CN203607913U - High efficiency solar panel - Google Patents
High efficiency solar panel Download PDFInfo
- Publication number
- CN203607913U CN203607913U CN201320708547.8U CN201320708547U CN203607913U CN 203607913 U CN203607913 U CN 203607913U CN 201320708547 U CN201320708547 U CN 201320708547U CN 203607913 U CN203607913 U CN 203607913U
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- energy
- output contact
- wave tube
- travelling wave
- storage travelling
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Abstract
A high efficiency solar panel comprises a solar panel and at least one energy storage element; the solar panel is provided with at least one anode output contact point and a cathode output contact point; the anode output contact point is electrically connected with a first transmission line; the cathode output contact point is electrically connected with a second transmission line; electric energy generated by the solar panel can be transmitted to a preset control device or a battery through the first and second transmission lines; at least one energy storage element is electrically connected between the anode and cathode output contact points, so the electric energy generated by the solar panel can be firstly stored in the energy storage element, and then is discharged by the energy storage element; when the solar panel does not reach a maximum electric quantity output, the microscale electric energy generated by the solar panel can be firstly stored in the energy storage element and then discharged for output; so even if the solar panel is irradiated under low light, power supply output benefit can still be realized.
Description
Technical field
The utility model provides a kind of high-efficiency solar plate, espespecially under low-light irradiates, and the high-efficiency solar plate that the electric energy of still having output is supplied with.
Background technology
Along with environmental consciousness comes back, the concept of carbon reduction is paid attention to by everybody gradually, and the development and utilization of green energy resource becomes countries in the world and actively drops into the emphasis of development.And green energy resource is central take solar power generation as example, is mainly that the electric power that solar panels are produced is stored in accumulating system, then is done the output of electric power by accumulating system, so as to reaching free of contamination power supply benefit.
Existing solar panels produce electric energy after mainly absorbing solar energy by inner semiconductor electronic, and existing solar panels are provided with a positive contact and a negative contacts, and be distinctly connected with power transmission line respectively at positive contact and negative contacts, be connected to chargeable storage battery by two power transmission lines again, the electric energy that solar panels produce can be stored in this storage battery by two power transmission lines, more further provide direct current power to export to load use by this storage battery.
Existing solar panels must, in sunshine sufficient situation, just can reach maximum electric weight output, while making electric energy (voltage) that solar panels produce be greater than the voltage of this storage battery, could charge to this storage battery; But, under low-light irradiates, when solar panels do not reach maximum electric weight output, the electric energy (voltage) producing because of solar panels is not greater than the voltage of this storage battery, cause solar panels to charge to this storage battery, cause existing solar panels in the upper free restriction of power supply,, in sufficient situation at sunshine, solar panels just have power supply benefit; Otherwise under low-light irradiates, solar panels do not have power supply benefit.
Utility model content
The utility model discloses a kind of high-efficiency solar plate, includes solar panels and at least one energy-storage travelling wave tube.It is provided with at least one anodal output contact and a negative pole output contact solar panels, between this positive pole output contact and this negative pole output contact, is electrically connected with at least one energy-storage travelling wave tube.
Another kind of high-efficiency solar plate of the present utility model, includes solar panels and at least one energy-storage travelling wave tube.It is provided with at least one anodal output contact and a negative pole output contact solar panels, this positive pole output contact is electrically connected one first transmission line, this negative pole output contact is electrically connected one second transmission line, and be provided with at least one energy-storage travelling wave tube, be electrically connected between this positive pole output contact and this negative pole output contact.
Wherein, this energy-storage travelling wave tube can be the electric capacity that capacitance < 1000 microfarads (μ F) or capacitance are less than or equal to 22 microfarads (μ F).
Wherein, this energy-storage travelling wave tube can be rechargeable battery.
Wherein, also include a diode, this diode series connection is electrically connected at this first transmission line.
Wherein, the electric energy that these solar panels produce can first be stored to this energy-storage travelling wave tube, and discharges to export a direct current by this energy-storage travelling wave tube.
High-efficiency solar plate of the present utility model, described the first transmission line and the second transmission line can be default with outside control device or storage battery be electrically connected, and the electric energy that solar panels produce can be by the first transmission line control device or the storage battery extremely default with the second transmission line; Wherein, owing to being electrically connected with at least one energy-storage travelling wave tube between anodal output contact and negative pole output contact, make the electric energy that solar panels produce can first be stored to described energy-storage travelling wave tube, discharged by energy-storage travelling wave tube again, in the time that solar panels do not reach maximum electric weight output, the micro-electric energy that solar panels produce still can first be stored to the energy-storage travelling wave tube output of discharging again, reaches solar panels under low-light irradiates, the benefit that the electric energy of still having output is supplied with.Simultaneously, make solar panels can directly stablize output one direct current by energy-storage travelling wave tube, and the direct current that energy-storage travelling wave tube is exported passes through the first transmission line and the second transmission line again to default control device or storage battery, reach the usefulness of the stable output of solar panels tool electric energy.
Accompanying drawing explanation
Fig. 1: be the utility model high-efficiency solar plate one embodiment schematic diagram.
1. solar panels
11. anodal output contacts
12. negative pole output contacts
2. energy-storage travelling wave tube
3. diode
4. the first transmission line
5. the second transmission line.
Embodiment
Refer to shown in Fig. 1, the utility model discloses a kind of high-efficiency solar plate, includes at least one solar panels 1 and at least one energy-storage travelling wave tube 2.
Described energy-storage travelling wave tube 2 can be electric capacity or rechargeable battery.And the capacitance of described electric capacity can be < 1000 microfarads (μ F); Or can be≤22 microfarads of the capacitance of described electric capacity (μ F).
Described the first transmission line 4 and the second transmission line 5 can be default with outside control circuit (as: booster circuit), control device (as: current transformer (Inverter)) or chargeable storage battery be electrically connected.
The utility model further includes a diode 3, and diode 3 series connection are electrically connected at the first transmission line 4, prevent that the reverse current (as: the electric current adverse current in storage battery) from flowing back into solar panels 1, causes solar panels 1 to damage.
The electric energy that described solar panels 1 produce can first be stored to described energy-storage travelling wave tube 2, then is discharged by energy-storage travelling wave tube 2, reaches solar panels 1 and can directly stablize output one direct current; Pass through again the first transmission line 4 and the second transmission line 5 by extremely outside default control circuit, control device or the chargeable storage battery of a direct current electrical transmission.
In sunshine sufficient situation, in the time that solar panels 1 reach maximum electric weight output, the electric energy that solar panels 1 produce can first be stored to described energy-storage travelling wave tube 2, then is discharged by energy-storage travelling wave tube 2, reaches solar panels 1 can directly stablize export a galvanic object, again, in sunshine not enough situation, in the time that solar panels 1 do not reach maximum electric weight output, the micro-electric energy that solar panels 1 produce still can first be stored to energy-storage travelling wave tube 2, complete after charging until energy-storage travelling wave tube 2, carry out stable discharging by energy-storage travelling wave tube 2 again, utilize energy-storage travelling wave tube 2(as electric capacity) tool fast charging and discharging characteristic, reach solar panels 1 under low-light irradiates, the benefit that the electric energy of still having output is supplied with, avoid the micro-electric energy that solar panels 1 produce directly to export, be to cause the impedance loss because of transmission line or load of micro-electric energy that solar panels 1 produce, or cause the micro-electric energy that solar panels 1 produce to be not enough to charge for accumulators.
After can first charging, recycling energy-storage travelling wave tube 2 discharges again, make solar panels 1 can directly stablize output one direct current, and the direct current that energy-storage travelling wave tube 2 is exported transfers to default control device or storage battery by the first transmission line 4 and the second transmission line 5 again, reach the usefulness of the stable output of solar panels 1 tool electric energy.
High-efficiency solar plate of the present utility model, be used in and between the anodal output contact 11 of solar panels 1 and negative pole output contact 12, be electrically connected with at least one energy-storage travelling wave tube 2(as electric capacity), utilize energy-storage travelling wave tube 2(as electric capacity) tool fast charging and discharging characteristic, the electric energy of avoiding excessive loss's solar panels 1 to produce, reach can be with lower cost simultaneously, allow solar panels 1 under low-light irradiates, the benefit that the electric energy of still having output is supplied with.
Above-described content, is only preferred embodiment of the present utility model, when can not with artist scholar variation and the modification that obviously can do, all should be considered as not departing from flesh and blood of the present utility model.
Claims (10)
1. a high-efficiency solar plate, includes: solar panels, are provided with at least one anodal output contact and a negative pole output contact; It is characterized in that:
Between this positive pole output contact and this negative pole output contact, be electrically connected with at least one energy-storage travelling wave tube.
2. high-efficiency solar plate as claimed in claim 1, is characterized in that: this energy-storage travelling wave tube can be electric capacity, capacitance < 1000 microfarads of this electric capacity.
3. high-efficiency solar plate as claimed in claim 1, is characterized in that: this energy-storage travelling wave tube can be electric capacity, capacitance≤22 microfarad of this electric capacity.
4. high-efficiency solar plate as claimed in claim 1, is characterized in that: this energy-storage travelling wave tube can be rechargeable battery.
5. a high-efficiency solar plate, its feature includes:
One solar panels, are provided with at least one anodal output contact and a negative pole output contact, and this positive pole output contact is electrically connected one first transmission line, and this negative pole output contact is electrically connected one second transmission line;
At least one energy-storage travelling wave tube, is electrically connected between this positive pole output contact and this negative pole output contact.
6. high-efficiency solar plate as claimed in claim 5, is characterized in that: this energy-storage travelling wave tube can be electric capacity, capacitance < 1000 microfarads of this electric capacity.
7. high-efficiency solar plate as claimed in claim 5, is characterized in that: this energy-storage travelling wave tube can be electric capacity, capacitance≤22 microfarad of this electric capacity.
8. high-efficiency solar plate as claimed in claim 5, is characterized in that: this energy-storage travelling wave tube can be rechargeable battery.
9. high-efficiency solar plate as claimed in claim 5, is characterized in that: also include a diode, this diode series connection is electrically connected at this first transmission line.
10. high-efficiency solar plate as claimed in claim 5, is characterized in that: the electric energy that these solar panels produce can first be stored to this energy-storage travelling wave tube, and discharges to export a direct current by this energy-storage travelling wave tube.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201320708547.8U CN203607913U (en) | 2013-11-11 | 2013-11-11 | High efficiency solar panel |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201320708547.8U CN203607913U (en) | 2013-11-11 | 2013-11-11 | High efficiency solar panel |
Publications (1)
Publication Number | Publication Date |
---|---|
CN203607913U true CN203607913U (en) | 2014-05-21 |
Family
ID=50720573
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201320708547.8U Expired - Fee Related CN203607913U (en) | 2013-11-11 | 2013-11-11 | High efficiency solar panel |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN203607913U (en) |
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2013
- 2013-11-11 CN CN201320708547.8U patent/CN203607913U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140521 Termination date: 20201111 |