CN219085354U - Notebook computer with photoelectric and thermoelectric conversion functions - Google Patents

Abstract

The utility model provides a notebook computer with photoelectric and thermoelectric conversion functions. According to the notebook computer, the integrated solar photoelectric plate and the thermoelectric conversion device are sleeved in the keyboard panel and charge the built-in battery, so that the extra load of the notebook computer is reduced, and the built-in battery of the computer is charged in various environments; the battery is not required to be charged rapidly, so that the service time of the battery is prolonged to a certain extent. Through arranging the integrated solar photoelectric plate and the thermoelectric conversion device in the middle of the notebook after being integrated and attached, the integrated solar photoelectric plate and the thermoelectric conversion device arranged in a computer can be guaranteed and protected to a certain extent, the structural integration level is high, in addition, the thickness of a notebook shell can be greatly reduced, and the light, thin and portable requirements of the civil notebook are met. The touch feeling caused by the electrostatic action of a part of computers can be reduced by applying the toughened glass panel with the heat conducting wires on the surface layer to the thermoelectric conversion device of the notebook.

Description

Notebook computer with photoelectric and thermoelectric conversion functions

Technical Field

The utility model relates to the field of computers, in particular to a notebook computer with photoelectric and thermoelectric conversion functions.

Background

Most of civil notebooks use external mobile power sources or relatively independent solar modules to charge the notebooks, so that the use is inconvenient in trip. The military computer is more to integrate the solar photovoltaic panel on the notebook upper cover, and simultaneously is also a military computer, and the first element is that the equipment needs to have higher strength and protective performance, but the thickness and the volume of the notebook upper cover shell can be increased in the design process, so that the requirements of light weight, thinness and portability of the civil notebook are difficult to meet.

In the prior art, a solar notebook computer is provided in the patent with the bulletin number of CN1249559C, a folding type detachable solar charging function notebook computer and a connecting mechanism thereof are provided in the patent with the bulletin number of CN104331119B, a solar notebook computer is provided in the patent with the bulletin number of CN201464966U, the notebook computers provided in the patents all have photoelectric conversion functions, and although the modularized solar cell panels are convenient to install and disassemble and have better portability, the integration level is not high enough, the connecting pieces are more and the notebook computers are easy to damage; and is bulky, heavy and unfavorable for carrying. In addition to the photoelectric conversion function, there are notebook computers with the thermoelectric conversion function in the prior art, for example, a heat dissipation and power generation device for notebook computers provided in the patent with the publication number CN208027291U and a power supply device for notebook computers provided in the patent with the publication number CN2690956Y, but these devices are all external devices, and have poor portability. Also, the photoelectric conversion function and the thermoelectric conversion function are often present separately, resulting in a relatively single charge mode.

In view of the above, it is necessary to design a notebook computer with photoelectric and thermoelectric conversion functions to solve the above problems.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model aims to provide a notebook computer with photoelectric and thermoelectric conversion functions, which is used for solving the defects that the prior art can only be limited to a mode of charging the notebook computer in a single environment, the size of the notebook computer is heavy, and the carrying is influenced.

In order to achieve the above object, the present utility model provides a notebook computer with photoelectric and thermoelectric conversion functions, including a keyboard panel and a built-in battery of the notebook computer; the keyboard panel of the notebook comprises an integrated solar photoelectric plate and a thermoelectric conversion device; the integrated solar photoelectric plate and the thermoelectric conversion device are respectively and electrically connected with the built-in battery and are used for charging the built-in battery.

Further, the thermoelectric conversion device is arranged above the integrated solar photoelectric plate and is attached to the upper surface of the integrated solar photoelectric plate.

Further, openings are reserved at positions, corresponding to key areas of the keyboard, of the integrated solar photoelectric plate and the thermoelectric conversion device.

Further, the integrated solar photovoltaic panel is connected in parallel with the thermoelectric conversion device.

Further, the integrated solar photovoltaic panel and the thermoelectric conversion device after being connected in parallel are connected in series with the built-in battery.

Further, the integrated solar photovoltaic panel is connected with a small integrated converter for converting light energy into electric energy.

Further, the thermoelectric conversion device comprises a heat energy collection panel and a heat energy converter connected with the heat energy collection panel; the heat energy converter is used for converting heat energy collected by the heat energy collection panel into electric energy.

Further, the heat energy collection panel comprises a plurality of toughened glass panels; and a heat conducting wire is additionally arranged on the surface layer of the toughened glass panel or in the middle of the two toughened glass panels.

Further, the thermal energy converter includes a temperature difference sensor.

Further, the toughened glass panel provided with the heat conducting wire is connected with the temperature difference sensor and used for converting the heat source collected on the surface of the toughened glass panel into electric energy through the thermoelectric effect.

The beneficial effects of the utility model are as follows:

1. according to the notebook computer with the photoelectric and thermoelectric conversion functions, the integrated solar photoelectric plate and the thermoelectric conversion device are matched and sleeved in the keyboard panel of the notebook computer to charge the built-in battery, and a double electric energy conversion mode is adopted, so that extra load of the notebook computer can be reduced, and the built-in battery of the computer can be charged in various environmental states; the battery is not charged rapidly, so that the effect of large voltage and large current is not needed, and the service time of the battery is prolonged to a certain extent. Moreover, the thickness and the volume of the notebook shell can be greatly reduced by matching and sleeving the integrated solar photoelectric plate and the thermoelectric conversion device in the keyboard panel of the notebook, and the requirements of light weight, thinness and portability of the civil notebook are met.

2. According to the notebook computer with the photoelectric and thermoelectric conversion functions, the integrated solar photoelectric plate and the thermoelectric conversion device are integrated and attached and then placed in the middle of the opening and closing of the notebook computer, so that the integrated solar photoelectric plate and the thermoelectric conversion device placed in the computer can be guaranteed and protected to a certain extent, and the structural integration level is high.

3. The notebook computer with the photoelectric and thermoelectric conversion functions provided by the utility model can reduce touch feeling caused by electrostatic action of a part of the notebook computer by applying the heat-conducting toughened glass to the thermoelectric conversion device of the notebook computer.

Drawings

Fig. 1 is a schematic perspective view of a notebook computer with photoelectric and thermoelectric conversion functions according to the present utility model.

Fig. 2 is a schematic diagram of an internal circuit of a notebook computer with photoelectric and thermoelectric conversion functions according to the present utility model.

Fig. 3 is a schematic diagram of an internal circuit of a notebook computer with photoelectric and thermoelectric conversion functions when a tempered glass panel with a heat conducting wire is used as a thermoelectric conversion device.

Reference numerals

1-a tempered glass panel with a heat conducting wire; 2-integrated solar photovoltaic panel.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the present utility model will be described in detail with reference to the accompanying drawings and specific embodiments.

It should be noted that, in order to avoid obscuring the present utility model due to unnecessary details, only structures and/or processing steps closely related to aspects of the present utility model are shown in the drawings, and other details not greatly related to the present utility model are omitted.

In addition, it should be further noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

As shown in fig. 1, the present utility model provides a notebook computer with photoelectric and thermoelectric conversion functions, comprising a keyboard panel and a built-in battery of the notebook computer; the keyboard panel of the notebook comprises an integrated solar photoelectric plate 2 and a thermoelectric conversion device; the integrated solar photovoltaic panel 2 and the thermoelectric conversion device are electrically connected with the built-in battery, respectively, for charging the built-in battery. The thermoelectric conversion device is arranged above the integrated solar photovoltaic panel 2 and is attached to the upper surface of the integrated solar photovoltaic panel 2.

By converting light and heat into electric energy, the computer can not generate larger heat, and thus, the extra load of the notebook is reduced. The dual electric energy conversion mode is adopted, so that the built-in battery of the computer can be charged in various environmental states; and because the battery is not charged rapidly, the effect of large voltage and large current is not needed, and the service time of the battery is prolonged to a certain extent. In addition, the integrated solar photoelectric plate and the thermoelectric conversion device are integrated and attached and then placed in the middle of the opening and closing of the notebook, so that the integrated solar photoelectric plate and the thermoelectric conversion device placed in the computer can be guaranteed and protected to a certain extent, and the structural integration level is high.

Specifically, in some embodiments of the present utility model, openings are reserved on the integrated solar photovoltaic panel 2 and the thermoelectric conversion device at positions corresponding to the key areas of the keyboard.

By the arrangement, the thickness and the volume of the notebook shell can be greatly reduced, and the light, thin and portable requirements of the civil notebook are met.

Specifically, the integrated solar photovoltaic panel 2 is connected in parallel with the thermoelectric conversion device; the integrated solar photovoltaic panel 2 and the thermoelectric conversion device which are connected in parallel are connected in series with the built-in battery.

In particular, as shown in fig. 2, in some embodiments of the present utility model, the integrated solar photovoltaic panel 2 is connected to a small integrated converter for converting light energy into electrical energy through a circuit flat cable.

Specifically, the thermoelectric conversion device comprises a heat energy collection panel and a heat energy converter connected with the heat energy collection panel through a circuit flat cable; the heat energy converter is used for converting heat energy collected by the heat energy collection panel into electric energy.

Specifically, in some embodiments of the present utility model, the thermal energy collecting panel includes several tempered glass panels, and a heat conducting wire is attached to a surface layer of the tempered glass panel or a middle of two of the tempered glass panels. The thermal energy converter includes a temperature differential sensor. As shown in fig. 3, the tempered glass panel provided with the heat conducting wire is connected with the temperature difference sensor through a circuit flat cable, and is used for converting the heat source collected on the surface of the tempered glass panel into electric energy through the thermoelectric effect.

By the arrangement, touch feeling caused by electrostatic action of a part of computers can be reduced.

The charging working principle of the notebook computer with photoelectric and thermoelectric conversion functions provided by the utility model is specifically described as follows:

the notebook computer with photoelectric and thermoelectric conversion functions provided by the utility model is characterized in that a toughened glass panel with a heat conducting wire on the surface layer is arranged above an integrated solar photoelectric plate 2, the upper surface of the integrated solar photoelectric plate is attached to the lower surface of the toughened glass panel with the heat conducting wire on the surface layer, and in addition, holes are reserved in positions, corresponding to key areas of a keyboard, on the integrated solar photoelectric plate 2 and the toughened glass panel with the heat conducting wire 1, and then the holes are matched and sleeved on the keyboard surface in the middle of the opening and closing of the notebook computer. The integrated solar photoelectric plate 2 and the toughened glass panel 1 with the heat conducting wires on the surface layer are connected in parallel and then connected in series with a built-in battery of the notebook; in addition, the integrated solar photovoltaic panel 2 is connected with a small integrated converter for converting light energy into electric energy, and the toughened glass panel 1 with the heat conducting wires on the surface layer is connected with a temperature difference sensor for converting a heat source collected on the surface of the toughened glass panel into electric energy through a thermoelectric effect. When the device works, the toughened glass panel 1 with the heat conducting wires on the surface layer is adopted to collect heat sources on the surface of toughened glass, and then the collected heat sources convert the thermoelectric effect into electric energy through the temperature difference sensor; or under the condition that a light source irradiates the keyboard surface, the small integrated converter converts light energy into electric energy, and thus, the light energy and the electric energy can be converted into certain electric energy to be stored in the notebook battery in two modes.

In summary, the present utility model provides a notebook computer with photoelectric and thermoelectric conversion functions, which includes a keyboard panel and a built-in battery of the notebook computer; the keyboard panel of the notebook comprises an integrated solar photoelectric plate and a thermoelectric conversion device; the integrated solar photoelectric plate and the thermoelectric conversion device are respectively connected with the built-in battery in series electrically and are used for charging the built-in battery. The adoption of the dual electric energy conversion mode can not only reduce the extra load of the notebook, but also charge the built-in battery of the computer in various environmental states; the battery is not charged rapidly, so that the effect of large voltage and large current is not needed, and the service time of the battery is prolonged to a certain extent. Moreover, the thickness and the volume of the notebook shell can be greatly reduced by matching and sleeving the integrated solar photoelectric plate and the thermoelectric conversion device in the keyboard panel of the notebook, and the requirements of light weight, thinness and portability of the civil notebook are met. Through arranging the integrated solar photoelectric plate and the thermoelectric conversion device in the middle of the opening and closing of the notebook after being integrated and attached, the integrated solar photoelectric plate and the thermoelectric conversion device arranged in a computer can be guaranteed and protected to a certain extent, and the structural integration level is high. In addition, the touch feeling caused by the electrostatic action of a part of the computer can be reduced by applying the toughened glass panel with the heat conducting wires on the surface layer to the thermoelectric conversion device of the notebook.

The above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present utility model.

Claims (10)

1. A notebook computer having photoelectric and thermoelectric conversion functions, comprising: a keyboard panel of the notebook and a built-in battery; the keyboard panel of the notebook comprises an integrated solar photoelectric plate and a thermoelectric conversion device; the integrated solar photoelectric plate and the thermoelectric conversion device are respectively and electrically connected with the built-in battery and are used for charging the built-in battery.

2. The notebook computer with photoelectric and thermoelectric conversion functions according to claim 1, wherein: the thermoelectric conversion device is arranged above the integrated solar photoelectric plate and is attached to the upper surface of the integrated solar photoelectric plate.

3. The notebook computer with photoelectric and thermoelectric conversion functions according to claim 1, wherein: and openings are reserved at positions, corresponding to key areas of the keyboard, of the integrated solar photoelectric plate and the thermoelectric conversion device.

4. A notebook computer having photoelectric and thermoelectric conversion functions according to claim 3, wherein: the integrated solar photovoltaic panel is connected in parallel with the thermoelectric conversion device.

5. The notebook computer with photoelectric and thermoelectric conversion functions according to claim 4, wherein: the integrated solar photoelectric plate and the thermoelectric conversion device which are connected in parallel are connected in series with the built-in battery.

6. The notebook computer with photoelectric and thermoelectric conversion functions according to claim 5, wherein: the integrated solar photovoltaic panel is connected with a small integrated converter for converting light energy into electric energy.

7. The notebook computer with photoelectric and thermoelectric conversion functions according to claim 5, wherein: the thermoelectric conversion device comprises a heat energy collection panel and a heat energy converter connected with the heat energy collection panel; the heat energy converter is used for converting heat energy collected by the heat energy collection panel into electric energy.

8. The notebook computer with photoelectric and thermoelectric conversion functions according to claim 7, wherein: the heat energy collection panel comprises a plurality of toughened glass panels; and a heat conducting wire is additionally arranged on the surface layer of the toughened glass panel or in the middle of the two toughened glass panels.

9. The notebook computer with photoelectric and thermoelectric conversion functions according to claim 8, wherein: the thermal energy converter includes a temperature differential sensor.

10. The notebook computer with photoelectric and thermoelectric conversion functions according to claim 9, wherein: the toughened glass panel provided with the heat conducting wire is connected with the temperature difference sensor and is used for converting a heat source collected on the surface of the toughened glass panel into electric energy through a thermoelectric effect.

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