CN205680380U - A kind of self power generation display floater based on thermo-electric generation and electronic equipment - Google Patents

Abstract

The utility model provides a kind of self power generation display floater based on thermo-electric generation and electronic equipment, include glassy layer, touch control layer and liquid crystal layer successively, it is provided with electric layer between glassy layer and touch control layer, electric layer includes the first electrode layer and the second electrode lay, one end of first electrode layer is connected with glassy layer, one end of the second electrode lay is connected with touch control layer, first electrode layer and the second electrode lay partly overlap, and first electrode layer be positioned above the second electrode lay, the layer electrode material of the first electrode layer and the second electrode is the transparent conductive material of thermal sensitivity.Utilize the self power generation display floater based on thermo-electric generation of the present utility model, the self-generating of display floater can be realized by the temperature difference, and the battery that available generating is to electronic equipment is charged, and effectively solves the continuation of the journey problem of battery.

Description

A kind of self power generation display floater based on thermo-electric generation and electronic equipment

Technical field

The utility model relates to technical field of display panel, specifically a kind of self power generation display floater based on thermo-electric generation And electronic equipment.

Background technology

With developing rapidly of the communication technology, the electronic equipment such as intelligent mobile terminal (such as smart mobile phone, panel computer) is Become one of indispensable instrument in people's life.Although these intelligent electronic devices above-mentioned can provide the user abundant Audiovisual entertainment function and gorgeous operation interface, but the problem of the battery durable scarce capacity of equipment faced by but having to.Mesh On front market, the battery for electronic equipment is essentially all employing lithium ion polymer battery, the battery material phase with early stage Ratio, this type of battery material, during technological improvement, has given full play to its operating efficiency, its electricity that can provide also by Gradually approach the capacity limit that lithium ion polymer can provide, therefore the improvement of lithium ion polymer battery is difficult to obtain Bigger breakthrough is to improve battery durable ability.Understand based on above-mentioned analysis, be necessary exploitation other technologies to solve battery in fact Continuation of the journey problem.

Utility model content

For the deficiencies in the prior art, the purpose of this utility model aims to provide a kind of self power generation based on thermo-electric generation and shows Show panel and electronic equipment, by the independent power generation of display floater, provide charging for battery.

For solving above-mentioned technical problem, the technical solution adopted in the utility model is:

First aspect, the utility model provides a kind of self power generation display floater based on thermo-electric generation, includes glass successively Glass layer, touch control layer and liquid crystal layer, be provided with electric layer between described glassy layer and described touch control layer, and described electric layer includes first Electrode layer and the second electrode lay, one end of described first electrode layer is connected with described glassy layer, the one of described the second electrode lay End is connected with described touch control layer, and described first electrode layer and described the second electrode lay partly overlap, and described first electrode layer position Above described the second electrode lay, the electrode material of described first electrode layer and described the second electrode lay is that the transparent of thermal sensitivity is led Electric material.

Further, described first electrode layer is connected in series to form by some first electrodes, if described the second electrode lay by Dry second electrode is connected in series to form；The left end of arbitrary described first electrode described second electrode adjacent with described first electrode Left end overlap, the right side of the right-hand member of arbitrary described first electrode another described second electrode adjacent with described first electrode End overlaps.

Further, described first electrode layer and described the second electrode lay are prepared by photoetching process.

Further, the transparent conductive material of described thermal sensitivity is the one in ITO material or transparent elargol.

Preferably, the electrode material of described first electrode is transparent elargol, and the electrode material of described second electrode is ITO material Material.

Wherein, ITO (Indium Tin Oxides) is indium tin oxide.

Second aspect, the utility model also provides a kind of electronic equipment, and described electronic equipment includes above-mentioned based on the temperature difference Generating self power generation display floater and battery, the described electric layer of described self power generation display floater is respectively equipped with the 3rd electrode and 4th electrode, described 3rd electrode is connected with described battery as positive pole, and described 4th electrode is as negative pole and described battery It is connected, make described self power generation display floater charge to described battery.

Compared with prior art, have the beneficial effect that:

Display floater of the present utility model and electronic equipment mainly utilize thermoelectric generation to realize self power generation.Thermo-electric generation Technology is the technology that a kind of temperature difference utilizing between high and low temperature thermal source plays generating effect.

(for example carry electronic equipment at pocket when display floater of the present utility model or electronic equipment contact with human body In or be held in the hand) when, the glassy layer temperature being positioned at panel surface can cause place because having raised closer to human body Between touch control layer below glassy layer and this glassy layer, temperature difference occurs.The first electrode layer, the second electrode due to electric layer Layer is connected with glassy layer, touch control layer respectively, and the electrode material in electric layer is the transparent conductive material of thermal sensitivity, these Material can convert heat into electric energy, and therefore electric layer can utilize the temperature difference to produce electric current, it is achieved the function of generating.Same with this When, after the 3rd electrode of electric layer, the 4th electrode are connected with battery, can realize utilizing the thermo-electric generation pair of display floater The purpose that battery is charged.

In addition, in the utility model, in order to improve generating efficiency, electric layer, can by circuit layout design cleverly Form the first electrode and second electrode of thousands of pairs, sent out by the temperature difference between substantial amounts of first electrode and the second electrode Electricity, can assemble more electric energy, provides sufficient charge capacity for battery.

Brief description

Fig. 1 is the cross-sectional view based on the self power generation display floater of thermo-electric generation for the embodiment.

Fig. 2 is the structural representation based on electric layer in the self power generation display floater of thermo-electric generation for the embodiment.

Fig. 3 is the structural representation based on the first electrode in the self power generation display floater of thermo-electric generation and the second electrode for the embodiment Figure.

Fig. 4 is the enlarged diagram of structure at A in Fig. 2.

Detailed description of the invention

In the utility model, term " on ", D score, "left", "right", "front", "rear", " top ", " end ", " interior ", " outward ", In " ", " vertically ", " level ", " laterally ", the orientation of the instruction such as " longitudinally " or position relationship for based on orientation shown in the drawings or Position relationship, is merely to illustrate the relative position relation between each parts or part, is not particularly limited each parts or group Become the concrete installation position of part.

Further, above-mentioned part term is in addition to can be used to indicate that orientation or position relationship, it is also possible to be used for representing it His implication, such as term " on " also be likely used in some cases representing certain relations of dependence or annexation.For ability For the those of ordinary skill of territory, concrete meaning in the utility model for these terms can be understood as the case may be.

Additionally, term " is installed ", " setting ", " being provided with ", should be interpreted broadly " connection ", " being connected ".For example, it may be it is solid Fixed connection, removably connects, or monolithic construction；Can be to be mechanically connected, or electrical connection；Can be to be joined directly together, or It is indirectly connected to by intermediary, or be connection internal between two devices, element or part.For this area For those of ordinary skill, concrete meaning in the utility model for the above-mentioned term can be understood as the case may be.

It additionally, term " first ", " second " etc. are mainly used for distinguishing different parts or part, is not intended to table The relative importance of the indicated parts of bright or hint or part and quantity.Unless otherwise stated, the implication of " multiple " is two Individual or two or more.

It additionally, the structure that institute's accompanying drawings is drawn in the utility model, ratio, size etc., is all only used for coordinating explanation Content disclosed in book, for skilled in the art realises that and reading, is not intended to limit the enforceable limit of the utility model Fixed condition, therefore not there is technical essential meaning, the adjustment of the modification of any structure, the change of proportionate relationship or size, Do not affect under the utility model effect that can be generated by and the purpose that can reach, all must fall disclosed in the utility model In the range of technology contents is covered.

Below in conjunction with embodiment and accompanying drawing, the technical solution of the utility model is further described.

The present embodiment provides a kind of self power generation display floater based on thermo-electric generation, as it is shown in figure 1, this self power generation display surface Plate from top to bottom includes glassy layer the 1st, electric layer the 2nd, touch control layer 3 and liquid crystal layer 4 successively.

Wherein, as in figure 2 it is shown, electric layer 2 includes using transparent elargol as the first electrode layer 21 of electrode material and to adopt With ITO material as the second electrode lay 22 of electrode material.First electrode layer 21 is connected in series to form by multiple first electrodes 211 (not shown), and the end of the first electrode layer 21 is connected with glassy layer 1；The second electrode lay 22 is gone here and there by multiple second electrodes 221 Connection connects formation (not shown), and the end of the second electrode lay 22 is connected with touch control layer 3.

In the present embodiment, the first electrode layer is overlapping with the second electrode lay part-structure, and the first electrode layer is positioned at second Above electrode layer.For the structure of electrode layer in clear explanation electric layer, Fig. 3 and Fig. 4 shows the first electrode layer and second The structure of the part repetitive of electrode layer.As shown in Figure 3, Figure 4, the two ends of the first electrode 211 are respectively positioned at the of left end One downwardly projecting portion 212 and the first portion 213 protruding upward being positioned at right-hand member, the two ends of the second electrode 221 are respectively positioned at left end The second portion protruding upward 222 and the second downwardly projecting portion 223 being positioned at right-hand member.The left end of any one the first electrode 211 Left end second portion protruding upward 213 of one downwardly projecting portion 212 and second electrode 221 being adjacent is overlapped, The right-hand member of right-hand member first portion protruding upward 213 of this first electrode 211 and another the second electrode 221 being adjacent simultaneously Second downwardly projecting portion 223 is overlapped.In the present embodiment, some above-mentioned partly overlapping first is prepared by photoetching process Electrode and the second electrode, and form the first electrode layer by the series connection of each first electrode, formed by the series connection of each second electrode The second electrode lay, thus realizes the efficiency power generation of electric layer.

In the utility model, owing to glassy layer is positioned at the top layer of self power generation display floater, therefore glassy layer can be user Often in contact with human body (for example hand-held or carry be placed on user's pocket) during use, made the temperature of glassy layer by contacting human body Raise, and be positioned at the touch control layer temperature below glassy layer and do not raise, thus cause occurring between glassy layer and touch control layer the temperature difference. Owing to the first electrode layer, the second electrode lay of electric layer are connected with glassy layer, touch control layer respectively, and the electrode material in electric layer Material is the transparent conductive material of thermal sensitivity, and these materials can convert heat into electric energy, and therefore electric layer can utilize temperature Difference produces electric current, it is achieved the function of generating.

The present embodiment also provides a kind of electronic equipment, and this electronic equipment includes battery and above-mentioned spontaneous based on thermo-electric generation Electricity display floater.Wherein, further respectively having the 3rd electrode and the 4th electrode in self power generation display floater, the 3rd electrode is as just Pole is connected with battery, and the 4th electrode is connected with battery as negative pole, makes self power generation display floater charge to battery.

It is understood that glassy layer in the present embodiment, touch control layer, liquid crystal layer all use commonly used in the prior art Structure, therefore repeats no more.

Claims (6)

1. the self power generation display floater based on thermo-electric generation, includes glassy layer, touch control layer and liquid crystal layer successively, and its feature exists In: being provided with electric layer between described glassy layer and described touch control layer, described electric layer includes the first electrode layer and the second electrode Layer, one end of described first electrode layer is connected with described glassy layer, and one end of described the second electrode lay is with described touch control layer even Connecing, described first electrode layer and described the second electrode lay partly overlap, and described first electrode layer is positioned at described the second electrode lay Top, the electrode material of described first electrode layer and described the second electrode lay is the transparent conductive material of thermal sensitivity.

2. the self power generation display floater based on thermo-electric generation according to claim 1, it is characterised in that: described first electrode Layer is connected in series to form by some first electrodes, and described the second electrode lay is connected in series to form by some second electrodes；Arbitrary institute The left end stating the left end of the first electrode described second electrode adjacent with described first electrode is overlapping, arbitrary described first electrode The right-hand member of right-hand member another described second electrode adjacent with described first electrode overlaps.

3. the self power generation display floater based on thermo-electric generation according to claim 1, it is characterised in that: described first electrode Layer and described the second electrode lay are prepared by photoetching process.

4. the self power generation display floater based on thermo-electric generation according to any one of claims 1 to 3, it is characterised in that: institute The transparent conductive material stating thermal sensitivity is the combination of one or more in ITO material or transparent elargol.

5. the self power generation display floater based on thermo-electric generation according to any one of claims 1 to 3, it is characterised in that: institute The electrode material stating the first electrode is transparent elargol, and the electrode material of described second electrode is ITO material.

6. an electronic equipment, described electronic equipment includes spontaneous based on thermo-electric generation described in any one of claim 1 to 5 Electricity display floater and battery, it is characterised in that: described based in the described electric layer of the self power generation display floater of thermo-electric generation point Not being provided with the 3rd electrode and the 4th electrode, described 3rd electrode is connected with described battery as positive pole, and described 4th electrode is made It is connected with described battery for negative pole, make described self power generation display floater charge to described battery.