CN217693657U - Electronic device and charging box - Google Patents

Abstract

The utility model provides an electronic device and a charging box, wherein the electronic device comprises a shell and a solar touch control component connected with the shell; a control circuit and an internal battery which are connected with the solar touch control assembly are arranged in the shell; the solar touch control assembly comprises a glass touch control display panel and a solar energy storage component, the glass touch control display panel comprises an organic electroluminescence display, the solar energy storage component is used for converting light energy collected by penetrating through the glass touch control display panel into electric energy, and the electric energy is stored to supplement the electric quantity of an internal battery. The charging box is used for accommodating the electronic device, and the part of the charging box corresponding to the solar touch component of the electronic device is wholly or partially hollowed out or made of light-permeable materials. The utility model discloses an electron device has solar energy touch-control subassembly, collects solar charging and touch-control in an organic whole, and the box that charges also supports solar charging, and the earth resource is saved to make full use of solar energy, and it is long when increasing battery life and extension electron device.

Description

Electronic device and charging box

Technical Field

The utility model relates to an electron field specifically, relates to an electron device and box that charges.

Background

Wireless headsets are becoming increasingly popular with multiple users due to the inconvenience of wearing wired headsets. The Wireless headset includes a True Wireless Stereo (TWS) headset, which is referred to as a TWS headset. The TWS headset is a device for transmitting stereo signals based on bluetooth technology, i.e. the left and right headsets receive stereo signals from a playing device such as a mobile phone through bluetooth without any wire connection, so as to realize playback. The TWS earphone mainly adopts the earphone storehouse to accomodate and charge the TWS earphone, generally through being connected the earphone storehouse with external power source electricity in order to carry out the electric energy storage earlier among the prior art, afterwards the rethread earphone storehouse is to the earphone of accomodating in it charge. However, the charging of the earphone house is affected by various factors such as facilities, personal habits and the like, so that the electric energy stored in the earphone house cannot meet the charging requirement of the earphone in real time, and the electric quantity of the earphone cannot meet the use requirement in real time. In addition, the existing earphone is limited in size and weight, and the playing time is difficult to be prolonged, so that the earphone is charged frequently, and the use is influenced. Also, similar problems exist for other electronic devices than earphones, such as hearing aids and the like.

Therefore, a new electronic device and a new charging box are needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

A series of concepts in a simplified form are introduced in the summary section, which will be described in further detail in the detailed description section. The inventive content does not imply any attempt to define the essential features and essential features of the claimed solution, nor is it implied to be intended to define the scope of the claimed solution.

Not enough to prior art, the utility model provides an electronic device, include: the solar touch control device comprises a shell and a solar touch control component connected with the shell; a control circuit and an internal battery which are connected with the solar touch control component are arranged in the shell; the solar touch control assembly comprises a glass touch control display panel and a solar energy storage component, wherein the glass touch control display panel comprises an organic electroluminescence display, the solar energy storage component is used for converting light energy collected by penetrating through the glass touch control display panel into electric energy, and the electric energy is stored to supplement the electric quantity of an internal battery.

Optionally, the glass touch display panel includes a glass layer, a first optical transparent adhesive layer, a first transparent conductive thin film layer, and an organic electroluminescent display layer, which are sequentially disposed.

Optionally, the glass touch display panel further includes a second optical transparent adhesive layer and a second transparent conductive thin film layer, and the second optical transparent adhesive layer and the second transparent conductive thin film layer are located between the first transparent conductive thin film layer and the organic electroluminescent display layer and are used for realizing multi-point touch.

Optionally, the solar energy storage component comprises a solar cell and a junction box connected with the solar cell, and the junction box is connected with the internal cell.

Optionally, a single chip microcomputer is arranged inside the junction box and used for controlling the conduction state between the solar cell and the junction box by controlling the grid voltage of the internal metal oxide semiconductor tube.

Optionally, the internal battery comprises a lithium battery.

Optionally, the solar touch control module further comprises a transparent bracket located between the solar touch control assembly and the shell.

Optionally, the electronic device is one of: a wireless headset, a wired headset or a hearing aid.

A part of the charging box corresponding to a solar touch component of the electronic device is wholly or partially hollowed out or made of light-permeable materials.

Optionally, the charging box is provided to be entirely light transmissive or transparent.

The utility model provides an electron device has solar energy touch-control subassembly, collects solar charging and touch-control in an organic whole, and the box that charges also supports solar charging, and the earth resource is saved to make full use of solar energy, and it is long when increasing battery life and extension electron device.

Drawings

The following drawings of the utility model are used as part of the utility model for understanding the utility model. There are shown in the drawings, embodiments and descriptions of the invention, which are used to explain the principles and devices of the invention. In the drawings there is shown in the drawings,

fig. 1 is a schematic structural diagram of an electronic device according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a charging box according to an embodiment of the present invention;

fig. 3 is an exploded view of an earphone according to an embodiment of the present invention;

wherein: 1-a solar touch control assembly;

11-glass encapsulation layer;

12-EVA glue;

13-crystalline silicon cell slice;

14-EVA glue;

15-back glue or dispensing;

2-a junction box;

3-a scaffold;

4-a control panel;

5-a charging box;

51-charging box light-transmitting area

6-an earphone assembly;

61-middle shell;

62-a battery;

63-a magnet;

64-a control assembly;

65-a battery holder;

66-a loudspeaker;

67-microphone;

68-upper shell;

7-FPC；

8. 8' -Board to Board connector.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that the present invention may be practiced without one or more of these specific details. In other instances, well-known features have not been described in order to avoid obscuring the present invention.

In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of the present invention. It is apparent that the practice of the invention is not limited to the specific details known to those skilled in the art. The preferred embodiments of the present invention are described in detail below, however, the present invention can have other embodiments in addition to the detailed description.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

The electronic device and the charging box of the present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1, in at least one embodiment, the electronic device is an earphone, the earphone includes a casing and a solar touch device 1 connected to the casing, a control circuit and an internal battery connected to the solar touch device 1 are disposed in the casing, the solar touch device 1 includes a glass touch Display panel and a solar energy storage component, wherein the glass touch Display panel includes an Organic electroluminescent Display (OLED), and the solar energy storage component is configured to convert light energy collected through the glass touch Display panel into electrical energy and store the electrical energy to supplement the power of the internal battery.

In at least one embodiment, the earphone structure may include a solar touch device 1, a support 3, a control panel 4, and an earphone assembly 6, wherein the solar touch device 1 is fixed on the support 3 and connected to the earphone assembly 6 through the control panel 4, for converting light energy into electric energy to supplement electric quantity of a battery of the earphone and control the earphone. In one embodiment, the electronic device further includes a transparent bracket 3 located between the solar touch device 1 and the housing, and the bracket 3 may be a plastic bracket.

In at least one embodiment, the glass touch display panel includes a glass layer, a first optical transparent adhesive layer (OCA), a first transparent conductive thin film layer (ITO), and an organic electroluminescent display layer (OLED), which are sequentially disposed.

In at least one embodiment, the glass touch display panel further includes a second optical transparent adhesive layer and a second transparent conductive thin film layer, and the second optical transparent adhesive layer and the second transparent conductive thin film layer are located between the first transparent conductive thin film layer and the organic electroluminescence display layer, so as to implement multi-touch.

In at least one embodiment, the solar energy storage component includes a solar cell and a junction box 2 connected thereto, the junction box 2 is connected to an internal battery, the solar cell can be a single crystal silicon cell 13, and the internal battery can be a battery 62 in the earphone assembly 6.

In at least one embodiment, a single chip microcomputer is disposed inside the junction box for controlling the conduction state between the solar cell and the junction box 2 by controlling the gate voltage of an internal Metal Oxide Semiconductor (MOS). In at least one embodiment, the junction box 2 has a single chip microcomputer therein to control the conduction state. Through 1 conversion of shining of sunlight into the electric energy of solar energy touch-control subassembly, store in terminal box 2, rethread terminal box 2 is connected with the lithium cell, supply the earphone from the electric quantity of the lithium cell of taking, greatly increased lithium cell's life is long like this, and terminal box 2 device is whole power generation system of protection, play the effect of electric current transfer station, if subassembly short circuit or voltage are unusual (surpass or be less than the settlement voltage), the conducting state is controlled through the grid voltage of controlling inside Metal Organic Semiconductor (MOS) pipe to the inside singlechip of terminal box 2, the abnormal battery string of automatic disconnection short circuit or voltage, prevent to burn out entire system. In one embodiment, the internal battery comprises a lithium battery.

In at least one embodiment, the solar touch module 1 includes a glass encapsulation layer 11, an EVA glue 12, a crystalline silicon cell 13, and an EVA glue 14, which are sequentially disposed from top to bottom. Wherein, single glass material plays the effect of protection crystalline silicon battery piece and absorption sunlight.

In at least one embodiment, the solar touch device 1 further includes a back adhesive or glue 15 located below the EVA glue 14, and the back adhesive or glue 15 is fixed on the support 3.

In at least one embodiment, the glass encapsulation layer 11 is an Organic light emitting semiconductor (OLED), and the glass encapsulation layer includes glass, a first optically transparent adhesive (OCA), a first conductive Film (ITO Film), a second optically transparent adhesive (OCA), and a second conductive Film, which are sequentially disposed from top to bottom.

In at least one embodiment, the earphone further includes a flexible printed circuit board (FPC) 7, a board-to-board (BTB) connector, or a spring plate or a pogo pin (pogo pin), connected to the control panel 4, where two ends of the FPC 7 are respectively provided with a board-to-board connector 8 and a board-to-board connector 8', and then the whole support 3 is matched with the earphone middle shell 61 by means of dispensing and the like, so as to connect the solar touch component 1 with the control panel 4, thereby playing a role in touch control, color or pattern display. Wherein the control panel 4 may be a PCB. The solar touch component 1 can receive the touch operation of the user and correspondingly send an instruction to the control component 64 of the earphone, i.e. the control chip, and the control chip sends an instruction again to control the corresponding component to realize the corresponding function, for example, controlling the speaker 66 to play music, controlling the volume, and also controlling the microphone 67. When the solar touch control assembly 1 is not used, the display can be turned off or default colors or patterns can be displayed, and the display of personalized patterns or pattern sequences transmitted to the headset by the mobile phone app is also supported.

In order to utilize solar energy to a greater extent, a charging box 5 is provided, and when the earphone is inserted into the charging box 5, the charging box 5 itself may not have a charging function, and may also have a charging function, which is not limited herein. The charging box 5 may be designed to be hollow or light-permeable at least in a region corresponding to a position where the earphone can collect light (for example, an upper cover of the charging box 5 is made of a transparent and non-fragile glass material or a transparent plastic (light transmittance reaches more than 89%), etc.), as shown in fig. 2, two charging box light-permeable regions 51 are provided, in other embodiments, a plurality of such light-permeable regions 51 may also be provided, and shapes and areas of the regions are not limited. Therefore, when the earphone is not used, the charging of the earphone can be realized as long as the charging box 5 is in the daylighting environment. In at least one embodiment, the charging box 5 may also be configured such that the housing is entirely light permeable or transparent.

When the earphone is in the charging box 5, if the electric energy converted from sunlight is fully charged, the MOS tube of the lithium battery can automatically start over-current protection.

In at least one embodiment, as shown in fig. 3, the headset assembly 6 includes a center housing 61, a battery 62, a magnet 63, a control component 64, a battery holder 65, a speaker 66, a microphone 67, and an upper housing 68. The control assembly 64 includes a PCB, FPC and BTB connector. Wherein the BTB connector can be replaced by a spring sheet or a spring pin. In at least one embodiment, the housing includes an upper shell 68, a middle shell 61, and a solar touch assembly 1 instead of a lower shell.

The utility model discloses a solar charging earphone's with OLED function structure supports solar charging's structure and charging logic, adopts glass touch panel can support touch-control and demonstration, and charging box 5 also supports the earphone to charge, can be applied to electronic device such as wireless earphone, wired earphone or audiphone. Wherein the wireless headset may be a TWS headset.

Based on the above description, the utility model provides an electronic device has following advantage at least:

1. the solar energy is fully utilized, and the earth resources are saved;

2. the service life of the battery and the duration of the electronic device are prolonged;

3. the touch panel made of glass integrates solar charging and touch control, so that the quality of the electronic device is improved, and the function is enhanced.

Unless defined otherwise, technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Terms such as "disposed" and the like, as used herein, may refer to one element being directly attached to another element or to one element being attached to another element through intervening elements. Features described herein in one embodiment may be applied to another embodiment, either alone or in combination with other features, unless the feature is otherwise inapplicable or otherwise stated in the other embodiment.

Claims (10)

1. An electronic device, comprising: the solar touch control device comprises a shell and a solar touch control assembly connected with the shell;

a control circuit and an internal battery which are connected with the solar touch control assembly are arranged in the shell;

the solar touch control assembly comprises a glass touch control display panel and a solar energy storage component, wherein the glass touch control display panel comprises an organic electroluminescence display, and the solar energy storage component is used for converting light energy collected by penetrating through the glass touch control display panel into electric energy and storing the electric energy to supplement the electric quantity of the internal battery.

2. The electronic device according to claim 1, wherein the glass touch display panel comprises a glass layer, a first optical transparent adhesive layer, a first transparent conductive thin film layer and an organic electroluminescent display layer which are sequentially arranged.

3. The electronic device according to claim 2, wherein the glass touch display panel further comprises a second optical transparent adhesive layer and a second transparent conductive thin film layer, and the second optical transparent adhesive layer and the second transparent conductive thin film layer are located between the first transparent conductive thin film layer and the organic electroluminescent display layer and are configured to implement multi-touch.

4. The electronic device of claim 1, wherein the solar energy storage component comprises a solar cell and a junction box connected thereto, the junction box being connected to the internal battery.

5. The electronic device according to claim 4, wherein a single chip microcomputer is disposed inside the junction box for controlling the conduction state between the solar cell and the junction box by controlling the gate voltage of the internal MOS transistor.

6. The electronic device of claim 1, wherein the internal battery comprises a lithium battery.

7. The electronic device of claim 1, further comprising a transparent support between the solar touch assembly and the housing.

8. The electronic device of claim 1, wherein the electronic device is one of: a wireless headset, a wired headset or a hearing aid.

9. A charging box for accommodating the electronic device according to any one of claims 1 to 8, wherein a portion of the charging box corresponding to the solar touch component of the electronic device is integrally or partially hollowed out, or is made of a light-permeable material.

10. A charging box according to claim 9, wherein the charging box is provided so as to be wholly light-transmissive or transparent.

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