KR101037842B1 - vehicle instrument having solar battery module - Google Patents

Abstract

The present invention relates to an instrument panel of a vehicle having a solar cell module, and includes an instrument panel provided in a vehicle, and a solar cell module provided on an upper surface of the instrument panel to convert sunlight into solar energy from the sun. Characterized in that the configuration. The present invention configured as described above can reduce the electricity consumption by supplying power to the battery charging and the electric device of the vehicle through sunlight, there is an advantage that can minimize the risk of discharge.

Solar cell, instrument panel, battery, charge, controller

Description

Instrument panel of a vehicle having a solar cell module

The present invention relates to an instrument panel of a vehicle provided with a solar cell module, and more particularly to an instrument panel of a vehicle provided with a solar cell module for supplying power to a vehicle battery and an electric device.

Due to the development of the automobile industry, technologies related to automobiles for various convenience and stability purposes for drivers are being developed endlessly.

Various devices are installed in a vehicle. In general, electric devices, safety devices, and convenience devices such as headlights, air bags, audio devices, navigation, video devices, and heating / cooling devices are provided for drivers and passengers.

As such, the electricity required to operate the various devices of the vehicle is supplied through the battery of the vehicle.

1 is a configuration diagram for supplying electricity to an electric device of a vehicle, and various electric devices such as audio, cigar jacks, and navigation are connected to a power source applied from a battery 10 through a fuse box, and operate an electric device. To do this, the key must be in the ON or ACC position to supply power to the electrical device.

On the other hand, since the headlight or emergency light has an operating structure that can operate even when the key is not in the on state, the battery is often discharged when the driver gets off without stopping the operation.

The battery power used while the electric device is operating is generated by the generator as the driving power of the vehicle, and is charged. Therefore, when the battery is discharged, the battery is discharged when the battery is temporarily supplied with a temporary electricity supply. Is done.

As such, the vehicle battery may be discharged due to the use of various electric devices, and it may be troublesome to operate only when the key is placed in an on state.

On the other hand, various technologies have been developed to maintain a comfortable indoor temperature for drivers during summer or winter vehicles. In order to maintain optimal indoor temperature, the vehicle's cooling / heating system must be operated, which also uses battery electricity.

However, since such a cooling / heating device requires a high electric power consumption, the battery is easily discharged, and fuel consumption is greatly generated because the vehicle needs to be maintained in order to prevent discharge.

The present invention for solving the above problems by using the strong solar light irradiated by the windshield and the rear glass of the summer vehicle to generate electrical energy to effectively operate the vehicle's electrical device by using no vehicle battery or minimizing consumption The purpose is to make it.

In addition, the purpose is to provide a comfortable environment when the driver boards by adjusting the vehicle interior temperature by using the electric energy generated through sunlight.

The present invention for achieving the above object is characterized in that it comprises an instrument panel provided in the vehicle, and a solar cell module provided on the upper surface of the instrument panel is converted to electrical energy by receiving sunlight from the sun do.

In addition, it is characterized in that it further comprises a controller for receiving the electrical energy generated by the solar cell module is applied to the battery of the vehicle to charge, and applied to the electrical device of the vehicle.

In addition, the solar cell module is formed integrally with the instrument panel, or is formed directly on the instrument panel through a SPRAY printing, screen printing or painting process.

In addition, the solar cell module, after forming an auxiliary panel having a surface corresponding to the upper surface of the instrument panel on one side and to be fixed to the instrument panel using the auxiliary panel or to be fixed through a separate fixing member. It features.

In addition, the controller is provided separately to supply power to a fan for supplying external air into the vehicle through a vehicle air vent, and further includes a temperature sensor for measuring the vehicle interior temperature according to the temperature measurement of the temperature sensor And operating the fan.

In addition, the controller, the power supply to the cooling / heating device of the vehicle, further comprising a temperature sensor for measuring the vehicle indoor temperature to operate the cooling / heating device in accordance with the temperature measurement of the temperature sensor do.

In addition, the solar cell module is provided on the rear side of the vehicle, characterized in that it is further provided on the rear shelf irradiated with sunlight through the rear glass.

The present invention configured and operated as described above may convert solar energy into electrical energy using a solar cell module installed on an upper surface of an instrument panel of the vehicle to supply power to various electrical devices of the vehicle to prevent battery discharge. There is an advantage to that.

In addition, since the electrical energy can be produced through the solar cell module without supplying battery power, energy consumption can be reduced, and the engine can be operated to prevent the discharge, thereby reducing the consumption of vehicle fuel.

In addition, there is an advantage that the solar cell module can be integrally formed on the instrument panel to maintain the robustness.

Hereinafter, a preferred embodiment of an instrument panel of a vehicle having a solar cell module according to the present invention with reference to the accompanying drawings in detail as follows.

2 is a perspective view of an instrument panel of a vehicle having a solar cell module according to the present invention, Figure 3 is a cross-sectional view showing an embodiment for integrally forming a solar cell module according to the present invention in the instrument panel, Figures 4 and 5 Is a cross-sectional view showing an embodiment for fixing the solar cell module according to the present invention to the instrument panel, Figure 6 is a block diagram of an instrument panel of a vehicle having a solar cell module according to the present invention.

An instrument panel of a vehicle having a solar cell module according to the present invention includes a solar cell module 200 provided on an upper surface of an instrument panel 100 provided on a front surface of a vehicle and converting sunlight into electrical energy. It is characterized in that it comprises a controller 300 for supplying the electric energy generated by the solar cell module to the battery 400 of the vehicle and the electrical device 500 of the vehicle.

The instrument panel 100 is installed on the interior front of the vehicle, and covers the interior front as a vehicle component for embedding the instrument panel, the handle, the air conditioner, the glove box, the audio device, the navigation device, and the like of the vehicle. The upper side surface of the instrument panel 100 is directly exposed to sunlight through the windshield of the vehicle.

The top surface of the instrument panel has a location that is completely exposed to the outside through the windshield of the vehicle, so the sunlight is easily irradiated. Therefore, the upper surface of the instrument panel 100 is provided with a solar cell module 200 to be described later, which is the main technical gist of the present invention.

In addition, not only the instrument panel provided in the front, but also the rear panel (hereinafter referred to as 'rear shelf') provided in the rear of the vehicle is provided with a solar cell module. When the vehicle is parked or driven, it is possible to position both because it can receive strong sunlight from the sun through the windshield or the rear windshield from the sun.

The solar cell module 200 is a known solar battery module that is currently commercially available, and is a device that converts sunlight irradiated from the sun into electrical energy. The solar cell module 200 is provided on one side of an upper surface of the instrument panel 100 in which solar irradiation is the highest.

The solar cell module 200 preferably has a condition suitable for the battery capacity of the vehicle. This will be described later, because the electrical energy generated through the solar cell module is used for charging the battery of the vehicle and various electric devices of the vehicle.

In another important technical aspect of the present invention, in order to firmly install the solar cell module 200 on the instrument panel 100, the injection molding or solar cell module is integrally formed on the skin layer 110 constituting the instrument panel. Form directly on the Truman panel.

First, the method through injection molding, the general structure of the instrument panel is composed of a skin layer 110, a foam layer 120 and a core layer 130, to form a skin layer 110 corresponding to the outer surface When the solar cell module is integrally injection molded to be embedded in a certain depth.

Here, the instrument panel has a different structure depending on the price of the vehicle. In the case of the skin layer, the foam layer, and the core layer, the instrument panel is a structure of the instrument panel that is applied to a relatively expensive vehicle. It has a variety of structures in which only layers are applied.

Therefore, the molding method is changed according to the structure of the instrument panel. For example, when only the core layer is provided, an insert method for integrally molding the solar cell module after mounting the solar cell module may be proposed. The structure includes a skin layer. If it has a may be made in the titration process so that the solar cell module is embedded in the process of manufacturing the skin layer.

At this time, as shown in FIG. 3 (b), grooves having various shapes are formed in the solar cell module, and the injection molded material is firmly fixed by injecting the molded product during skin layer forming.

In addition, as a SPRAY printing or screen printing method, after forming the skin layer of the instrument panel, N-type silicon and P-type silicon constituting the solar cell are sequentially formed by screen printing or by a painting process. Finally, the transparent coating may be formed on the instrument panel itself, instead of attaching a separate solar cell module.

In this case, the anode / cathode electrode may be formed in the process of forming the skin layer according to a general solar cell module manufacturing process when forming N-type silicon and P-type silicon.

Therefore, the rigidity can be maintained by integrally injection molding or directly forming the solar cell module separately prepared in the instrument panel.

In addition, in order to easily install the solar cell module 200 to the instrument panel, it is installed using a separate auxiliary panel 140 or the fixing member 150. The auxiliary panel 140 is another main technical gist of the present invention, and is for easily fixing the general-purpose solar cell module 200 produced in a predetermined shape to variously formed instrument panels according to the structure of the vehicle.

One side of the auxiliary panel 140 is formed to correspond to one surface of the solar cell module, the other side is manufactured separately by injection molding correspondingly to be in contact with the shape of the instrument panel.

Therefore, the auxiliary panel is injection molded to correspond to the upper surface of the instrument panel having a different shape, curvature, and size for each vehicle, and fixed to the instrument panel, and then bonded and fixed to the solar cell module. In this case, the auxiliary panel is preferably manufactured so as to be fitted in correspondence with the shape of the instrument panel to be easily detachable during maintenance, but is not limited thereto and may be fixed using an adhesive.

In addition, the solar cell module may be fixed through a fixing member 150 such as a screw, and the solar panel module may be fixed by applying both the auxiliary panel 140 and the fixing member 150.

As described above, by fixing the solar cell module to the instrument panel, the solar panel module is frequently exposed to sunlight to solve the problem of easily falling off the panel and module due to deformation, deterioration, aging, etc. of the instrument panel.

The controller 300 receives power generated from the solar cell module to charge power with a battery of a vehicle or provide power to an electric device of the vehicle. That is, the controller 300 controls charging and discharging, and an appropriate specification should be applied according to the output power of the solar cell module.

Therefore, the battery 400 installed in the vehicle is connected to the controller 300 and is charged by receiving electricity generated from the solar cell module, and the various electric devices 500 of the vehicle are connected to the controller to receive power.

In this case, the electronic device and the controller are directly connected to each other to operate the vehicle regardless of key operation of the vehicle. This is to prevent battery consumption by operating the electric device through the electricity generated through the solar cell module even if the key is not on.

In addition, it may be implemented to be directly supplied to the capacity and output of some suitable power supply from the solar cell module without the controller.

On the other hand, the power output from the controller is operated by supplying power to the cooling / heating device 510 of the vehicle. When boarding a vehicle in summer or winter, the power generated by the solar cell module is used to operate air conditioning / heating devices such as air conditioners and seat heating to maintain proper room temperature before boarding the vehicle.

In addition, the power output from the controller is provided separately or installed to operate by supplying power to the fan (FAN) (520) for supplying the outside air through the air vent of the vehicle is installed in the existing.

When the boarding vehicle in the summer or winter, the fan 510 is operated by the power generated by the solar cell module to supply external air when the indoor / outdoor temperature difference is high.

At this time, the temperature sensor 530 is further provided to measure the inside and outside temperature of the vehicle to measure the indoor temperature and the outdoor temperature to automatically operate the cooling / heating device 510 or the fan 520. In particular, in the summer, strong sunlight is applied to increase the temperature inside the vehicle.However, a large number of electricity can be generated through the solar cell module. The temperature can be lowered by a certain temperature.

According to the indoor / outdoor temperature environment measured by the temperature sensor 530, the control part such as operation of the fan, operating time, operating range, operating temperature, etc. can be easily carried out by a relevant company. Shall be.

The present invention configured as described above has an advantage of reducing vehicle battery consumption that can obtain electrical energy through solar energy provided in the instrument panel.

While the invention has been described and illustrated in connection with a preferred embodiment for illustrating the principles of the invention, the invention is not limited to the construction and operation as shown and described.

Rather, those skilled in the art will appreciate that many modifications and variations of the present invention are possible without departing from the spirit and scope of the appended claims. And all such modifications and changes as fall within the scope of the present invention are therefore to be regarded as being within the scope of the present invention.

1 is a configuration diagram of a battery and an electric apparatus of a general vehicle;

2 is a perspective view of an instrument panel of a vehicle having a solar cell module according to the present invention;

3 is a cross-sectional view showing an embodiment for integrally forming a solar cell module according to the present invention on an instrument panel;

4 and 5 are cross-sectional views showing an embodiment for fixing the solar cell module according to the invention to the instrument panel,

Figure 6 is a block diagram of an instrument panel of a vehicle having a solar cell module according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: instrument panel 110: skin layer

120: foam layer 130: core layer

140: auxiliary panel 150: fixing member

200: solar module 300: controller

400: battery 500: electric device

510: cooling / heating unit 520: fan

530: temperature sensor

Claims (7)

And an instrument panel provided in a vehicle, and a solar cell module provided on an upper surface of the instrument panel to convert sunlight into solar energy from the sun. The instrument panel of the vehicle having a solar cell module, characterized in that it further comprises a controller for receiving the electrical energy generated by the solar cell module is applied to the battery of the vehicle to charge, and applied to the electrical device of the vehicle. delete The method of claim 1, wherein the solar cell module, The instrument panel of the vehicle having a solar cell module, characterized in that integrally molded to the instrument panel, or formed directly on the instrument panel through a SPRAY printing, screen printing or painting process. The method of claim 1, wherein the solar cell module, Forming an auxiliary panel having a surface corresponding to the upper surface of the instrument panel on one side and is fixed to the instrument panel using the auxiliary panel or is provided with a solar cell module characterized in that fixed through a separate fixing member Instrument panel of a vehicle. The method of claim 1, wherein the controller, It is provided separately and supplies power to the fan that supplies external air into the vehicle through the vehicle air vent, And a temperature sensor for measuring a vehicle indoor temperature to operate the fan according to the temperature measurement of the temperature sensor. The method of claim 1, wherein the controller, It supplies power to the vehicle's air conditioning and heating system, The instrument panel of the vehicle having a solar cell module, characterized in that further comprising a temperature sensor for measuring the vehicle indoor temperature to operate the cooling / heating device in accordance with the temperature measurement of the temperature sensor. The method of claim 1, wherein the solar cell module, The instrument panel of the vehicle having a solar cell module, characterized in that it is further provided on the rear side of the vehicle is provided on the rear shelf irradiated with sunlight through the rear glass.

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