and thus the microwave field 6 permanently active during the charging operation. As a result, for example, the above-described detection system for detecting living objects can be saved.

Alternatively it can be provided that the microwave generator 5 and the microwave field generated by it 6 is used in parallel with such a detection system for detecting living objects, for example to close gaps in meeting predetermined requirements and / or to further improve the protection of living objects, in particular for humans and animals.

Another advantage of providing both the microwave generator 5 as well as the detection system for detecting living objects is the possibility of the microwave generator 5 to activate only when needed and only then the microwave field 6 to generate, ie in particular if by means of the detection system for detecting living objects, a living object in the region of the magnetic field or in a predetermined surrounding area of the magnetic field has been detected or the risk of imminent intrusion of a living object in the field of magnetic field or in the predetermined surrounding area of the magnetic field was detected. In this procedure, it is thus advantageously provided that the microwave generator 5 depending on the detection of a living object by means of the detection system for detecting a living object is activated.

As a result, in particular the penetration of the recognized living object into the magnetic field or into the predetermined surrounding area of the magnetic field can be prevented in the short term or the detected living object can be caused to leave the magnetic field and the predetermined surrounding area around the magnetic field. This solution of the use of the microwave generator 5 and the microwave field generated by it 6 only when needed is particularly energy-saving and material-friendly.

Alternatively or in addition to the integration of the microwave generator 5 in the charging station 1 , Especially in the form of the described arrangement on the bottom plate 3 , is also an integration of the microwave generator 5 in the vehicle 2 possible, for example by arranging on the pallet 4 , The described operation would then be the same.

LIST OF REFERENCE NUMBERS

1

charging station

2

vehicle

3

baseplate

4

pallet

5

microwave generator

6

microwave field

SF

footprint

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

• DE 102015207992 A1 [0002]

Claims (4)

Charging station (1) for inductive charging of an energy storage device of a vehicle (2), comprising a footprint (SF) for the vehicle (2) with a bottom plate (3) comprising at least one primary coil, characterized in that on the bottom plate (3) a microwave generator (5) is arranged, by means of which a microwave field (6) in the region of a magnetic field between the bottom plate (3) and a loading plate (4) of the vehicle (2) can be generated. Charging station (1) to Claim 1 , characterized in that by means of the microwave generator (5) microwaves with a frequency of 95 GHz can be generated. Charging station (1) according to one of the preceding claims, characterized by a detection system for detecting a living object. Charging station (1) to Claim 3 , characterized in that the microwave generator (5) in response to a detection of a living object by means of the detection system for detecting a living object is activated.

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