WO2011026605A1

WO2011026605A1 - Holder for mobile electronic devices

Info

Publication number: WO2011026605A1
Application number: PCT/EP2010/005345
Authority: WO
Inventors: Jürgen Reichel
Original assignee: Reichel Juergen
Priority date: 2009-09-01
Filing date: 2010-08-31
Publication date: 2011-03-10
Also published as: DE102009039557A1; DE102009039557B4; DE202009019195U1

Abstract

The invention relates to a holder for mobile electronic devices, comprising a magnetic catch (4) having a magnetic or magnetizable disc (7) and a surface element (2), wherein the surface element (2) has a magnetic or magnetizable positioning element (6). The aim of the invention is for the holder to ensure secure holding of electronic devices and, at the same time, to be used with little operating force. To this end, the positioning element (6) projects out of the surface element (2) at least on one side and is positively received in a recess upon contact of the disc (7) with the surface element (2).

Description

Holder for mobile electronic devices

The invention relates to a holder for mobile electronic devices, which has a magnetic grid with a magnetic or magnetizable disc and a surface element, wherein the surface element has a magnetic or magnetizable element and at least the element or the disc is magnetic. Such a holder is often also referred to as a universal holder for mobile electronic devices, such as mobile phones, navigation systems, music players, radio telephones and remote controls. Such brackets are used, for example, as a table holder or holder in the car. The surface element of the holder can either be part of the holder itself, part of a holder or part of the electronic device. Between the element which is connected to the surface element, and the disc, a magnetic attraction force is generated, which establishes a frictional connection between the disc and on the element with the surface element.

However, it has been found that relatively high magnetic forces are required for a secure hold of an electronic device. Especially when using In the car, where vibrations are applied to the mount, the magnetic forces of attraction between the disk and the element are often insufficient. A further increase of the magnetic attraction forces, for example by the use of stronger magnets, has the disadvantage that the disc only with

Difficulty can be separated from the element, so that a removal of the electronic device from the holder is very difficult. This stronger magnet usually have a higher mass or are very expensive, both of which is undesirable. The invention is therefore based on the object to provide a holder for mobile electronic devices, which ensures a secure hold of the electronic device.

According to the invention this object is achieved in a holder of the type mentioned above in that the element is designed as a positioning and projecting at least one side of the surface element, wherein the disc has a recess in which the positioning element is received positively in contact with the disk on the surface element.

This embodiment has a number of advantages. Thus, in addition to a non-positive connection by the magnetic attraction forces, a positive connection with the disk is produced by the positioning element, wherein at the same time the position of the disk relative to the surface element is defined. The shape of the recess corresponds to the shape of the positioning, so that a good power transmission is possible. It is particularly advantageous if substantially vertically directed forces are positively transferred between the disc and the positioning, while using the magnetic attraction forces horizontal forces are generated, which ensure a safe investment of the disc on the positioning. The magnetic forces can be relatively low, since they only have to prevent unintentional removal of the disc. Weight forces then hardly have to be compensated by the magnetic forces, but are transmitted from the disk by positive locking on the positioning. This makes it possible to use relatively small magnets, so that the positioning and / or the disc can be made relatively small. For the Magnetetrast then only little space is required, so that a very flat mount can be obtained. In a polygonal design of the positioning can be ensured that the disc can be placed only in certain angular positions on the positioning. An unintentional twisting is prevented. In a preferred embodiment, the positioning element is rotationally symmetrical, in particular spherical, formed, wherein the recess is circular. As a result, a simple rotation between the disc and surface element is ensured, at the same time by the positioning the axis of rotation is defined. In this case, forces are transmitted through the positive connection between the positioning and recess during the twisting, so that the disc is securely held on the surface element. Twisting is possible with relatively low forces, since only the friction between the disc and surface element or positioning must be overcome.

Preferably, the positioning element is held in a passage opening in the surface element, in particular pressed. Depending on the design of the surface element, the positioning element can also be embedded or laminated or adhesively bonded to the surface element. Through the use of a passage opening, the positioning element can project on both surfaces of the surface element. The surface element can thereby be made very thin, wherein the accuracy of the production of the positioning need not be made too big requirement.

Preferably, a plastic disc, in particular made of PVC or silicone, is arranged on the surface element in a contact region of the disc. This plastic disc is used to increase the friction between the disc and the surface element, so that an unintentional adjustment of the angular position between the disc and the surface element by vibrations, operation of the mobile, electronic device or the like is avoided. At the same time the plastic disc serves as a damping material, so that vibrations are transmitted only attenuated to the electronic device.

In a preferred embodiment, the disc is attached to a holding tray or on a rear wall of the electronic device, in particular glued or integrated. The disc can be made relatively thin and thus hardly contributes to the rear wall or on the holding shell. The holder can be designed in the form of a cover, which can always remain connected to the electronic device. The dimensions of the holding shell or the electronic device so only slightly larger by the disc, whereby the rest of the holder with the surface element and the positioning can be made relatively flat, so that a total of a very flat holder is obtained. The surface element preferably has an angled standing surface at one end. This stand surface can serve on the one hand, the surface element and thus the

Holder at a predetermined angle on a flat surface, such as a table, off. The floor space can also be used, for example, to be inserted into a ventilation slot in the car and so to attach the bracket in the car. Optionally, even more adapters can be attached to the base. It is also conceivable to form the footprint elastically on the surface element, so that an angle between the base surface and surface element is adjustable. The base can be formed integrally with the surface element.

In a preferred embodiment, the surface element and / or the holding shell are made of a compound material and in particular comprises carbon fibers. The holder can thus be made very light and thin and is also very resistant to external forces. In particular, by the use of carbon fibers can be compared to metal brackets, such as aluminum, for example, save weight. In the case of carbon fibers, a further surface treatment, such as a coating or an application of paint, is generally not required.

In another preferred embodiment, the surface element and / or the holding shell is made as an injection molded part. As a result, a very cost-effective production of the holder is possible. If necessary, the disk and the positioning element can be injected directly into the injection molded part. This ensures a secure connection between these elements. Advantageously, the surface element and / or the holding shell has a photovoltaic surface. With such a surface solar energy can be converted into electrical energy and used, for example, to charge the electronic device. In this case, for example, the photovoltaic properties of carbon fibers can be exploited.

The surface element and / or the holding shell preferably has an integrated antenna. The transmission and reception performance of a mobile electronic device, in particular a mobile phone, can thus be increased. At the same time, this can lead to a reduction in the power consumption of the electronic device, since this can then send with a lower power. An integrated antenna can be formed for example by the carbon fibers. It is particularly preferred that an electrical supply signal and / or an antenna signal from the surface element on the holder or on the back of the electrical device is transferable. The transmission can, for example, inductive, so contactless, done. In this case, the electrical conductivity of carbon fibers can be exploited. But it is also conceivable to use other conductive materials or to integrate into the surface element or the holder or back. To transmit the signals from the holder to the electronic device, the holder may optionally be equipped with a plug connection. Advantageously, the holder has a clamping device for an operating aid, in particular for a pin. Modern electronic devices are often provided with a touch display. The operation with fingers is not always easy. With a pen, however, a relatively accurate selection and thus operation of the touch display is usually possible. It is also conceivable to form the clamping device, for example, as a clamping device for sticky notes or, for example, as a holder for a pair of sunglasses.

Further features, details and advantages of the invention will become apparent from the wording of the claims and from the following description of exemplary embodiments with reference to the drawings. Show it:

1 shows a holder for mobile electronic devices in rear view,

2, the holder in front view,

Fig. 3, the holder in side view and

Fig. 4 is an enlargement of the magnetic field. In Fig. 1, a holder 1 for mobile electronic devices, such as mobile phones or mobile navigation devices, is shown. The holder 1 has a surface element 2, which is provided with an angled base 3. The surface element 2 and the base 3 are integrally formed and form in the embodiment shown, so to speak, a stand of the holder. About a Magnetetrast 4, a holding shell 5 is rotatably connected to the surface element 2. Instead of the holding shell 5 can also be connected directly to a rear wall of the mobile electronic device with the holder 1. In Fig. 2, the holder 1 is shown in front view, wherein the holding shell 5 is shown transparent to allow a view of the magnetic latch 4. The magnetic latch 4 has a central positioning element 6 which is arranged centrally in a disk 7 and, as it were, centers the disk 7. Between the disc 7 and the surface element 2 while a plastic disc 8 is provided, the friction forces between the disc 7 and the surface element 2 increases. At the same time it serves as a vibration damping between the holding shell 5 and the surface element. 2

The holding shell 5 is shown in Fig. 1 in a different rotational position than in Fig. 2. The disc 7 is rotatable about the positioning element 6. By a rotationally symmetrical configuration of the positioning element 6, any other angular positions of the holding shell 5 relative to the surface element 2 are possible.

In Fig. 3, the holder 1 is shown in side view. It is easy to see that the base 3 is angled relative to the surface element 2. This angle serves to hold the holding cup 5 at an angle, so that easy reading of an electronic device held in the holding cup 5 is possible.

The positioning element 6 projects over the surface element 2 on both sides, so that the surface element 2 can be made very thin. Between the surface element 2 and the holding shell 5, the plastic disc 8 is arranged, wherein the plastic disc 8 surrounds the positioning element 6 rotationally symmetrical. By the positioning element 6 vertical forces can be positively absorbed by the holding shell 5 and transmitted to the surface element 2. The vertical direction is marked in FIG. 3 by an arrow 9. An arrow 0 indicates the horizontal direction. The horizontal attractive force between the holding shell 5 and surface element 2 is generated magnetically by the positioning element 6 with the disc 7. In this case, both the disk 7 and the positioning element 6 may be made of a magnetic material. However, it is usually sufficient if only one of the two elements is magnetic, while the other has a magnetizable material, since the substantially vertically acting weight forces are transmitted positively via the positioning element 6.

In Fig. 4, the magnetic key 4 is shown in detail. The positioning element 6 is spherical and held immovably in a through hole 11 in the surface element 2. In an abutment region 12 of the disk 7, the plastic disk 8 is connected to the surface glued element 2, so that the disc 7 is not applied directly to the surface element 2, but indirectly via the plastic disc. 8

The disc 7 is integrated in the holding cup 5 in this example. It is also conceivable to glue the disc 7 on the holding shell 5 or a rear wall of the electronic device. This also a subsequent adaptation to the holder 1 is possible. The disc 7 has a recess 13 in which the positioning element 6 can be received positively. The shape of the recess 13 corresponds to the shape of the positioning element 6. In the illustrated spherical embodiment of the positioning element 6, the recess 13 is formed correspondingly spherical. In another embodiment of the positioning element 6, for example in the case of a conical or blunt end, the recess 13 is adapted accordingly. It is also possible to provide the recess 13 in a simple annular manner as an opening in the disk 7, whereby a line contact between the disc 7 and the positioning element 6 is obtained, which is sufficient for the transmission of vertical forces usually. Horizontal forces are generated by the magnetic attraction forces between the positioning element 6 and the disc 7.

In all embodiments shown, the positioning element 6 is held in the surface element 2, while the disc 7 is connected to the holding shell 5 and a rear wall of an electronic device. An embodiment in which the positioning element 6 is held in the holding shell 5, while the disc 7 is fixed to the surface element 2 is not shown, but also in the context of the invention. The holder 1 may for example be made of light metal or a compound material, such as a carbon fiber material. In this case, an inductive transmission of electrical signals between the surface element 2 and holder 5 is possible, whereby, for example, an electrical power supply of the electronic device or the connection of an external antenna is possible. In this case, the holder 1 can also be used as an antenna. The holder 1 may also have a photovoltaic surface. For example, it is possible to exploit the photovoltaic properties of carbon fibers. The electrical energy thus obtained can be used to supply power to the electronic device. The invention is not limited to any of the embodiments described above, but can be modified in many ways. In this case, a holder for mobile electronic devices is obtained by the invention, which is universally applicable, with an extremely flat bracket is obtained, which is easily rotatable. At the same time the holder or the electronic device is easy to remove from the holder 1, wherein by the positive and non-positive magnetic latch or

Magnetic coupling for removing or securing the electronic device only small forces are required while a secure support is achieved. The magnetic latch hardly bears on the rear wall of the electronic device or on the holding shell, so that an extremely flat mounting is obtained. The holder can simultaneously serve as a power supply and as an antenna. In particular, the use of carbon fiber materials gives an extremely light and flat support, which is at the same time very resistant.

All of the claims, the description and the drawings resulting features and advantages, including design details, spatial arrangements and method steps may be essential to the invention both in itself and in various combinations.

Reference number list

5 1 bracket

2 area element

3 floor space

4 magnetics

5 holding cup

10 6 positioning element

7 disc

8 plastic disc

9 vertical arrow

10 horizontal arrow

15 11 passage opening

12 investment area

13 recess

Claims

claims

A holder for mobile electronic devices, comprising a magnetic latch (4) with a magnetic or magnetizable disc and a surface element, wherein the surface element comprises a magnetic or magnetizable element and at least the element or the disc is magnetic, characterized in that the element is formed as a positioning element (6) and protrudes at least on one side from the surface element (2), wherein the disc (7) has a recess (13) in which the positioning element (6) upon contact of the disc (7) on the surface element (2) is recorded positively.

2. Holder according to claim 1, characterized in that the positioning element (6) is rotationally symmetrical, in particular spherical, is formed, wherein the

Recess (13) is optionally circular.

3. Holder according to one of claims 1 or 2, characterized in that the positioning element (6) is held in a passage opening (11) in the surface element (2), in particular is pressed.

4. Holder according to one of claims 1 to 3, characterized in that in

a contact surface (12) of the disc (7) on the surface element (2) a plastic disc (8), in particular made of PVC or silicone, is arranged.

5. Holder according to one of claims 1 to 4, characterized in that the

Washer (7) is mounted in a holding shell (5) or in a rear wall of the electronic device, in particular glued or integrated.

6. Holder according to one of claims 1 to 5, characterized in that the surface element (2) at one end has an angled base (3).

7. Holder according to one of claims 1 to 6, characterized in that the surface element (2) and / or the holding shell (5) is made of a compound material, in particular carbon fibers.

8. Holder according to one of claims 1 to 6, characterized in that the surface element (2) and / or the holding shell (5) is made as an injection molded part.

9. Holder according to one of claims 1 to 8, characterized in that the surface element (2) and / or the holding shell (5) has a photovoltaic surface.

10. Holder according to one of claims 1 to 9, characterized in that the surface element (2) and / or the holding shell (5) has an integrated antenna.

11. Holder according to one of claims 1 to 10, characterized in that an electrical supply signal and / or an antenna signal from the surface element (2) on the holder (5) or on the back of the electronic device in particular contactless is transferable.

12. Holder according to one of claims 1 to 11, characterized in that it comprises a clamping device for an operating aid, in particular for a pin