EP3804075A1 - Charging device for charging a mobile electronic terminal, method for operating a charging device and motor vehicle - Google Patents

Abstract

The invention relates to a charging device (1) for charging a mobile electronic terminal (2), comprising a light-guide unit (4) providing a contact surface (3) for the mobile electronic terminal (2), by means of which light can be guided and decoupled in the direction of the contact surface (3), and comprising a charging unit (7) arranged behind the light-guide unit (4) on a side opposite the contact surface (3), by means of which the mobile electronic terminal (2) can be contactlessly charged.

Description

 description

Charging device for charging a mobile electronic terminal, method for

 Operating a charging device and motor vehicle

The invention relates to a charging device for charging a mobile electronic

Terminal, a method for operating a charging device and a motor vehicle with a charging device.

Chargers, by means of which mobile electronic devices are inductively loadable, are already well known. For this purpose, the respective mobile electronic terminal has an induction coil designated as a secondary coil, by means of which electrical energy can be received by an induction coil, referred to as a primary coil, of the charging device.

 For this purpose, the primary coil provides a magnetic field, via which electrical energy can be transmitted to the secondary coil. By means of the received over the secondary coil

electrical energy is a battery of the mobile electronic device loadable, wherein the battery electrical energy for operating the mobile electronic device is available.

The object of the present invention is to provide a charging device for charging a mobile electronic terminal, a method for operating a charging device and a motor vehicle with a charging device, which enable both outputting of information to a person and loading of the mobile electronic terminal.

This object is achieved by a charging device for charging a mobile electronic terminal and by a method for operating a charging device having the features of the independent claims. Advantageous embodiments with expedient developments of the invention are dependent in each case

Claims and in the following description.

A first aspect of the invention relates to a charging device for charging a mobile electronic terminal. The charging device has a support surface for the mobile electronic terminal providing optical fiber device, by means of which light is leitkandbar and coupled out in the direction of the support surface. The light guide device was a flat luminous element. The light guide device can in particular r \ zoooo vv

 WO 2019/224000 - 2 - PCT / EP2019 / 061751 have at least one transparent region, by means of which light can be conducted. Furthermore, the charging device comprises a charging device arranged behind the optical fiber device on a side opposite the support surface, by means of which the mobile electronic device can be loaded without contact. That means the

Charging device, which is in particular adapted to be arranged in an interior of a motor vehicle, in particular a passenger vehicle, the charging device for non-contact charging of the mobile electronic terminal comprises. The charging device is adapted to electrical energy in a

Provide power transmission direction for the mobile electronic device. The optical fiber device is the energy transmission direction intersecting above the

Loading device and arranged overlapping the charger. The

Optical fiber device is adapted to couple light for providing a light signal on its side facing away from the charger, in particular the support surface. In particular, the light signal will intersect the energy transmission direction and output the charging device overlapping on the side facing away from the charger of the light guide device. Thus, the light signal is output in overlapping manner with the support surface at least in the energy transmission direction. The

Energy transmission direction extends from the charging device on the shortest path to the arranged on the support surface mobile electronic device. In the

Charging device may be an inductive charging device, by means of which the mobile electronic device is inductively loadable, if it is located on the support surface. The charging device may additionally comprise a light source, by means of which light can be coupled into the optical waveguide device, wherein the light signal can be provided by decoupling the coupled-in light. By means of the light signal information can be output to a person in a particularly simple manner. This can be the

For example, a light signal may characterize a memory state of a battery of the mobile electronic terminal, the memory state representing an amount of electrical energy stored in the battery. Alternatively or additionally, the light signal can characterize a state of charge of the charging device, wherein the state of charge can represent a charging power of the charging device. Consequently, the person can be particularly easily informed about the state of charge and / or the memory state by means of the light signal.

In an advantageous embodiment of the invention it is provided that a decorative layer is arranged on the support surface of the light guide device. The decorative layer has at least one transparent and at least one opaque region for shaping the light signal. In particular, the decorative layer can be a contour of the light signal by means of rooooo vv

 WO 2019/224000 - 3 - PCT / EP2019 / 061751 specify at least one transparent and at least one opaque region. The transparent region is to be understood as a translucent region of the decorative layer, wherein the opaque region is to be understood as an opaque region of the decorative layer. As an alternative or in addition to the transparent region of the decorative layer, the decorative layer may have a translucent region, wherein below the

Translucent area is a range of decorative layer to understand, although translucent, but not as the transparent area is transparent. The decorative layer has the advantage that the light signal can be output exactly defined for the person.

In a further advantageous embodiment of the invention it is provided that the

Have light guide device and / or the decorative layer silicone. In particular, the optical waveguide device may be a flexible silicone mat, by means of which light can be guided and coupled out, at least in the direction of the support surface. It is advantageous that the optical waveguide device and / or the decorative layer comprises silicone, that the silicone allow a particularly high flexibility and elasticity of the optical waveguide device.

In addition, silicone has a particularly high mechanical abrasion resistance and is resistant to a wide variety of chemicals. The silicone comprehensive

Fiber optic device is flexible, unbreakable and shatterproof and can be used over a particularly wide temperature range.

In a further advantageous embodiment of the invention it is provided that the

Optical fiber device, the charging device at least 50 percent, in particular at least 80 percent, covered. Here, the optical fiber device is the charging device in

Covering the energy transmission direction and the energy transmission direction arranged intersecting. The covering of the charging device by the optical fiber device at least 50 percent, in particular at least 90 percent, in particular 100 percent, allows the charging device can be particularly advantageously protected against damage.

A second aspect of the invention relates to a method for operating the

Charging device according to the invention, in which emitted light from the light source is coupled into the optical waveguide device and the coupled-in light for providing the light signal by means of the optical waveguide device is coupled in the direction of the support surface. In this case, the light source may be part of the charging device. Alternatively, the light source can be external to the charging device, wherein a control signal for the light source can be provided for controlling the light source by means of the charging device. In the process rooooo vv

 WO 2019/224000 - 4 - PCT / EP2019 / 061751 consequently the light signal by decoupling in the light guide device

coupled light provided, in particular to inform a person by means of the light signal.

In this context, it has proved to be advantageous if light is coupled into the optical waveguide device by means of the light source, provided that electrical energy is transmitted from the charging device to the mobile electronic terminal. That is, it is determined whether electric power is supplied from the charging device for the mobile electronic terminal and the electric power is received by the mobile electric terminal. Will the transmission of electrical energy from the

Charging device determined to the mobile electrical terminal, so by means of

Charger triggered the coupling of light in the optical fiber device. As a result of the coupling of the light in the optical waveguide device, the light by means of

Conducted light guide device and coupled out in the direction of the support surface of the light guide device. In this case, the light is coupled out in particular on the support surface. In this way, the person can be informed in a particularly advantageous manner by means of the light signal that the non-contact energy transmission from the charging device to the mobile electronic terminal takes place.

In a further advantageous embodiment of the invention, it is provided that the light signal is output dynamically by means of the light source. In order to enable the dynamic outputting of the light signal, it is provided that light is coupled dynamically, that is to say temporally changed, by means of the light source into the optical waveguide device. In this way, a light profile and / or a flashing of the coupled-out at the support surface light can be effected. The dynamic outputting of the light signal enables the person to be given a lot of information by means of the light signal.

In a further embodiment of the invention, it has proved to be advantageous if a memory state of the mobile electronic terminal is determined and by means of the light source, a color and / or a brightness of the injected light is set in dependence on the memory state. That is, the storage state of the battery of the mobile electronic terminal is detected and transmitted to the charging device. The loading device causes in dependence on the determined

Memory state of the mobile electronic terminal, a setting of the light signal, wherein the means of the charging device, the light source is controlled in dependence on the memory state. Here, for adjusting the light signal by means of the light source, the color and thus a wavelength of the injected light and / or a brightness and rooooo vv

 WO 2019/224000 - PCT / EP2019 / 061751 an intensity of the light coupled into the optical waveguide device can thus be set as a function of the memory state in order to set the light signal. Thus, the person can be informed by means of the color and / or the brightness and optionally by means of a dynamic of the light signal on the storage state of the battery of the mobile electronic terminal.

It has furthermore proved to be advantageous if ambient lighting is determined and by means of the light source a color and / or a brightness of the light source

coupled light is set depending on the ambient lighting. The ambient lighting is an illumination of an environment of the charging device, wherein the illumination may be characterized by a wavelength spectrum and / or a light intensity. On the basis of determining the ambient lighting, the light signal can be adapted, for example, to a light or dark environment and / or ambient lighting in an environment of the charging device, in particular in a motor vehicle. In this way, it can be avoided, in particular, that the person is blinded by means of the light signal or that the person overlooks the light signal due to a small offset of the light signal from his surroundings.

Thus, a particularly advantageous informing the person by means of the light signal at a respective ambient lighting is possible because the light signal is adapted to the respective ambient lighting.

A third aspect relates to a motor vehicle with a charging device according to the invention, which is adapted to be operated by means of a method according to the invention. Advantages and advantageous embodiments of the respective aspects of the invention are to be regarded as advantages and advantageous embodiments of the respective other aspects of the invention. For this reason, the advantages and advantageous embodiments of the motor vehicle according to the invention are not described again here.

In the following an embodiment of the invention is described. This shows:

1 is a schematic longitudinal section of a loading device for loading a

mobile electronic terminal with a light guide device, which provides a bearing surface for the mobile electronic device, as well as with a counter to one of the support surface charging means, by means of which electrical energy for charging a battery of the mobile electronic terminal is provided without contact; rooooo vv

 WO 2019/224000 - 6 - PCT / EP2019 / 061751

Fig. 2 is a schematic cross section of the charging device and perspective

 Top views of the charging device, wherein in a first of the plan views by coupling the light from the optical fiber device, a light signal is provided and in the second of the perspective top views, the light signal is suppressed by inhibiting the coupling of light from the optical fiber device;

Fig. 3 are respective schematic perspective views of the charging device which on a

 Motor vehicle component is arranged or spaced from the motor vehicle component is arranged; and

Fig. 4 is a schematic perspective view of the loading device, wherein the

 Charging device is arranged on a center console of a motor vehicle, in particular a passenger car, and outputs the light signal in the interior of the passenger car.

The exemplary embodiment explained below is a preferred embodiment of the invention. In the exemplary embodiment, the described components of the embodiment each represent individual features of the invention that are to be considered independently of one another, which also each independently further develop the invention and thus also individually or in a different combination than the one shown as part of the invention. Furthermore, the

described embodiment can also be supplemented by further of the already described features of the invention.

In the figures, functionally identical elements are each provided with the same reference numerals.

In Fig. 1, a charging device 1 for charging a mobile electronic device 2 is shown in a schematic longitudinal section. By means of the charging device 1, the mobile electronic terminal 2 is non-contact, in particular inductive, loadable. In order to load the mobile electronic terminal 2 inductively by means of the charging device 1, the mobile electronic terminal 2 is to be placed on a support surface 3 of the charging device 1.

As can be seen in FIG. 1, the charging device 1 comprises a light guide device 4, which provides the support surface 3 for the mobile electronic terminal 2. The optical waveguide device 4 in the present case is a silicone mat, by means of which in FIG rooooo vv

 WO 2019/224000 - 7 - PCT / EP2019 / 061751 the silicone mat coupled light is conductive and in the direction of the support surface 3 from the optical fiber device 4 can be coupled out. In the present case, the charging device 1 comprises a light source 5, by means of which light can be coupled into the optical waveguide device 4. By means of the light source 5, light can be coupled into the optical waveguide device 4 monochromatically or with a wavelength spectrum and / or with a time-varying wavelength. Alternatively or additionally, light can be coupled statically and / or dynamically into the optical waveguide device 4 by means of the light source 5 in terms of its brightness. The coupled into the light guide device 4 light is coupled out in the direction of the support surface 3 for providing a light signal 12 from the light guide device 4. In

Depending on how the light is coupled by means of the light source 5 in the light guide device 4, the light signal 12 is output. Consequently, the light signal 12 can be temporally changed monochromatically or with a wavelength spectrum and / or in its color and / or its brightness can be output statically and / or in its brightness dynamically and thus animated. At the support surface 3, the light guide device 4 may be provided with a decorative layer 6, by means of which the light signal 12 can be predetermined. The decorative layer 6 can be applied by pressure on the optical waveguide device 4.

Alternatively or additionally, the decorative layer 6 may be a lacquer which is applied to the optical waveguide device 4 by painting. Alternatively or additionally, the light signal 12 can be predetermined by laser inscription of the optical waveguide device 4.

The charging device 1 further comprises a charging device 7 for the contactless charging of the mobile electronic terminal 2. The charging device 7 is arranged on a side of the optical fiber device 4 opposite the bearing surface 3.

In the present case, the charging device 7 is a charging mat, which comprises an induction coil, in the present case a primary coil. This primary coil is configured to provide electric power via a magnetic field to a secondary coil of the mobile electronic terminal 2 for charging a battery of the mobile electronic terminal 2. The charging device 7 is connected via a charging interface 8 with an external power supply device to connect from the external

Energy supply device, which is not shown in the figures, to be supplied with electrical energy. The charging interface 8 may be a USB port. For determining whether electric energy is transmitted from the charging device 7 to the arranged on the support surface 3 mobile electronic device 2, a charging sensor 9 is provided. The charging sensor 9 is present on the opposite side of the support surface 3 of the light guide device 4 and on one of

Fiber optic device 4 facing side of the charging device 7 is arranged. Thus, the r \ zoooo vv

 WO 2019/224000 - 8 - PCT / EP2019 / 061751

Charging sensor 9 between the charging device 7 and the optical fiber device 4, in particular in the installed position of the charging device below the optical fiber device 4 and arranged above the charging device 7.

The charging device 1 is presently received in a housing 10, wherein the housing 10 is a motor vehicle component of a passenger car.

In the present case, the housing 10 is at least partially made of a plastic,

in particular made of polypropylene. As can be seen in Fig. 4, in the present case, the charging device 7 is completely enclosed by the housing 10 and disposed below the resting on the housing 10 light guide device 4. Here is the

Charging device 7 completely covered by the optical fiber device 4 upwards.

In Fig. 2, the charging device 1 is shown in a schematic cross section, which is arranged in a receptacle 11 of the housing 10. In the sectional view it can be seen that the mobile electronic terminal 2 for inductive charging can also be arranged in the receptacle 11 of the housing 10. In the present case, the mobile electronic terminal 2 is covered by the charging device 7 downwards, in particular counter to the energy transmission direction from the charging device 7 to the mobile electronic terminal 2. In Fig. 2 can be further recognized that for loading the mobile electronic device 2, the mobile electronic device 2 on the

Support surface 3 of the optical fiber device 4 is placed.

2, wherein in one of the plan views, the light signal 12 is provided by decoupling the light in the direction of the support surface 3 and in the other plan view, an output of the light signal 12 is suppressed. It can be seen here that the light signal 12 can be shaped by means of the decorative layer 6 of the optical waveguide device 4.

In the present case, the decorative layer 6 has at least one transparent region and at least one opaque region, wherein the light for shaping the light signal 12 is coupled out of the optical waveguide device 4 only in the transparent region.

It is provided that the light signal 12 is provided, as long as electrical energy is transmitted from the charging device 7 to the mobile electronic terminal 2. For this purpose, it is determined by means of the charge sensor 9 whether electrical energy is transmitted from the charging device 7 to the mobile electronic terminal 2. Subsequently, the light source 5 is controlled in dependence on the determined energy transfer from the charging device 7 to the mobile electronic terminal 2. It is determined that electrical energy from the rooooo vv

 WO 2019/224000 - 9 - PCT / EP2019 / 061751

Charger 7 is transmitted to the mobile electronic terminal 2, so a first state of the light source 5 is set, whereas a to the first state

different, second state of the light source 5 is set, if it is determined by means of the charge sensor 9 that no energy transfer from the charger 7 to the mobile electronic device 2 takes place. In particular, a brightness and / or a color and / or dynamics of the light coupled to the optical waveguide device 4 by means of the light source may differ in the first state to the second state. As a result, by means of the light signal 12 a person can be informed as to whether electrical energy is being transmitted from the charging device 7 to the mobile electronic terminal 2. Alternatively or additionally, by means of the light source 5, a color and / or brightness and / or dynamics of the coupled-in light as a function of a

Memory state mobile electronic terminal 2 are set to inform the person about the memory state of the first mobile electronic device 2 by means of the light signal 12. In the present case, the light source 5 comprises at least one

Light-emitting diode, by means of which light of different colors and / or different brightnesses in the light guide device 4 can be coupled.

In Fig. 3, the charging device is shown in respective schematic perspective views, wherein the charging device 1 is arranged in one of the perspective views spaced from the receptacle of the housing 10 and is arranged in the other perspective view in the receptacle 11 of the housing.

In Fig. 4, the charging device 1 is shown in a schematic perspective view, wherein the charging device 1 in the receptacle 1 1 of the housing 10 formed

is included. In this case, the light signal can be adjusted in particular as a function of ambient lighting in the interior of the passenger car. For this purpose, the light source 5 is controlled for adjusting the color and / or the brightness of the coupled-in light in the optical waveguide device 4 in order to adjust the color and / or the brightness of the coupled-in light as a function of the ambient illumination.

By means of the charging device 1, the inductive charging of the mobile electronic

Terminal 2 are designed to be particularly interesting and intuitive, and in particular in

With regard to the adjustment of the light signal 12 as a function of the

Ambient lights are connected to the interior of the passenger car. The charging device 1 is a silicone induction mat which provides a blend of light technology and induction technology. In one the

Recording 1 1 having storage compartment of the housing 10 of the passenger car can rooooo vv

 WO01 / 024000 - PCT / EP2019 / 061751 the charging device 7 comprising an induction mat, which is intended for wireless charging of the mobile electronic terminal 2. On this

The silicone mat can begin to glow as soon as it is placed on the induction mat, the silicone mat itself does not need its own power connection. The silicone mat can be used with any

Be coated patterns. The light color of the silicone mat can be adapted to a light color of an ambient light in the interior of the passenger car, in particular the

Ambient lighting, to be coupled. Alternatively or additionally, the silicone mat can begin to glow as soon as the mobile electronic terminal 2 is placed on the support surface. By means of the luminous silicone mat can via the light signal 12

be symbolized that the mobile electronic device 2 is being loaded.

In particular, by means of different light colors of the light signal 12

different information to the person or in the interior of the

Passenger car to be issued. Here, a yellow glow of the

Silicone mat symbolize that the mobile electronic device 2 is being charged. A green glow of the silicone mat can symbolize that the mobile electronic device 2 fully, in particular to 100 percent, is loaded. The silicone mat is a flexible wireless silicone mat, which can be combined with the inductive charging device 7. By means of the light signal 12, various functions such as a memory state of the mobile electronic terminal 2 and / or a status of a

Digital key. Alternatively or additionally, the charging device 1 can serve as a personalized ambient light source. Advantageously, the loading device 1 is particularly easy to clean. The charging device 1 can be used in passenger cars and / or commercial vehicles and / or aircraft and / or trains and / or offices and / or home for non-contact charging of the mobile electronic terminal 2. The optical waveguide device 4 is a flexible optical waveguide with homogeneous illumination, which is highly abrasion-resistant and scratch-resistant, while at the same time having a low overall depth. In addition, the light guide 4 has an easy to clean

Surface on which has a very low dirt and dust adhesion.

About this, the light guide device 4 lightfast, water-impermeable, unbreakable and can be combined with other surfaces such as leather or fleece. Furthermore, the

Optical fiber device 4 freely designable in its appearance and it is a

three-dimensional design of the light guide device 4 can be designed. The optical waveguide device 4 comprises a highly transparent silicone, wherein a uniform surface illumination can be achieved via a homogeneous coupling of the light source 5 with, in particular, a very small number of light-emitting diodes. A surface of the optical fiber device 4 can be designed by printing and / or painting and / or laser marking. Furthermore rooooo vv

 WO 2019/224000 - 1 1 - PCT / EP2019 / 061751, the light guide device 4 on a closed surface, wherein a bonding of materials to the surface is possible. The optical waveguide device 4 provides a flat luminous element which is flexible, break-resistant and shatter-proof, has high mechanical abrasion resistance and can be used over a large area

Temperature range, in particular from -40 degrees Celsius to +200 degrees Celsius. The light guide 4 is freely decoratable and resistant to different

Chemicals. In particular, the optical fiber device 4 is resistant to organic solvents and inorganic liquid acids, lightfast, waterproof and

steam sterilizable both at 120 degrees Celsius and at 135 degrees Celsius and disinfectable by means of electron radiation and / or gamma radiation and / or ethylene oxide. The light signal 12 is based on diffuse light, which is generated by means of at least one light-emitting diode of the optical waveguide device 4. The particularly homogeneous coupling of light beams of the light by 90 degrees to the at least one light-emitting diode by means of the optical waveguide device 4 produces a uniform surface illumination. The loading device 1 can be combined by laminating with other flexible materials such as textiles.

Overall, the example shows how the invention can provide an inductive silicone mat with light function.

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 WO 2019/224000 - 12 - PCT / EP2019 / 061751

LIST OF REFERENCE NUMBERS

1 loader

 2 mobile electronic device

 3 contact surface

 4 light guide device

 5 light source

 6 decorative layer

 7 charging device

 8 charging interface

 9 charging sensor

 10 housing

 11 recording

 12 light signal

Claims

WO 00/190024 - PCT / EP2019 / 061751 - Claims

1. charging device (1) for charging a mobile electronic terminal (2), with a support surface (3) for the mobile electronic device (2) providing light guide means (4), by means of which light conductive and in the direction of the support surface (3) can be coupled out, and with a on one of the support surface (3) opposite side behind the light guide device (4) arranged charging device (7) by means of which the mobile electronic terminal (2) is contactless loadable.

2. Loading device (1) according to claim 1, wherein a decorative layer (6) on the support surface (3) of the light guide device (4) is arranged, which has at least one transparent and at least one opaque region for forming the light signal (12).

3. Loading device (1) according to claim 1 or 2, wherein the light guide device (4).

 and / or the decorative layer (6) comprise silicone.

4. Loading device (1) according to one of the preceding claims, wherein the light guide device (4) the charging device (7) at least 50 percent, in particular at least 80 percent covered.

5. A method for operating a charging device (1) according to any one of the preceding claims, in which emitted from a light source (5) light coupled into the optical fiber device (4) and the coupled-in light for providing a light signal (12) by means of Optical fiber device (4) in the direction of the support surface (3) is coupled out.

6. The method of claim 5, wherein by means of the light source (5) light in the Lichtleiterein direction (4) is coupled, provided that electrical energy from the charging device (7) to the mobile electronic terminal (2) is transmitted.

7. The method of claim 5 or 6, wherein the light signal (12) by means of the light source (5) is output dynamically.

8. The method according to any one of claims 5 to 7, wherein a memory state of the mobile electronic terminal (2) is determined, and by means of the light source (5) a color rooooo vv

 WO 2019/224000 - 14 - PCT / EP2019 / 061751 and / or a brightness of the coupled-in light is set as a function of the storage state.

9. The method according to any one of claims 5 to 8, wherein an ambient lighting

 is determined and by means of the light source (5) a color and / or brightness of the injected light in dependence on the ambient lighting is set.

10. A motor vehicle with a charging device (1) according to one of claims 1 to 4, which is adapted to be operated by means of a method according to any one of claims 5 to 9.