JP3221240U - Solar touch remote control device - Google Patents

Abstract

An object of the present invention is to effectively increase the light transmittance of a touch panel, perform functions of power generation and storage even with a low light intensity indoor environment by a solar cell, achieve permanent battery replacement and save manufacturing cost, and further thin To provide a solar touch remote control device that achieves major advantages such as A cover plate (10), a case (20), a touch panel assembly member (30), a solar cell (40), and an electronic control module (50) are provided. The cover plate is a light transmitting substrate, and the case corresponds to one end of the cover plate. The storage space is formed between the cover plate and the housing. The touch panel assembly member includes a transparent plastic substrate 31 and at least one transparent circuit layer 32. The transparent circuit layer is disposed at the lower end portion of the transparent plastic substrate, and the touch panel assembly member is at the lower end portion of the lid plate. . The solar cell is disposed at the other end of the touch panel assembly member opposite to the lid plate. The electronic control module is installed in the storage space, and the electronic control module includes a control assembly member 51, a storage unit 52, a signal transmission unit 53, and a circuit board 54. [Selected figure] Figure 2

Description

  The present invention relates to a solar touch remote control device, and more particularly to a remote control device in which a solar cell is aligned with a touch panel.

With the innovations and advancements in electronic science and technology, the remote control behavior of human-machine interfaces using remote controls has become common in various current consumer electronics products. In order to facilitate multi-control and control of the remote control, a touch panel is used as an input interface of the remote control.

In order to extend the durability of remote control battery use, it has been developed to bond solar cells on remote control panels. As an example, it superimposes a solar cell and a control panel, mainly including a touch area and a non-touch area adjacent to the touch area, in the touch area a first transparent substrate, an optoelectronic conversion layer, a touch electrode layer and a second transparent substrate Equipped with The photoelectric conversion layer is disposed on the first transparent substrate, and the touch electrode layer is formed on one side of the second transparent substrate, and is bonded to the photoelectric conversion layer. The design of the touch panel according to the present invention effectively improves the absorption light area of the photoelectric conversion layer and enhances the effect of improving the amount of current conversion (see, for example, Patent Document 1). In addition, there are devices in which a solar cell and a touch panel are separately installed in different areas of the electronic device. The touch panel is mainly divided into a solar cell area and a touch area, and includes a glass substrate, and a lower transparent electrode layer, a polymer composite layer, an upper electrode layer, and sealing upward from below corresponding to the solar cell area on the glass substrate A layer is formed, and a plurality of rows, a transparent electrode layer including a conductive area of a column, an insulating layer, a metal layer, and a protective layer are formed upward from the bottom corresponding to the touch area. As a result, the lower transparent electrode layer of the solar cell area and the transparent electrode layer of the touch area are completed as transparent electrodes, and the upper electrode layer and the metal layer are completed with a metal material. According to the present invention, in a manufacturing process for aligning a polymer solar cell with a single substrate type touch panel, a touch panel for aligning a polymer solar cell is manufactured (see, for example, Patent Document 2).

Taiwan Utility model registration No. M448723 "Touch panel with light power conversion" Taiwan Utility model registration No. M409477 "Touch panel to align polymer solar cells"

The problem to be solved can not effectively solve the problem that the transparency of the solar cell structured touch panel decreases, and the known structure places the photovoltaic member of the solar cell between the touch sensing electrode layers. Therefore, the complexity of the manufacturing process and the manufacturing cost increase. Therefore, it is a problem that developers and related researchers of the solar cell or touch panel related industry have to overcome in an effort to reduce the manufacturing cost of the solar touch remote control device effectively by means of the hard design of the innovation.

  The present invention is a remote control device for aligning a solar cell with a touch panel, and includes a cover plate, a housing, a touch panel assembly member, a solar cell and an electronic control module, and has a hard design by a transparent conductive layer of the touch panel. It is a feature.

The solar touch remote control device of the present invention is a hardware design mainly based on the transparent conductive layer of the touch panel as compared with the prior art, effectively increasing the translucency of the touch panel, and under a low light indoor environment by solar cells. Even in the power generation and storage functions, the solar touch remote control device can be made thin and light, and the battery can be saved permanently by replacing the battery permanently.

FIG. 1 is a block diagram of a solar touch remote controller according to an embodiment of the present invention; FIG. 2 is an exploded view of the entire apparatus of the present invention; FIG. FIG. 2 is an external view of the entire apparatus of the present invention; FIG. FIG. 2 is a cross-sectional view of the entire apparatus of the present invention; FIG. FIG. 2 is a schematic view of a touch panel assembly member according to an embodiment of the present invention; FIG. 2 is a schematic view of a solar cell according to an embodiment of the present invention; FIG. 2 is an operation instruction diagram of the entire apparatus of the present invention; FIG.

In view of these problems, the present inventor has improved the solar touch remote control device based on abundant expertise and many years of practical experience. An object of the present invention is to provide a remote control device for aligning a solar cell with a touch panel. It is a hardware design mainly based on the transparent conductive layer of the touch panel, effectively increases the light transmission of the touch panel, performs the functions of power generation and storage even under low light indoor environment by the solar cell, and replaces the cell It achieves the elimination of unnecessary and manufacturing cost savings, and the solar touch remote control achieves slimming and lightening.

The cover includes at least a cover plate, a housing, a touch panel assembly member, a solar cell, and an electronic control module, the cover plate is a light transmitting substrate, and the case is installed corresponding to one end of the cover plate. A storage space is formed between the plate and the housing. The touch panel assembly member includes a transparent plastic substrate and at least one transparent circuit layer. The transparent circuit layer is disposed at the lower end of the transparent plastic substrate, and the touch panel assembly member is at the lower end portion of the lid plate. The solar cell is disposed at the other end of the touch panel assembly member opposite to the lid plate. The electronic control module is installed in the storage space, and the electronic control module includes a control assembly, a storage unit, a signal transmission unit, and a circuit board. Among them, the control assembly member, the storage unit and the signal transmission unit are respectively disposed on the circuit board and electrically connected to each other by the circuit board, and the circuit board electrically connects the touch panel assembly member and the solar cell. It is a main object of the present invention to provide a connected solar touch remote control device.

In one embodiment of the invention, the housing is a plastic substrate.

In one embodiment of the present invention, the solar cell comprises a first conductive layer, an electron transfer layer, an active layer, a hole transfer layer, and a second conductive layer.

In one embodiment of the present invention, the housing is in the form of one type of a light transmitting housing or a light shielding housing.

In one embodiment of the present invention, the housing comprises a partially translucent area.

In one embodiment of the present invention, the touch panel assembly includes a plurality of transparent circuit layers.

In one embodiment of the present invention, the transparent plastic substrate is further provided with at least one key area for electrically connecting the transparent circuit layer.

In one embodiment of the present invention, the control assembly includes a drive unit, a processing unit and a memory unit, the processing unit being in electrical communication with the drive unit and the memory unit, respectively.

In one embodiment of the present invention, the storage unit is a kind of device such as a lithium battery or a super capacitor.

Based on these, the solar touch remote control device of the present invention is a hardware design mainly based on the transparent conductive layer of the touch panel, effectively increasing the translucency of the touch panel, and by solar cells even in a low light indoor environment. Implement the functions of power generation and storage, and achieve manufacturing cost savings by making the thickness and weight of the solar touch remote control device reliable and making battery replacement permanent unnecessary.

In order to fully explain the technical features, contents, advantages, and effects of the present invention, the scheme of the present invention is presented, and an example is given as follows. Among them, the diagrams used are only for the purpose of illustrating the main purpose and for the purpose of aiding the explanation, and the embodiment and the arrangement after the implementation of the present invention are not limited. It does not limit the scope.

First, FIGS. 1 to 4 show a structural block diagram of an embodiment of the solar touch remote control device according to the present invention, an exploded instruction diagram of the entire device, an external appearance instruction diagram of the entire device, and a sectional instruction diagram of the entire device. . Among them, the solar touch remote control device according to the present invention includes at least a cover plate 10, a housing 20, a touch panel assembly member 30, a solar cell 40 and an electronic control module 50.

The cover plate 10 is a light transmitting substrate, and its constituent material is not limited to, for example, glass, polycarbonate (PC), poly methyl methacrylate (PMMA) or the like. The cover plate 10, which is a kind of material and is made of a light-transmitting material, transmits external light rays to the lower side of the cover plate 10.

The housing 20 made of a plastic material is installed corresponding to the lower end of the lid plate 10 to form a storage space (not shown) in which objects can be placed between the lid plate 10 and the lid plate 10 Do. Among them, the housing 20 is partially provided with a light transmitting area (not shown), and the solar cell 40 installed later extracts and uses the light of the outside world from the light transmitting area. In addition, the casing 20 may be in a completely non-transparent form, and the solar cell 40 emits light from the cover plate 10 having the upper light transmission.

The touch panel assembly member 30 is configured by combining a transparent plastic substrate 31 and a transparent circuit layer 32. The transparent circuit layer 32 is disposed at the lower end of the transparent plastic substrate 31, and the touch panel assembly member 30 is attached to the lower end of the cover plate 10, and the lower end of the cover plate 10 is mainly It is stuck on the surface of the transparent plastic substrate 31 of the member 30. The solar cell 40 is disposed at the other end of the touch panel assembly member 30 opposite to the lid plate 10. Among them, the touch panel assembly member 30 in a transparent form is for transmitting an external light beam and absorbing the solar cell 40 below. Among them, the solar cell 40 may stick the transparent optical rubber (not shown) and the touch panel assembly member 30. FIG. 5 shows a touch panel assembly member installation instruction diagram of a solar touch remote control device according to an embodiment of the present invention, wherein the touch panel assembly member 30 may be in the form of a smartphone or a touch remote controller or a tablet terminal. Among them, at least one electrical connection key area 311 of the transparent circuit layer 32 is displayed on the transparent plastic substrate 31 and used for user control. When the user presses the cover plate 10 to touch the key area 311, the transparent circuit layer 32 converts the key area 311 signal pressed by the user into a capacitor, impedance or pressure signal, and the electronic control Transmit to module 50. In addition, the transparent circuit layer 32 includes a plurality of transparent circuit layers 32, and the solar cell 40 is disposed at the lower end portion of the touch panel assembly member 30 so as to face the lid plate 10. As the whole structure, the light transmission of the touch panel is effectively increased, the effects of power generation and storage are performed by the solar cell 40 under the indoor environment such as low light, and the thickness and weight of the solar touch remote control device are reduced Achieve manufacturing cost savings through perpetual replacement.

Next, FIG. 6 shows a solar cell installation instruction diagram of a solar touch remote control device according to an embodiment of the present invention. Among them, the solar cell 40 is disposed on the other side of the touch panel assembly 30 opposite to the lid plate 10, and it is disposed on the first conductive layer 41, the electron transfer layer 42, the active layer 43, the hole transfer layer 44 and the second The first conductive layer 41, the hole transfer layer 44, the active layer 43, the electron transfer layer 42, and the second conductive layer 45 may be disposed in the order of the conductive layer 45 or the solar cell 40 may be disposed on the other side of the touch panel assembly member 30. The two conductive layers 45 are installed in order. Among them, the electron transfer layer 42 employs a material (for example, ZnO, TiO ₂ or the like) that aids the injection and conduction of electrons, and is formed by a coating and a dry or deposition plating method. The main active layer 43 employs a material that is newly bonded to electron holes, and is further formed into the electron transfer layer 42 by coating and dry methods. The hole transport layer 44 is formed of a material (eg, PEDOT, MnO ₃ , V ₂ O ₅ or the like) which aids hole injection and transmission, and is formed on the active layer 43 by coating and dry or vapor deposition plating. In addition, the thicknesses of the electron transfer layer 42, the main active layer 43 and the hole transfer layer 44 are smaller than 10 μm, and the first conductive layer 41 and the second conductive layer 45 are used to transmit or receive a signal, Further, the thickness and weight of the solar cell 40 can be reduced.

The electronic control module 50 is installed inside the storage space, and the electronic control module 50 is configured by combining a control assembly member 51, a storage unit 52, a signal transmission unit 53 and a circuit board 54. Among them, the control assembly member 51, the storage unit 52 and the signal transmission unit 53 are respectively installed on the circuit board 54 and electrically connected to each other by the circuit board 54. In the meantime, the control assembly member 51 is electrically connected to the touch panel assembly member 30 and the solar cell 40 by the circuit board 54, respectively. In addition, the control assembly member 51 further includes a drive unit 511, a processing unit 512, and a memory unit 513. The processing unit 512 is electrically connected to the drive unit 511 and the memory unit 513, respectively.

FIG. 7 is an operation instruction diagram of the entire solar touch remote control device according to an embodiment of the present invention. When the user presses the cover plate 10 and touches the key area 311 on the transparent plastic substrate 31, the transparent circuit layer 32 converts the signal of the key area 311 pressed by the user into a capacitor signal. And transmit to the electronic control module 50. The drive unit 511 drives the processing unit 512 to command conversion operations, and temporarily stores the conversion results in the memory unit 513. Finally, the result of conversion is emitted from the signal transmission unit 53 by a kind of communication protocol such as infrared, Bluetooth communication protocol or wireless communication, or the corresponding signal of the external world is received correspondingly. Besides, the storage unit 52 in the form of a lithium battery is used to store the electric energy generated from the solar cell 40, and is used in the solar touch remote control device of the present invention. However, it should be noted that the type of communication protocol used by the transmission signal of the signal transmission unit 53 or the type of storage of the storage unit 52 depends on the viewpoint of easy explanation. The type of progressive transmission of the signal transmission unit 53 and the type of storage of the storage unit 52 which are different from each other and known to those skilled in the art are not limited to the above examples, and the medium types of signal transmission and reception according to the present invention It is the preservation of the electrical energy generated by the solar cell 40 and does not affect the actual implementation of the present invention.

As described above, the solar touch remote control device of the present invention achieves the intended use effect according to the above-mentioned embodiment, and the present invention is not yet seen before the application, and completely meets the requirements and requirements of the utility model law. Apply for a utility model registration.

However, the illustration and description given above are the preferred embodiments of the present invention and do not limit the scope of the present invention. Accordingly, all changes and modifications of the same effect implemented by those skilled in the art based on the feature range of the present invention are included in the claims of the present invention.

DESCRIPTION OF SYMBOLS 10 cover plate 20 housing | casing 30 touch panel assembly member 31 transparent plastic substrate 311 key area 32 transparent circuit layer 40 solar cell 41 1st conductive layer 42 electron transfer layer 43 main active layer 44 hole transfer layer 45 2nd conductive layer 50 electronic control module Reference Signs List 51 control assembly member 511 drive unit 512 processing unit 513 memory unit 52 storage unit 53 signal transmission unit 54 circuit board

Claims (7)

In a solar touch remote control device, a cover plate which is at least a light transmitting substrate,
A housing which is installed corresponding to one end of the cover plate and which forms a storage space between the cover plate and the cover plate;
A touch panel assembly member including a transparent plastic substrate and at least one transparent circuit layer, the transparent circuit layer being disposed at the lower end of the transparent plastic substrate and attached to the lower end of the lid plate;
A solar cell disposed on the other end of the touch panel assembly member facing the lid plate;
It is installed in the storage space and includes a control assembly member, a storage unit, a signal transmission unit and a circuit board, wherein the control assembly member, the storage unit and the signal transmission unit are respectively installed on the circuit board, A solar touch remote control device electrically connected to each other by a circuit board, the circuit board including an electronic control module electrically connecting the touch panel assembly member and the solar cell.   The solar touch remote control device according to claim 1, wherein the housing is a plastic substrate.   The solar touch remote control device according to claim 1, wherein the solar cell is installed in the order of the first conductive layer, the electron transfer layer, the active layer, the hole transfer layer, and the second conductive layer.   The solar touch remote control device according to claim 1, wherein the housing is either a light transmitting housing or a light shielding housing.   The solar touch remote control device according to claim 1, wherein the transparent plastic substrate is further provided with at least one key area for electrically connecting the transparent circuit layer.   The solar touch remote control device according to claim 1, wherein the control unit further includes a drive unit, a processing unit and a memory unit, the processing unit electrically connecting with the drive unit and the memory unit, respectively.   The solar touch remote control device according to claim 1, wherein the storage unit is either a lithium battery or a super capacitor.

Images