CN106157581A - Solar energy type touch-control remote controller - Google Patents

Abstract

The present invention relates to a kind of solar energy type touch-control remote controller, including solar energy conversion module, touch-control sensing module, power management module and signal transacting transmitter module.The first electrode layer that solar energy conversion module includes setting gradually, photoelectric conversion layer, the second electrode lay；Touch-control sensing module includes the touch-control sensing layer for sensing touch operation, and touch-control sensing layer is formed at the top of solar energy conversion module, middle part or bottom；Power management module is used for collecting the electric energy that solar energy conversion module produces, and is touch-control sensing module and signal transacting transmitter module offer electric energy；Signal transacting transmitter module is used for launching signal to remote appliance or controller, to reach the purpose of remote control.The touch-control sensing of touch-control sensing module is placed on the top of solar energy conversion module, middle part or bottom, the beneficially reduction of processing procedure by the present invention, and can reduce the volume of remote controller on the premise of not reducing the area of solar energy conversion module；Directly utilizing luminous energy can be cost-effective with energy-conserving and environment-protective.

Description

Solar energy type touch-control remote controller

Technical field

The present invention relates to remote control equipment field, particularly to a kind of touch remote controller with solar cell.

Background technology

Existing household appliances remote controller is mainly employing contact button, when a key is pressed, bottom button Sheet metal up and down connect together, it is achieved the conducting of circuit, complete corresponding function.This contact There is frictional dissipation during button Long-Time Service, and water proof and dust proof cannot be accomplished in button gap, causes service life Limited.

On the other hand, existing household appliances remote controller is generally active, is i.e. at its signal by battery Reason and signal transacting transmitter module power, inevitably need regularly replace battery, cause use inconvenience and Cost raises, simultaneously it is known that the use of battery can bring the disagreeableness problem of environment.

Content of the invention

Based on this, it is necessary to provide a kind of solar energy type touch-control remote controller for drawbacks described above.

A kind of solar energy type touch-control remote controller, including solar energy conversion module, touch-control sensing module, power supply pipe Reason module and signal transacting transmitter module, wherein:

Described solar energy conversion module is for forming electric energy under illumination condition, and it includes first setting gradually Electrode layer, photoelectric conversion layer, the second electrode lay；

Described touch-control sensing module is used for forming the signal of telecommunication according to touch operation, and converts electrical signals to light letter Number or radio signal, it includes the touch-control sensing layer for sensing touch operation, described touch-control sensing layer shape Become in the top of solar energy conversion module, middle part or bottom；

Described power management module is used for collecting the electric energy that solar energy conversion module produces, and is touch-control sensing mould Block and signal transacting transmitter module provide electric energy；

Described signal transacting transmitter module for described optical signal or radio signal be sent to remote appliance or Controller, to reach the purpose of remote control.

Wherein in an embodiment, described solar energy conversion module also includes the first base material, described first electricity Pole layer, photoelectric conversion layer, the second electrode lay are sequentially formed at the bottom of described first base material and successively away from institute State the first base material.

Wherein in an embodiment, described touch-control sensing module also includes the second base material, described second base material Being arranged at the top of described first base material, described touch-control sensing layer is formed at bottom and first base of the second base material Between the top of material.

Wherein in an embodiment, described touch-control sensing layer shares described first electrode layer, or described tactile Control inductive layer shares described the second electrode lay.

Wherein in an embodiment, also including control circuit module, described control circuit module is used for detecting When having touch operation, this remote controller is switched to touch control detection pattern, and is used for detecting nothing in a period of time During touch operation, this remote controller is switched to photoelectric conversion pattern.

Wherein in an embodiment, described touch-control sensing layer is formed at the bottom of the second electrode lay.

Wherein in an embodiment, also include being formed at the protective layer bottom touch-control sensing layer.

Wherein in an embodiment, described touch-control sensing layer is individual layer or double-decker.

Wherein in an embodiment, described power management module and described signal transacting transmitter module are formed at The sidepiece of described solar energy conversion module and touch-control sensing module or bottom.

Wherein in an embodiment, described touch-control sensing module also includes flexible PCB and control chip, Described flexible PCB is for the incoming control chip of the signal of telecommunication being formed according to touch operation, described control chip For the described signal of telecommunication is converted into described optical signal or radio signal.

Above-mentioned solar energy type touch-control remote controller directly utilize luminous energy be the energy be touch-control sensing module and signal transacting Transmitter module is powered, energy-conserving and environment-protective, cost-effective, easy to use.And by the touch-control sense of touch-control sensing module Top, middle part or the bottom of solar energy conversion module, the beneficially reduction of processing procedure should be placed on, reduce system Cause this, and solar energy type touch-control remote control can be reduced on the premise of not reducing the area of solar energy conversion module The volume of device；Directly utilizing luminous energy is the energy, can reach energy-conserving and environment-protective, cost-effective, easy to use Purpose.

Brief description

Solar energy conversion module in the solar energy type touch-control remote controller that Fig. 1 provides for an embodiment and touch-control sense Answer the part-structure schematic diagram of module；

Solar energy conversion module in the solar energy type touch-control remote controller that Fig. 2 provides for another embodiment and touch-control The part-structure schematic diagram of induction module；

Solar energy conversion module in the solar energy type touch-control remote controller that Fig. 3 provides for another embodiment and touch-control The part-structure schematic diagram of induction module；

Solar energy conversion module in the solar energy type touch-control remote controller that Fig. 4 provides for another embodiment and touch-control The part-structure schematic diagram of induction module；

The surface structure schematic diagram of the solar energy type touch-control remote controller that Fig. 5 provides for an embodiment.

Detailed description of the invention

For the ease of understanding the present invention, below with reference to relevant drawings, the present invention is described more fully. Accompanying drawing gives the first-selected embodiment of the present invention.But, the present invention can come real in many different forms Existing, however it is not limited to embodiment described herein.On the contrary, provide the purpose of these embodiments to be to make to this Disclosure of the invention content is more thorough comprehensively.

Unless otherwise defined, all of technology used herein and scientific terminology and the technology belonging to the present invention The implication that the technical staff in field is generally understood that is identical.The term being used in the description herein is simply The purpose of specific embodiment is described, it is not intended that in limiting the present invention.

The solar energy type touch-control remote controller that the present invention provides mainly includes solar energy conversion module, touch-control sensing mould Block, power management module and signal transacting transmitter module.

As it is shown in figure 1, the solar energy conversion module that an embodiment provides includes the first electrode layer setting gradually 110th, photoelectric conversion layer and the second electrode lay 150.Wherein the first electrode layer the 110th, the second electrode lay 150 points Not negative electrode and the anode as solar energy conversion module, with the electric energy output producing photoelectric conversion layer.Photoelectricity The concrete structure of conversion coating is different according to the particular type difference of solar energy conversion module.In the present embodiment, Photoelectric conversion layer includes electron transfer layer the 120th, electron hole separating layer 130 and the hole transmission layer setting gradually 140.Photoelectric conversion layer utilizes photovoltaic effect, (includes sunshine and indoor photograph under conditions of having light source Bright) light receiving is produced electromotive force, i.e. photovoltage, thus complete to change into luminous energy the mistake of electric energy Journey.The first electrode layer the 110th, the second electrode lay 150 being formed at photoelectric conversion layer both sides then can be used for external Load, thus the electric energy output that photoelectric conversion layer can be produced.The particular type of solar energy conversion module can be The types such as homojunction, hetero-junctions, Schottky, the concrete material of photoelectric conversion layer can for dyestuff, quantum dot, Conjugated polymer, perovskite, triphenylamine, polythiophene, polyaniline etc., and by selecting different materials, Different appearance colors can be demonstrated.First electrode layer the 110th, the second electrode lay 150 can be indium tin oxide (ITO), the conductive materials such as fluorine doped tin oxide (FTO), gold, silver, platinum, copper, aluminium, carbon are made, for subtracting Few stop to light, can be by the first electrode layer the 110th, the second electrode lay 150 transparence, also can be by the first electricity Layer the 110th, the second electrode lay 150 granular in pole is to the not observable degree of such as naked eyes.

In the present embodiment, solar energy conversion module also includes the first base material 100, and the first base material 100 is as first Electrode layer the 110th, photoelectric conversion layer and the carrier of the second electrode lay 150, the first electrode layer the 110th, photoelectric conversion Layer and the second electrode lay 150 are sequentially formed at the bottom of the first base material 100.First base material 100 is as the sun The sensitive surface of energy battery, light passes through the first base material 100 and reaches the photoelectric conversion layer bottom the first base material 100. The material of the first base material 100 can be glass, PET etc..

Described touch-control sensing module is used for forming the signal of telecommunication according to touch operation, and converts electrical signals to light letter Number or radio signal.Described touch-control sensing module includes the touch-control sensing layer 160 for sensing touch operation. Touch-control sensing layer 160 is formed at the top of the first base material 100, namely described touch-control sensing layer 160 is formed at The top of solar energy conversion module.Touch-control sensing layer 160 includes the transparent induction electrode with specific pattern. Although touch-control sensing layer 160 illustrates with single layer structure in FIG, but it is understood that ground, touch-control sensing layer 160 can be double-decker, and existing touch-control solution all may utilize the present invention.Touch-control sensing layer 160 can be a part for self-capacitance or mutual capacitance device.Touch-control sensing layer 160 can comprise indium tin oxide, The transparent conductive patterns such as metal grill, can also be made up of the nonmetallic materials such as CNT, Graphene Conductive pattern, can also is that the conductive pattern being made up of the conducting polymer such as PEDOT, polyaniline.According to touch The difference of the concrete number of plies of control inductive layer 160, the material of selection and preparation method, can be touch-control sensing Layer 160 provides suitable carrier, the film material etc. that such as glass or PET material are formed.In the reality shown in Fig. 1 Executing in example, described touch-control sensing module also includes the second base material 170, and described touch-control sensing layer 160 is formed at Between the top of the bottom of two base materials 170 and the first base material 100.Second base material 170 both can be touch-control sense Answer the carrier of layer 160, again can be as the cover sheet of touch-control sensing layer 160.

More specifically, described touch-control sensing module also includes flexible PCB and control chip, described flexible electrical Road plate is for the incoming control chip of the signal of telecommunication being formed according to touch operation, and described control chip is for by described The signal of telecommunication is converted into described optical signal or radio signal, and described optical signal or radio signal are by described signal Process transmitter module and receive and be ultimately transmitted remote appliance or controller, to reach the purpose of remote control.

Described power management module, for collecting the electric energy that solar energy conversion module produces, is touch-control sensing module There is provided electric energy with signal transacting transmitter module.Described power management module comprises collection of energy and electric energy management core Piece and the electric storage device such as battery or ultracapacitor, electric storage device is for storing what solar cell produced Electric energy, and the Land use systems of the electric energy that collection of energy and electric energy management chip can be comprised for this electric storage device It is managed and configure.

Described signal transacting transmitter module for described optical signal or radio signal be sent to remote appliance or Controller, to reach the purpose of remote control.Described signal transacting transmitter module can be infrared grade optical signal launch Module, it is possible to for radio signal transmitting modules such as 2.4G, 443MHz, receiving terminal can be direct simultaneously Home appliance or indirectly transfer control system.

Described power management module and described signal transacting transmitter module be formed at described solar energy conversion module and The sidepiece of touch-control sensing module or bottom.As shown in Figure 5, the solar energy type touch-control remote controller of an embodiment Solar energy conversion module 10 and touch-control sensing module 20 are arranged on the top of solar energy type touch-control remote controller, Power management module 30 and signal transacting transmitter module 40 are arranged on the bottom of solar energy type touch-control remote controller.

Power management module 30 and signal transacting transmitter module 40 are arranged on solar energy conversion module and touch-control The a certain sidepiece of the surrounding of induction module or different sidepiece, or it is arranged on solar energy conversion module and touch-control The bottom of induction module, can avoid occupying the area of solar energy conversion module so that solar energy conversion module has Having bigger area, the stacking of solar energy conversion module and touch-control sensing module simultaneously is arranged, and also can reach State effect, also can reduce the volume of whole remote controller simultaneously.

As in figure 2 it is shown, the solar energy conversion module that another embodiment provides also includes the first base setting gradually Material the 200th, the first electrode layer the 210th, electron transfer layer the 220th, electron hole separating layer the 230th, hole transmission layer 240 and the second electrode lay 250.Unlike the embodiment shown in Fig. 1, in embodiment illustrated in fig. 2 The touch-control sensing layer 260 that touch-control sensing module is comprised shares described first electrode layer 210, namely described touch-control Inductive layer 260 is formed at the middle part of solar energy conversion module.

Due to first electrode layer 210 common electrode of this touch-control sensing layer 260 and solar energy conversion module, In this embodiment, this remote controller may also include control circuit module, and described control circuit module has for detection During touch operation, this remote controller is switched to touch control detection pattern, and is used for detecting oncontacting in a period of time When touching operation, this remote controller is switched to photoelectric conversion pattern.The length of detection time can be according to concrete application ring Border is arranged.Under touch control detection pattern, described common electrode serve as touch-control module touch-control sensing layer 210 and Cut off the signal transmission of its opto-electronic conversion, it is to avoid the interference to touch-control module for the photoelectric conversion signal.Turn at photoelectricity Change pattern, described common electrode is served as the first electrode layer 210 of solar energy conversion module, is i.e. connected its photoelectricity and turn The signal transmission changed.

As it is shown on figure 3, the solar energy conversion module that another embodiment provides also includes the first base setting gradually Material the 300th, the first electrode layer the 310th, electron transfer layer the 320th, electron hole separating layer the 330th, hole transmission layer 340 and the second electrode lay 350.Unlike the embodiment shown in Fig. 2, in embodiment illustrated in fig. 3 The touch-control sensing layer 360 that touch-control sensing module is comprised shares described the second electrode lay 350, namely described touch-control Inductive layer 360 is formed at the middle part of solar energy conversion module.

It is to be appreciated that the first base material 300 in this embodiment can be as the cover plate shielding.

It is to be appreciated that in order to protect touch-control sensing layer the 360th, the second electrode lay 350, also can be at touch-control sensing Protective layer is formed on the bottom of layer 360.

As shown in Figure 4, the solar energy conversion module that another embodiment provides also includes the first base setting gradually Material the 400th, the first electrode layer the 410th, electron transfer layer the 420th, electron hole separating layer the 430th, hole transmission layer 440 and the second electrode lay 450.Unlike the embodiment shown in Fig. 1, in embodiment illustrated in fig. 4 The touch-control sensing layer 460 that touch-control sensing module is comprised is formed at the bottom of the second electrode lay 450, Ye Jisuo State touch-control sensing layer 460 and be formed at the bottom of solar energy conversion module.Although the touch-control sensing shown in Fig. 4 Layer 460 is formed directly into the bottom of the second electrode lay 450, it is possible to understand that can form suitable carrier and be used for holding Carry described touch-control sensing layer 460, then carrier is arranged on the bottom of the second electrode lay 450, namely touch-control sensing Can have suitable intermediate layer between layer 460 and the second electrode lay 450.

Further, protective layer 470 can be formed in the bottom of touch-control sensing layer 460.

The solar energy type touch-control remote controller that the present invention provides has a following beneficial effect:

1) directly utilizing luminous energy is that the energy is capacitive touch-control sensing module and signal transacting transmitter module supplies Electricity, energy-conserving and environment-protective, cost-effective, easy to use.

2) different outward appearance face can be obtained by changing the material of the photoelectric conversion layer in solar energy conversion module Look, makes the outward appearance of remote controller select more variation.

3) touch-control sensing of touch-control sensing module is placed on the top of solar energy conversion module, middle part or bottom, Be conducive to the reduction of processing procedure, reduce manufacturing cost.

4) capacitance touching control mode has effect of dustproof and waterproof compared to conventional contact button, easily facilitates Cleaning is also more attractive in appearance.

Above example only have expressed the several embodiments of the present invention, and it describes more concrete and detailed, but Therefore the restriction to the scope of the claims of the present invention can not be interpreted as.It should be pointed out that, for this area For those of ordinary skill, without departing from the inventive concept of the premise, can also make and some deform and change Entering, these broadly fall into protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be with appended power Profit requires to be as the criterion.

Claims (10)

1. a solar energy type touch-control remote controller, including solar energy conversion module, touch-control sensing module, power supply Management module and signal transacting transmitter module, wherein:

Described solar energy conversion module is for forming electric energy under illumination condition, and it includes first setting gradually Electrode layer, photoelectric conversion layer, the second electrode lay；

Described touch-control sensing module is used for forming the signal of telecommunication according to touch operation, and converts electrical signals to light letter Number or radio signal, it includes the touch-control sensing layer for sensing touch operation, described touch-control sensing layer shape Become in the top of solar energy conversion module, middle part or bottom；

Described power management module is used for collecting the electric energy that solar energy conversion module produces, and is touch-control sensing mould Block and signal transacting transmitter module provide electric energy；

Described signal transacting transmitter module for described optical signal or radio signal be sent to remote appliance or Controller, to reach the purpose of remote control.

2. solar energy type touch-control remote controller according to claim 1, it is characterised in that described solar energy Modular converter also includes the first base material, described first electrode layer, photoelectric conversion layer, the second electrode lay shape successively Become in the bottom of described first base material and successively away from described first base material.

3. solar energy type touch-control remote controller according to claim 2, it is characterised in that described touch-control sense Answering module also to include the second base material, described second base material is arranged at the top of described first base material, described touch-control Inductive layer is formed between the bottom of the second base material and the top of the first base material.

4. solar energy type touch-control remote controller according to claim 2, it is characterised in that described touch-control sense Answer layer to share described first electrode layer, or described touch-control sensing layer shares described the second electrode lay.

5. solar energy type touch-control remote controller according to claim 4, it is characterised in that also include control This remote controller, when described control circuit module has touch operation for detection, is switched to touch-control by circuit module Detection pattern, and when being used for detecting no touch operation in a period of time, this remote controller is switched to photoelectricity and turns Change pattern.

6. solar energy type touch-control remote controller according to claim 2, it is characterised in that described touch-control sense Layer is answered to be formed at the bottom of the second electrode lay.

7. solar energy type touch-control remote controller according to claim 6, it is characterised in that also include being formed Protective layer bottom touch-control sensing layer.

8. the solar energy type touch-control remote controller according to any one in claim 1-7 item, its feature exists In described touch-control sensing layer is individual layer or double-decker.

9. the solar energy type touch-control remote controller according to any one in claim 1-7 item, its feature exists In, described power management module and described signal transacting transmitter module be formed at described solar energy conversion module and The sidepiece of touch-control sensing module or bottom.

10. the solar energy type touch-control remote controller according to any one in claim 1-7 item, its feature exists In described touch-control sensing module also includes flexible PCB and control chip, and described flexible PCB is used for root The incoming control chip of the signal of telecommunication being formed according to touch operation, described control chip is for converting the described signal of telecommunication For described optical signal or radio signal.