JP3221737U - Remote control and solar cell power supply member thereof - Google Patents

Abstract

The present invention relates to a remote control for effectively providing the power required by an electronic component, and further electrically interlocking with a remote control, and continuously providing the power necessary for the remote control operation with a solar cell, and a solar cell power supply member thereof. I will provide a. At least a housing (11), a solar cell module (12), a circuit board (13) and a light transmitting cover plate (14) are included. One side of the housing has a storage tank 111 recessed, and the other side has a feeding connector 112 protruding. Among them, the feed connector installs the first electrode and the second electrode. The solar cell module is mounted in the storage tank, and the solar power generation module includes a solar panel 121, a solar cell 122 and a storage battery 123. Among them, the solar panel and the storage battery are respectively electrically connected to the solar cell. The circuit board is installed in the storage tank, and the circuit board electrically connects the storage battery and the first electrode to the second electrode. Furthermore, the light transmitting cover plate is installed in the storage tank, and the cover is provided above the solar panel. [Selected figure] Figure 1

Description

  The present invention relates to a remote control and its solar battery feed member, and more particularly to a solar battery feed member for absorbing sunlight and providing necessary electric power, and a remote control electrically connected by attaching and detaching the solar battery feed member.

Electrical products in daily life, such as audio-video equipment, televisions, electronic parts such as sound and air conditioning, are all controlled by remote control. Also, most of the conventional remote controls use dry batteries, alkaline batteries or mercury batteries as their power source, but these batteries must not only be replaced on a regular basis, but in addition to the inconvenience at the time of replacement Problems can occur and further battery disposal will pollute the environment.

In order to solve the above-mentioned problems, some manufacturers start with amorphous silicon solar cells and provide necessary power for remote control through indoor lighting or sunlight.

  However, the following disadvantages exist in the remote control using the amorphous silicon solar cell.

  First, the amorphous silicon solar cell has a low usage efficiency, a short life, and a gradual decline in power generation efficiency, so that it can not be used smoothly.

  Second, since the amorphous silicon solar cell has a low storage capacity, it continuously supplies light to the amorphous silicon solar cell to generate power. Otherwise, if the power is exhausted, the remote control loses memory, causing long-term remote control failure problems.

  Most solar panels of known amorphous silicon solar cells are made of glass material. If the remote control is accidentally dropped, the amorphous silicon solar cell may be broken.

  Therefore, by devising a new hard design, it is necessary to provide a healthy and continuous electricity supply solar cell to be used for remote control, which is continued by developers and related researchers of related industries such as solar cells. It is a task that we strive to overcome and solve.

  The present invention relates to a solar cell power supply member that absorbs the sun and provides necessary power, and a remote control that is mutually disconnected or coupled to the solar cell power supply member and is further electrically connected. The solar cell power supply member of the present invention is mainly characterized in that it mainly includes a housing, a solar cell module, a circuit board and a translucent cover plate.

  The remote control of the present invention and its solar cell power supply member have the following advantages over current products and technologies.

  First, the solar cell power supply member of the present invention is a hard design mainly converting the solar light absorbed by the solar cell into electricity, effectively providing the power required by at least one electronic component, and further mutually controlling with the remote control To achieve an uninterrupted solar cell capable of providing the power necessary for remote control operation.

  Second, the remote control main part of the present invention and the solar cell power supply member are electrically connected to each other by detaching or coupling. The shape design of the feed connector of the solar cell feed member mainly replaces the conventional remote control battery by being able to be installed in each type of each type of remote control of various feed connectors by imitating the shape of the battery of the conventional remote control. Improve the applicability and convenience of remote control and solar cell power supply members.

FIG. 2 is an exploded view of the first preferred embodiment of the solar cell power supply member of the present invention; BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a first preferred embodiment of a solar cell power supply member according to the present invention. FIG. 1 is a top view of the appearance of a first preferred embodiment of a solar cell power supply member according to the present invention; FIG. 2 is a cross-sectional view of the first preferred embodiment of the solar cell power supply member of the present invention; FIG. 3 is a structural operation block diagram of a first preferred embodiment of the solar cell power supply member of the present invention. FIG. 5 is a top view of the appearance of a second preferred embodiment of the solar cell power supply member of the present invention; FIG. 2 is a cross-sectional view of the first preferred embodiment of the remote control according to the present invention; FIG. 3 is an exploded view of the first preferred embodiment of the remote control according to the present invention; FIG. 1 is a perspective view of a first preferred embodiment of a remote control according to the present invention; FIG. 1 is a perspective view of a first preferred embodiment of a remote control according to the present invention; FIG. 5 is a cross-sectional view of a second preferred embodiment of the remote control according to the present invention; FIG. 7 is a cross-sectional view of a third preferred embodiment of the remote control according to the present invention; FIG. 1 is a structural operation instruction diagram of a first preferred embodiment of a remote control according to the present invention; FIG. 3 is a structural operation instruction diagram 2 of the first preferred embodiment of the remote control according to the present invention;

In view of these, the inventor has improved the disadvantages of the remote control and its solar cell power supply member based on rich expertise and many years of practical experience.

  It converts the absorbed sunlight or room lighting into electric power by installing the solar cell module and the circuit board, and stores it in the solar cell power supply member. Furthermore, it converts the solar energy absorbed by the solar cell into electric power. It is an object of the present invention to provide a solar cell power supply member capable of providing power necessary for at least one electronic component by means of a USB "Universal Serial Bus, Universal Serial Bus" well.

  Furthermore, it is another object of the present invention to provide a solar cell power supply member that is electrically connected to a remote control to ensure continuous power supply and to provide power necessary for remote control operation.

  In a remote control that is disconnected or coupled to a solar battery feed member and is further electrically connected, the shape design of the feed connector of the solar battery feed member mainly imitates the shape of the battery of the conventional remote control, thereby various feed connectors Another object of the present invention is to provide a remote control capable of replacing the battery of a conventional remote control by being mounted in various remote controls, and improving the applicability and convenience of the remote control and the solar cell power supply member. .

  In accordance with the purpose of the present invention, a solar cell power supply member is provided. It includes at least a housing, a solar cell module, a circuit board and a translucent cover plate. One side of the housing has a recess for receiving the storage tank, and the other side has a protruding feed connector. Among them, the feed connector installs the first electrode and the second electrode. The solar cell module is mounted in the storage tank, and the solar power generation module includes a solar panel, a solar cell and a storage battery. Among them, the solar panel and the storage battery are respectively electrically connected to the solar cell. The circuit board is installed in the storage tank, and the circuit board electrically connects the storage battery and the first electrode to the second electrode. Furthermore, the light transmitting cover plate is installed in the storage tank, and the cover is provided above the solar panel.

  In one embodiment of the present invention, a battery storage tank communicating with the storage tank is recessed therein, and the solar battery and the storage battery are installed in the battery storage tank, and the battery storage tank is further installed. A solar cell electrically connects the solar panels and assembles and installs in the storage tank.

  In one embodiment of the present invention, the shape of the feed connector is a rectangular, semi-cylindrical or cylindrical body, or the shape of the feed connector includes at least two mutually connected semi-cylindrical bodies.

  In one embodiment of the present invention, the housing further forms a charging plug-in tank, and the charging plug-in tank is electrically connected to the storage battery.

  In one embodiment of the present invention, the charging plug is a USB port.

  In one embodiment of the present invention, the other end of the storage tank of the housing further corresponds to the first coupling member.

  In one embodiment of the present invention, the first coupling members are installed in pairs in the form of a sliding rail, a sliding tank, a hook or a hook.

  In one embodiment of the present invention, the first coupling member is coupled to the remote control module.

  For the purpose of the present invention, the inventor provides a remote control. It includes at least the aforementioned solar cell power supply and remote control module. The remote control module includes a recess, and further includes a third electrode and a fourth electrode disposed in the recess. Among them, the power supply connector of the solar cell power supply member is disposed in the recess, the third electrode electrically connects the first electrode, and the fourth electrode electrically connects the second electrode.

  In one embodiment of the present invention, a first coupling member is further installed at another end of the storage tank of the housing. And, the first coupling member is paired and installed in one form of a sliding rail, a sliding tank, a hook or a hook.

  In one embodiment of the present invention, the remote control module installs a second coupling member.

  In one embodiment of the present invention, the second coupling member is engaged with the first coupling member and paired in one form of a sliding rail, a sliding tub, a hook or a latching tub, and the like.

  In one embodiment of the invention, the third electrode is a spring and the second electrode is also a spring.

The remote control of the present invention and its solar cell power supply member are mainly designed to convert the sunlight absorbed by the solar cell into electricity, effectively provide the power required by at least one electronic component, and further remote control and removal, Alternatively, they can be combined and electrically connected to ensure continuous power supply and provide the necessary power for remote control operation.
(Example 1 of solar cell power supply member)

  In order to clarify the technical features, contents and advantages of the present invention and the effects to be achieved thereof, the present invention will be described below with reference to the drawings and embodiments. The diagram used among them is for explaining the present invention, and it is not necessarily true proportion and arrangement after the implementation of the present invention. Accordingly, the diagrams and examples do not limit the scope of the present invention.

  First, FIGS. 1 to 4 show a structural exploded instruction view, a structural appearance perspective view, a structural appearance elevation view and a structural appearance sectional view of a preferred embodiment of the solar cell power feeding member of the present invention. Among them, the solar cell power supply member 1 of the present invention includes at least one housing 11, a solar cell module 12, a circuit board 13, and a translucent cover plate 14. including.

  Among them, the housing 11 has the storage tank 111 recessed at one side thereof, and the power supply connector convexly installed at the opposite side. Among them, the feeding connector 112 installs a first electrode 1121 and a second electrode 1122. The solar cell module 12 is mounted in the storage tank 111, and the solar cell module 12 includes a solar panel 121, a solar cell 122 and a storage battery 123. Among them, the solar panel 121 and the storage battery 123 respectively electrically connect the solar cell 122. The circuit board 13 is mounted in the storage tank 111, and the circuit board 13 electrically connects the storage battery 123, the first electrode 1121, and the second electrode 1122, respectively. Furthermore, the translucent cover plate is mounted in the storage tank 111 and is provided above the solar panel 121. The shape of the feed connector 112 is rectangular, semi-cylindrical or cylindrical, or the shape of the feed connector includes at least two interconnected semi-cylindrical bodies. The housing 11 further includes at least one charging plug-in tank 113, and the charging plug-in tank 113 is electrically connected to the storage battery 123, and is connected to the remote controller 2 for electrical connection. Then, by continuously supplying and supplying the power necessary for the operation of the remote control 2, it is advantageous that at least one electronic component 4 provides the necessary power through the USB reservoir.

  In the preferred embodiment of the present invention, a battery storage tank 1123 communicating with the storage tank 111 is formed in the power supply connector 112 in the meantime. The solar cell 122 and the storage battery 123 are installed in the battery storage tank 1123, and the solar cell 122 is electrically connected to the solar panel 121 to be assembled and installed in the storage tank 111. The circuit board 13 controls and stores the power of the storage battery 123 and outputs the power from the first electrode 1121 and the second electrode 1122. Besides, the charging plug-in tank 113 of the casing 11 is a USB tank hole, and the USB is made to correspond to the charging plug-in tank 113, and inserted into the charge plug-in tank 113 to display external electronic components (not shown). ) Charge or use power.

  In one embodiment of the present invention, when the solar panel 121 and the solar cell 122 absorb solar light of 0.2 μm to 0.4 μm wavelength, the solar light is converted directly into electric power, and is stored in the storage battery 123. save. In addition, in consideration of the photoelectric conversion efficiency of the solar panel 121, the solar panel 121 selects one of a solar cell module or a flexible solar cell module.

  In addition, the light transmission cover plate 14 may be installed in the storage tank 111 and provided above the solar panel 121, or may be installed above the storage tank 111 of the housing 11, The transparent cover plate 14 protects the solar panel 121 by cutting and aligning the solar panel 121 and the housing 11, and when dropped, the solar panel 121 is hit or destroyed by an external force. And further extend the service life of the solar cell power supply member 1 of the present invention.

Further shown in FIG. 5 is a structural operation block diagram of a preferred embodiment of the solar cell feed member of the present invention. Among them, when the solar panel 121 of the solar cell module 12 and the solar cell 122 absorb sunlight of 0.2 μm to 0.4 μm wavelength, the sunlight is directly converted to electric power and stored in the storage battery 123 Also, by controlling the circuit board 13, the electric power stored in the storage battery 123 is output from the first electrode 1121 and the second electrode 1122 to the required electronic component 4.
(Example 2 of a solar cell power supply member)

In addition, FIG. 6 is a top view of the appearance of a second preferred embodiment of the solar cell power supply member according to the present invention. Among them, at least one first coupling member 114 is additionally installed at the other end corresponding to the storage tank 111 of the housing 11, and the first coupling member 114 is a sliding rail, sliding tank, hook or hooking tank, etc. Set up a pair in one of the forms. In one embodiment of the present invention, the first coupling member 114 is in the form of a correspondingly installed engagement type, and engages an electronic component (not shown). Among them, the electronic component is not limited to the remote control module 21 as shown in FIG. The solar cell power supply member 1 of the present invention provides the power required by the remote control module 21.
(Example 1 of remote control)

  Besides, FIGS. 7 to 10 show a structural appearance sectional view, a structural appearance disassembly instruction view, a structural appearance assembly perspective view and a structural appearance elevation view of a first preferred embodiment of the present invention remote control. Among them, the remote control 2 of the present invention includes at least one solar cell power supply member 1 and one remote control module 21 as described above.

  The remote control module 21 includes a recess 211 and a third electrode 212 and a fourth electrode 213 installed in the recess 211, respectively. Among them, the feed connector 112 of the solar cell feed member 1 is assembled and installed in the recess 211, and the third electrode 212 electrically connects the first electrode 1121, and the fourth electrode 213 is the second electrode 1122. Are electrically connected, wherein the first electrode 1121 and the third electrode 212 are positive electrodes, and the second electrode 1122 and the fourth electrode 213 are negative electrodes. Among them, the third electrode 212 is a spring (not shown), and the third electrode 212 electrically connects the first electrode 1121 and firmly fixes the first electrode 1121 by the spring form of the third electrode 212. Not only to achieve good and stable electrical connection at the same time. In addition, the second electrode 1122 is a spring (not shown), and the fourth electrode 213 electrically connects the second electrode 1122. The spring configuration of the second electrode 1122 not only secures it to the fourth electrode 213 but also achieves good and stable electrical connection. In addition, the remote control module 21 further comprises at least one second coupling member 214, of which the second coupling member 214 is correspondingly engaged with the first coupling member 114 and is provided with a sliding rail, a sliding tank, a hook or a engaging tank. Set up a pair in one of the forms. In one embodiment of the present invention, the first coupling member 114 is in the form of a hook, and the second coupling member 214 is in the form of a hook that is engaged with the first coupling member 114. The remote control module 21 is engaged with the first coupling member 114 in the engagement form by the second coupling member 214 in the engagement tank form and is coupled to the solar battery power supply member 1.

  Further, the solar cell power supply member 1 is assembled and installed in the concave tank 211, and the first coupling member 114 and the second coupling member 214 are engaged with each other to form the first electrode 1121 at the third electrode 212. And the fourth electrode 213 electrically connects the second electrode 1122. When the solar panel 121 of the solar cell module 12 and the solar cell 122 absorb solar light of 0.2 μm to 0.4 μm wavelength, the solar light is converted directly into electric power and stored in the storage battery 123. Further, by the control of the circuit board 13, the power stored in the storage battery 123 is output from the first electrode 1121 and the second electrode 1122 to the third electrode 212 and the fourth electrode 213, respectively, and the remote control module 21 operates. Provide the necessary power sometimes.

Among them, as shown in FIGS. 9 and 10, the solar cell power supply member 1 is assembled and installed in the recessed tank 211 of the remote control module 21, and the housing 11 of the solar cell power supply member 1 and the remote control module 21 are By aligning and installing the outer surface, as shown in FIG. 10, the whole remote control 2 achieves good coupling and use. In addition, in another embodiment of the present invention, the solar cell power supply member 1 is assembled and installed in the recessed tank 211 of the remote control module 21, and the housing 11 of the solar cell power supply member 1 of the remote control module 21 is It projects from the outer surface, and as shown in FIG. 9, the entire remote control 2 achieves good support by the housing 11.
(Examples 2 and 3 of remote control)

In addition, FIGS. 11 and 12 show a structural appearance sectional view of a second preferred embodiment of the remote control according to the present invention and a structural appearance sectional view of the third embodiment. Among them, in the second embodiment of the present invention, the first coupling member 114 is in the form of a sliding tub. The second coupling member 214 is in the form of a sliding rail engaged with the first coupling member 114. The remote control module 21 is engaged with the first connection member 114 in the form of a slide tank by means of the second connection member 214 in the form of a slide rail to be connected to the solar cell power supply member 1. In the third embodiment of the present invention, the first coupling member 114 is in the form of a sliding rail, and the second coupling member 214 is in the form of a sliding tub that engages with the first coupling member 114. The remote control module 21 is engaged with the first connection member 114 in the form of a slide rail by means of the second connection member 214 in the form of a slide tank to be connected to the solar cell power supply member 1.
(Example 1 of structure operation instruction of remote control)

  Further, FIGS. 13 and 14 show a structure operation instruction diagram 1 and a structure operation instruction diagram 2 of the first preferred embodiment of the remote controller according to the present invention. Among them, the casing 11 of the solar battery power supply member 1 is provided with at least one charging insertion tank 113, and the charging insertion tank 113 is a USB tank hole. In the meantime, the charging plug-in tank 113 inserts the USB into the power outlet 3 to take in electric power, and charges the solar battery power supply member 1 or charges the USB tank hole to the electronic component 4. Among them, the electronic component 4 is, for example, a mobile phone or a tablet terminal, but is not limited thereto.

  As described above, according to the preferred embodiment of the remote control of the present invention and its solar cell power supply member, the intended use effect is achieved, and the present invention is prior to the patent application and conforms to the requirements and requirements of the patent law. Apply according to the regulations.

  However, the above-described scheme and description are merely preferred embodiments of the present invention, and do not limit the scope of the present invention. For those skilled in the art, any other changes or modifications based on the feature range of the present invention shall fall within the scope of the present invention.

DESCRIPTION OF SYMBOLS 1 solar cell electric power feeding member 11 case 111 storage tank 112 electric power feeding connector 1121 1st electrode 1122 2nd electrode 1123 battery storage tank 113 charge insertion tank 114 1st joint member 12 solar cell module 121 solar panel 122 solar cell 123 Storage battery 13 Circuit board 14 Translucent cover plate 2 Remote control 21 Remote control module 211 Concave tank 212 Third electrode 213 Fourth electrode 214 Second joint member 3 Power outlet 4 Electronic component

Claims (10)

In the solar cell power supply member, the storage tank is recessed at least on one side of the housing, and the power supply connector is convexly provided on the opposite side, and the power supply connector is a housing in which the first electrode and the second electrode are installed. ,
A solar cell module mounted in the storage tank and including a solar panel, a solar cell and a storage battery, wherein the solar panel and the storage battery respectively electrically connect the solar cell;
The storage battery is mounted in the storage tank, the storage battery and the circuit board electrically connecting the first electrode and the second electrode, and the light transmission cover disposed in the storage tank and covered over the solar panel A solar cell power supply member comprising a plate.   In the feed connector, a battery storage tank communicating with the storage tank is installed, the solar battery and the storage battery are installed in the battery storage tank, and the solar battery is used to The solar cell power supply member according to claim 1, wherein the solar cell power supply member is assembled and installed in the storage tank.   The sun according to claim 1, wherein the shape of the feeding connector is rectangular, semi-cylindrical or cylindrical, or the shape of the feeding connector includes at least two mutually connected semi-cylindrical bodies. Battery feed member.   The solar cell power supply member according to claim 3, wherein the housing further includes a charge insertion tank, and the charge insertion tank is electrically connected to the storage battery.   The other end of the storage tank of the housing is additionally provided with a first coupling member, wherein the first coupling member is installed as a pair of a sliding rail, a sliding tank, a hook or a hook. The solar cell power supply member according to claim 3, characterized in that At least a solar cell power supply member according to claim 1;
A recess and a third electrode and a fourth electrode respectively assembled and installed in the recess, wherein the feed connector of the solar battery feed member is assembled and installed in the recess, and the third electrode is the third A remote control module electrically connecting one electrode and the fourth electrode electrically connecting the second electrode.   The other end of the storage tank corresponding to the housing is additionally provided with a first coupling member, and the first coupling member is a pair in one form of a sliding rail, a sliding tank, a hook or a hook tank The remote control according to claim 6, wherein the remote control is installed.   The remote control according to claim 7, wherein the remote control module further comprises a second coupling member.   9. The remote control according to claim 8, wherein the second coupling member is engaged with the first coupling member and paired with one of a sliding rail, a sliding tub, a hook or a latching tub.   7. The remote control according to claim 6, wherein the second electrode is a spring, and the third electrode is a spring.

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