CN104092424A - Disc type energy storage and transmission device - Google Patents

Abstract

The invention discloses a disc type energy storage and transmission device. The disc type energy storage and transmission device comprises a disc type casing body, at least one energy collection device which is arranged on the surface of the disc type casing body, at least one power storage device which is used for storing energy produced by the energy collection device, at least one transmission device which is used for transmitting the energy or a light source, at least one light collection unit which is used for collecting the sunlight reflected by the energy collection device, at least one light transmission device which is used for transmitting the light source collected by the light collection unit. According to the invention, the existing satellite receiver is used and improved, so that the existing satellite receiver can absorb solar energy or collect the sunlight, and changes into a light collector; and the existing satellite receiver has the functions of energy storage and light collecting, and does not use power.

Description

Dish-type energy storage conduction device

Technical field

The present invention relates to a kind of dish-type device, relate in particular to a kind of dish-type energy storage conduction device, it had both had energy storage and light harvesting function, was again the satellite receiver of exempting from electricity consumption.

Background technology

Satellite receiver is in the past generally on dish-type device, to add an antenna, electromagnetic wave is via getting to after dish-type device, utilize principle of reflection reflection electromagnetic wave to receiver, again signal is conducted to decoder and do electromagnetic signal decoding, to understand signal, so this technology has spread for many years, and the satellite receiver of this type of collar plate shape also only has reception or transmitting signal function.

It is that M332952, name are called the patent of " improvement of antenna assembly " that Taiwan Wise property office discloses the patent No., and described antenna assembly comprises a solar battery apparatus; One rechargeable battery; One active antenna, a low noise amplifier module, low noise amplifier, can make this system not need Extra Supply power supply to active antenna, and then can reach and extend this system object person of service time.This patent is combined antenna with solar battery pas, but only the electric power of solar energy conversion is used to provide to the filtering of whole antenna, the electric power that elimination noise etc. consumes, and does not have other functions, for example light harvesting.

It is that M252146, name are called the patent of " disk antenna driver " that Taiwan Wise property office also discloses the patent No., and described disk antenna driver comprises a reception disc; One solar energy collecting device; One drive unit, is arranged at side under reception disc, in order to drive reception disc to rotate; One solar energy collecting device is arranged at outside reception disc and around locates, and converts the solar energy being absorbed to object that electric energy is saved the energy and met environmental protection concept to provide the power resources of drive unit to reach.This patent is that solar energy and antenna driving device are done to combination, and electric power stored solar energy is used for rotating satellite disc position, and function not much else.

The present invention utilizes existing satellite receiver to be improved again, allow its can absorb solar energy or collect sunlight become optical collector, allow it become and both there is energy storage and light harvesting function, be again the satellite receiver of exempting from electricity consumption.

Summary of the invention

Technical problem to be solved by this invention is, a kind of dish-type energy storage conduction device is provided, and it had both had energy storage and light harvesting function, was again the satellite receiver of exempting from electricity consumption.

In order to solve the problems of the technologies described above, the invention provides a kind of dish-type energy storage conduction device, comprising:

One dish-type housing;

At least one energy collecting device, is located at the surface of described dish-type housing;

At least one electrical storage device, for storing the energy producing via described energy collecting device;

At least one conduction device, for conducting energy or conduction light source;

At least one light collecting unit, the sunlight reflecting for collecting described energy collecting device;

At least one biography electro-optical device, for conducting the collected light source of described light collecting unit.

As the improvement of such scheme, described energy collecting device is to transfer sunlight the photoelectric conversion device of electric energy to and/or the thermoelectric conversion device that is electric energy by thermal power transfer.

As the improvement of such scheme, described dish-type housing also comprises reflector, reflexes to the utilance of described light collecting unit and increases the acceptance rate of reflection of electromagnetic wave to antenna for increasing sunlight.

As the improvement of such scheme, described reflector is for utilizing highly reflective material to apply or being plated in the layer forming on described energy collecting device; Described highly reflective material comprises aluminium, silver, gold, chromium.

As the improvement of such scheme, described conduction device comprises conductive unit, for transmitting the stored energy of described electrical storage device, supply load electric power.

As the improvement of such scheme, described load is satellite receiver, illuminator and/or sun-following device.

As the improvement of such scheme, described conduction device comprises light element, for transmitting the light being reflected by dish-type housing.

As the improvement of such scheme, described biography electro-optical device is connected with described light collecting unit, for conducting the collected light of described light collecting unit to described conduction device.

As the improvement of such scheme, described light element is optical fiber and/or light pipe;

Described biography electro-optical device is optical fiber and/or light pipe.

As the improvement of such scheme, described light collecting unit also comprises described sun-following device, to increase the collection efficiency of sunlight.

Implement the present invention, there is following beneficial effect:

The present invention is a kind of disk-like means with energy storage and light harvesting function, it utilizes existing dish-type satellite antenna to be improved, the inside of dish-type housing is provided with to energy collecting device, described energy collecting device is to transfer sunlight to the photoelectric conversion device (as solar panels) of electric energy and/or the thermoelectric conversion device (as diaphragm type thermoelectric converting component) that is electric energy by thermal power transfer, thereby solar energy and/or thermal power transfer are become to electric energy, the conductive unit of recycling in conduction device by the conduct electrical energy after conversion to electrical storage device store electrical energy, to provide electric energy to give whole system, for example satellite receiver, illuminator and/or sun-following device etc.Meanwhile, disk-like means can also utilize the light element in conduction device directly to pass light, sunlight is imported indoor.

In addition, in order to utilize at dish-type housing because of the lost sunlight of reflection, therefore the present invention is provided with light collecting unit, then utilizes the curvature of dish-type housing sunlight can be reflexed on light collecting unit accurately.Now, the present invention not only can absorb solar panels by sunlight some and do opto-electronic conversion, can also be by another portions of light line reflection to light collecting unit, light collecting unit is by the light that reflecting material reflected up, carry out again secondary reflection, light source is led in biography electro-optical device and passed light, and biography electro-optical device reaches light source light element in described conduction device again and passes light, sunlight is imported indoor.And, in order to utilize better at dish-type housing because of the lost sunlight of reflection, can on energy collecting device, be coated with or plate high reflecting material, form reflector, effectively improve the utilance of sunlight.

In a word, the present invention both can collect solar energy or heat energy stores generating, provide electric power to give whole system, become the satellite receiver of exempting from electricity consumption, also can utilize principle of reflection that sunlight is reflected into conduction device and pass light, increase its surcharge, allow it become the satellite receiver both with energy storage and light harvesting function.

Brief description of the drawings

Fig. 1 is the stereogram of the first embodiment of a kind of dish-type energy storage of the present invention conduction device;

Fig. 2 is the sectional view of the dish-type housing of the first embodiment of a kind of dish-type energy storage of the present invention conduction device;

Fig. 3 is the schematic diagram of the conduction device of the first embodiment of a kind of dish-type energy storage of the present invention conduction device;

Fig. 4 is the stereogram of the second embodiment of a kind of dish-type energy storage of the present invention conduction device;

Fig. 5 is the sectional view of the dish-type housing of the second embodiment of a kind of dish-type energy storage of the present invention conduction device;

Fig. 6 is the stereogram of the 3rd embodiment of a kind of dish-type energy storage of the present invention conduction device;

Fig. 7 is the sectional view of the dish-type housing of the 3rd embodiment of a kind of dish-type energy storage of the present invention conduction device.

Embodiment

For making the object, technical solutions and advantages of the present invention clearer, below in conjunction with accompanying drawing, the present invention is described in further detail.

As shown in Figure 1, Figure 2 and Figure 3, the invention provides a kind of the first embodiment of dish-type energy storage conduction device, comprising: a dish-type housing 1; At least one energy collecting device 2, is located at the surface of described dish-type housing 1; At least one electrical storage device 3, for storing the energy producing via described energy collecting device 2; At least one conduction device 4, for conducting energy or conduction light source; At least one light collecting unit 5, the sunlight reflecting for collecting described energy collecting device 2; At least one biography electro-optical device 6, for conducting the collected light source of described light collecting unit 5.

Described energy collecting device 2 can be thermoelectric conversion device or photoelectric conversion device and the thermoelectric conversion device that transfers sunlight the photoelectric conversion device of electric energy to, is electric energy by thermal power transfer, but is not limited to this.

Preferably, described energy collecting device 2 can be for transferring sunlight to the photoelectric conversion device of electric energy.

It should be noted that, photoelectric conversion device preferentially adopts solar panels, and described solar panels include but not limited to silicon-based semiconductor battery, CdTe hull cell, CIGS hull cell, dye-sensitized film battery, organic material battery etc.And thermoelectric conversion device preferentially adopts diaphragm type thermoelectric converting component, described diaphragm type thermoelectric converting component mainly adopts thermo-electric converting material to make.Wherein, the composite oxides that thermo-electric converting material comprises Zn, Ga and In, utilize the temperature difference to cause carrier moving and are electric energy by thermal power transfer.

Referring to Fig. 3, described conduction device 4 comprises conductive unit 41, for transmitting the stored energy of described electrical storage device, supply load electric power; And light element 42, for transmitting the light being reflected by dish-type housing.Wherein, described conductive unit 41 is made for conductive material, is preferably wire, but is not limited to this.Described light element 42 is made up of material that can leaded light, is preferably optical fiber and/or light pipe, but is not limited to this.Described load is whole system, comprises satellite receiver, illuminator and/or sun-following device.

Described light collecting unit 5 is collected the sunlight being reflected on energy collecting device 2.Described light collecting unit 5 is preferably made as dish-type device, but is not limited to this.Better, the opening direction of described light collecting unit 5 is contrary with the opening direction of described dish-type housing 1.

Described biography electro-optical device 6 is connected with described light collecting unit 5, for conducting the collected light of described light collecting unit 5 to described conduction device 4.Described biography electro-optical device 6 is made up of material that can leaded light, is preferably optical fiber and/or light pipe, but is not limited to this.

The present invention is a kind of disk-like means with energy storage and light harvesting function, it utilizes existing dish-type satellite antenna to be improved, the inside of dish-type housing 1 is provided with to energy collecting device 2, described energy collecting device 2 is for to transfer sunlight to the photoelectric conversion device (as solar panels) of electric energy and/or the thermoelectric conversion device (as diaphragm type thermoelectric converting component) that is electric energy by thermal power transfer, thereby solar energy and/or thermal power transfer are become to electric energy, the conductive unit 41 of recycling in conduction device 4 by the conduct electrical energy after conversion to electrical storage device 3 store electrical energy, to provide electric energy to give whole system, for example satellite receiver, illuminator and/or sun-following device etc.Meanwhile, disk-like means can also utilize the light element 42 in conduction device 4 directly to pass light, sunlight is imported indoor.

In addition, in order to utilize at dish-type housing 1 because of the lost sunlight of reflection, therefore the present invention is provided with light collecting unit 5, then utilizes the curvature of dish-type housing 1 sunlight can be reflexed on light collecting unit 5 accurately.Now, the present invention not only can absorb solar panels by sunlight some and do opto-electronic conversion, can also be by another portions of light line reflection to light collecting unit 5, light collecting unit 5 is by the light that reflecting material reflected up, carry out again secondary reflection, light source is led in biography electro-optical device 6 and passed light, and biography electro-optical device 6 reaches light source light element 42 in described conduction device 4 again and passes light, sunlight is imported indoor.

As shown in Figure 4, Figure 5, the invention provides a kind of the second embodiment of dish-type energy storage conduction device, comprising: a dish-type housing 1; At least one energy collecting device 2, is located at the surface of described dish-type housing 1; At least one electrical storage device 3, for storing the energy producing via described energy collecting device 2; At least one conduction device 4, for conducting energy or conduction light source; At least one light collecting unit 5, the sunlight reflecting for collecting described energy collecting device 2; At least one biography electro-optical device 6, for conducting the collected light source of described light collecting unit 5.

With the first embodiment difference of the conduction device of dish-type energy storage shown in Fig. 1, Fig. 2 and Fig. 3 be, described dish-type housing 1 also comprises reflector 7, reflexes to the utilance of described light collecting unit 5 and increases the acceptance rate of reflection of electromagnetic wave to antenna for increasing sunlight.

Described reflector 7 is for utilizing highly reflective material to apply or being plated in the layer forming on described energy collecting device 2.Described highly reflective material preferentially adopts Al (aluminium), Ag (silver), Au (gold), Cr (chromium) chromium etc., but is not limited to this.

On energy collecting device 2, be coated with or plate high reflecting material, form reflector 7, can strengthen the reflectivity of sunlight at dish-type housing 1, utilize better at dish-type housing 1 because of the lost sunlight of reflection, the curvature that simultaneously recycles dish-type housing 1 can reflex to sunlight on light collecting unit 5 accurately.Now, the present invention not only can absorb solar panels by sunlight some and do opto-electronic conversion, can also be by another portions of light line reflection to light collecting unit 5, light collecting unit 5 is by the light that reflecting material reflected up, carry out again secondary reflection, light source is led in biography electro-optical device 6 and passed light, and biography electro-optical device 6 reaches light source light element 42 in described conduction device 4 again and passes light, sunlight is imported indoor.Can effectively improve the utilance of sunlight.

Certainly, the present invention except can be on dish-type housing 1 surface-coated or plated film highly reflective material, also can carry out straight forming with high reflecting material, but the cost of straight forming is relatively higher.

As shown in Figure 6, Figure 7, the invention provides a kind of the 3rd embodiment of dish-type energy storage conduction device, comprising: a dish-type housing 1; At least one energy collecting device 2, is located at the surface of described dish-type housing 1; At least one electrical storage device 3, for storing the energy producing via described energy collecting device 2; At least one conduction device 4, for conducting energy or conduction light source; At least one light collecting unit 5, the sunlight reflecting for collecting described energy collecting device 2; At least one biography electro-optical device 6, for conducting the collected light source of described light collecting unit 5.

That described light collecting unit also comprises described sun-following device 8, to increase the collection efficiency of sunlight with the second embodiment difference of the conduction device of dish-type energy storage shown in Fig. 4, Fig. 5.

General main high accuracy solar tracking tracking system and the inverter of comprising of sun-following device 8.High accuracy solar tracking tracking system is according to the position of sunlight, drive motors, and driving mechanical rotating mechanism, follows position of sun motion all the time.In the time of sun deflection certain angle (general about 5--10 minute), controller sends instruction, and rotating mechanism rotates several seconds, while arriving just to position of sun, stops, and waits for next sun deflection angle degree, always such intermittent exercise; In the time cloudy day or evening not having the sun to occur, stop action; As long as there is the sun, it puts in place with regard to Automatic-searching tracking, and fully automatic operation, without manual intervention.Due to the difference of irradiation angle on solar day, the effective photoelectric conversion time of general fixed dish-type energy storage conduction device only had about 3 hours, and adopted the dish-type energy storage conduction device of sun-following device constantly just to the sun, had lengthened effective photoelectric conversion time.Summer can be for 12 hours, and also can reach about 8 hours winter.Thereby greatly promote photoelectric conversion efficiency, can effectively improve photoelectric conversion efficiency more than 30%.

It should be noted that, described light collecting unit 5 also can add energy collecting device, is used for collecting sunlight, and also applies or be coated with highly reflective material on energy collecting device.

Also it should be noted that, the energy collecting device 2 of being located on dish-type housing 1 is to collect sunlight to convert electric energy to, and the energy collecting device of being located on light collecting unit 5 is directly the sunlight that highly reflective material reflected up on energy collecting device to be collected to sunlight, then transfer sun light is to passing electro-optical device 6.

In a word, dish-type energy storage conduction device of the present invention both can collect solar energy or heat energy stores generating, provide electric power to give whole system, become the satellite receiver of exempting from electricity consumption, also can utilize principle of reflection that sunlight is reflected into conduction device and pass light, increase its surcharge, allow it become the satellite receiver both with energy storage and light harvesting function.

Above disclosed is only preferred embodiment of the present invention, the interest field that certainly can not limit the present invention with this, and the equivalent variations of therefore doing according to the claims in the present invention, still belongs to the scope that the present invention is contained.

Claims (10)

1. a dish-type energy storage conduction device, is characterized in that, comprising:

One dish-type housing;

At least one energy collecting device, is located at the surface of described dish-type housing;

At least one electrical storage device, for storing the energy producing via described energy collecting device;

At least one conduction device, for conducting energy or conduction light source;

At least one light collecting unit, the sunlight reflecting for collecting described energy collecting device;

At least one biography electro-optical device, for conducting the collected light source of described light collecting unit.

2. dish-type energy storage conduction device as claimed in claim 1, is characterized in that, described energy collecting device is to transfer sunlight the photoelectric conversion device of electric energy to and/or the thermoelectric conversion device that is electric energy by thermal power transfer.

3. dish-type energy storage conduction device as claimed in claim 2, is characterized in that, described dish-type housing also comprises reflector, reflexes to the utilance of described light collecting unit and increases the acceptance rate of reflection of electromagnetic wave to antenna for increasing sunlight.

4. dish-type energy storage conduction device as claimed in claim 3, is characterized in that, described reflector is for utilizing highly reflective material to apply or being plated in the layer forming on described energy collecting device;

Described highly reflective material comprises aluminium, silver, gold, chromium.

5. dish-type energy storage conduction device as claimed in claim 1, is characterized in that, described conduction device comprises conductive unit, for transmitting the stored energy of described electrical storage device, supply load electric power.

6. dish-type energy storage conduction device as claimed in claim 5, is characterized in that, described load is satellite receiver, illuminator and/or sun-following device.

7. the dish-type energy storage conduction device as described in claim 1,5 or 6, is characterized in that, described conduction device comprises light element, for transmitting the light being reflected by dish-type housing.

8. dish-type energy storage conduction device as claimed in claim 7, is characterized in that, described biography electro-optical device is connected with described light collecting unit, for conducting the collected light of described light collecting unit to described conduction device.

9. dish-type energy storage conduction device as claimed in claim 8, is characterized in that, described light element is optical fiber and/or light pipe;

Described biography electro-optical device is optical fiber and/or light pipe.

10. dish-type energy storage conduction device as claimed in claim 7, is characterized in that, described light collecting unit also comprises described sun-following device, to increase the collection efficiency of sunlight.