TWI292226B - A structure with solar energy electric power system - Google Patents

Description

1292226 IX. Description of the invention: [Technical field of the invention] The invention provides a kind of power supply H system--the miscellaneous solar energy view is the power source. The solar energy supply (four) system can cooperate with various portable information processing devices. Or among other kinds of portable products. [Prior Art] In the technological century where ginseng science is constantly improving, various new technology products make people's lives more convenient, but with the continuous development of the environment, various resources are accelerated and consumed, facing various traditions. The benefits of Beiyuan (petroleum, coal-soil) are exhausted, energy shortages and environmental pollution are becoming more serious, and how to generate new generations of energy _ while taking into account environmental protection, the job is the consistent goal that humans are currently pursuing. And too much is in line with the above requirements, Sun Lin is Tianlu t Wei, so it will not produce chemistry; ^ dyeing (such as: carbon dioxide, carbon monoxide, sulfur dioxide, nitrogen oxides and dust particles, etc.), and will not produce radioactivity And radioactive materials, another feature is that the solar energy source does not produce thermal pollution (thennalpollution) and the source is endless, and can be obtained indefinitely. In the past, the solar energy development process towel often occurs because the volume is not easy to collect and use. The problem is that due to the continuous advancement of technology, collectors (〇) 1_g• suits (ie solar panels) can be used. As for the intermittent problem of solar light source (day and night, it is not possible), then a heat storage device can be used. Thermal energy storage), so the current solar energy application technology has gradually matured and widely used. 1292226 [Invention content] Although the development of technology has brought the solar energy generation to an early stage, the current solar energy system is In application, it has not been popularized in all kinds of portable splicing, so most portable devices still need to be manufactured. The sudden supply of power supply to the square wire operation, the supply and replenishment of electricity is a real problem, so how to further apply and improve the power supply system of the solar energy source is a technical issue with a value of thinking. The present invention proposes a portable solar power supply system and an application structure thereof for the purpose of improving the disadvantages of the conventional solar energy system being difficult to carry. The present invention can be combined with a variety of V-type products and supports portable products. The power required, the power supply system comprises a receiving early switch, a control block and a storage unit. When receiving the solar energy, the receiving unit can use the control block to store the solar energy in the storage unit when the user desires When using a portable information processing device or other various portable products, the power supply system can be used to provide the power required for the work, thereby enabling the working time of the device (product) to be extended without limit. DC power. DC input and various types of DC power!). The other purpose of the output interface is to flexibly exchange solar power and DC power Dc interchangeably. This adds convenience to the portable product. The details and technology of the present invention are described below with reference to the following drawings: [Embodiment] The present invention is a portable solar power supply system, and includes various structures for applying the solar power supply system. First, please refer to "1st. Figure is a perspective view of the portable solar power supply system of the present invention. 1292226 The portable solar power supply system of the present invention can be designed as a three-dimensional shape according to the designer's requirements. The external solar power receiving interface lu and the DC power receiving w surface 112 are externally disposed, and the above two receiving interfaces can receive the sun. The electric energy directly receives the external DC power DC for the system to use, and in the power supply system, a universal serial output interface (2) and a DC power output interface 122 are also provided, and the two output interfaces are used for The DC power % is transmitted out of the power supply system, and the display unit 13 is used to display the operating state of the power supply system (eg, during charging, power supply, or power shortage), and then the circuit architecture of the present invention is made. For a detailed description, please refer to "Fig. 2", which is a schematic diagram of the circuit structure of the portable solar power supply system of the present invention. The portable solar power supply system of the present invention includes a receiving unit 11 and an output unit 12 , the display unit 13, the control block 14 and the storage unit 15, wherein the receiving unit 11 can be externally connected to a solar panel for receiving solar energy And the control block 14 is connected to the receiving unit n and used to convert the solar energy into a DC power sink, and stabilize the DC power DC to a specific value (regulation) while charging the storage unit 15 Therefore, the storage unit 15 is inevitably charged - the rechargeable battery is used to store the DC power DC, and is used. The electric source is k' to transfer the DC power DC to the outside of the system, and the display unit U is connected to the control block and used for display. When the power supply system 10 is in an operating state (for example, during charging, during power supply, or when power is insufficient), the output unit 12 outputs DC power to the power supply system. Next, refer to the "μ map". The receiving unit 11 of the portable power supply system of the present invention is further provided with a solar power receiving interface m and a DC power receiving interface 112, and the solar power receiving interface ill can be connected to the solar panel. 20, the solar panel 20 can be a flexible solar panel, and the flexible solar panel has a lightness and thinness in addition to a certain elasticity. Easy to connect, to meet the requirements of portable systems, DC power receiving interface 112 can directly connect external DC power 1) (: for system use, or to charge power supply system 10. Next, please refer to The "Picture 3B" is not intended for the output of the portable solar power supply system of the present invention. The wheel-out unit 12 of the power supply system 1G of the present invention can be designed as a data transmission interface with a power transmission function. It can be connected to various portable products 30 for various forms of connection interfaces (for example, UniVersal Seriai Bus (brain) transmission interface, Hrewire transmission interface, etc.), and in this embodiment, it is designed as a universal serial port. Output interface i2i and DC output of his output " face 122 'where the serial output φ 121 can be connected with the information processing secret ' and the DC power output interface (2) county-view transmission connector, can be with the general portable electrical equipment 32 connection. Next, please refer to "3C Figure", which is a schematic diagram of the control section of the "Sun Secret" system. The control block 14 is provided with a charging control unit 14 for ge_„er)

142 (overdischarge controlled 143 (DC-DC _erter) 'where the charging control unit ΐ4ι is used to control the DC power DC and charge the storage unit 15, while the overdischarge control unit (4) is stored at 1292226 h when the listening power is at a safe value The discharge of early τΜ5, in order to protect the unit B, change the star private (4), the DC power DC is printed on the special button, forming a “stabilized dust effect.” Next, the (4) should be gambling system - the detailed system, Please refer to the "Picture" for the portable solar power supply system of the first month of the month - Application Architecture Example (1). Assume that the current portable person connects the portable solar power supply system of the present invention with the information processing device 31. The working power supply of the processing device 31 is provided by the power supply system '. Therefore, the action of power supply green 1G is converted into solar energy by the solar panel after collecting the solar light source and transmitted to the solar energy receiving interface U1, and the power supply system ι〇 The solar energy is converted into DC power DC and the DC power DC is released through the Wan Cai Lian wheel interface i2i, when the information processing device 31 is connected to the universal serial port. I2i After binding, the power supply system, the system H) starts the power supply output information processing apparatus 31, for the information processing apparatus 31 with the working pair. Next, please refer to "figure 5", which is a diagram (2) of the first embodiment of the portable solar power supply system of the present invention.

It is also assumed that the user currently connects the portable solar power supply system of the present invention with the electrical device 32. At this time, the working power supply of the electric pirate device 32 is provided by the power supply system 1 , if the power supply system 10 (4) is insufficiently powered by the power supply device. The device 3 2 works. At this time, the power supply system ίο can also be transmitted to the DC power receiving interface 112 by external DC power, and then the DC power Dc can be released through the DC power output interface 122 (at the same time, the power supply system is charged). When the connection port of the electrical device 32 is combined with the DC power wheel-out interface 122, the power supply system 10 begins to output power to the electrical device 32 for use by the power supply device 32. 9 1292226 In addition to the power supply library concept (PowerBank) In addition to the implementation architecture, the portable solar power supply system of the present invention can be directly disposed in the information processing device 31. Please refer to FIG. 6 for the portable solar power supply system of the present invention. In the second embodiment of the application architecture (1), only the solar panel 2 is disposed on the surface of the information processing device 31 to receive the solar light source, and the power supply system The DC power DC (working power) can also be formed inside the information processing device 31, and the excess DC power Dc can be stored in the power supply system 10. At this time, the power supply system 10 can replace the charging of the information processing device 31 itself. The battery and the operating power required by the function mechanism 311 are supplied by the power supply system, thereby enabling the functions of the information processing device 31 to operate normally. Of course, the foregoing implementation architecture can be applied to any portable information. Processing devices or electrical devices (eg, mobile phones, personal digital assistants (PDAs), multimedia players (PMPs), notebook computers, handheld gaming devices, and various related portable devices, etc.). In addition to the foregoing embodiments, the present invention has the following embodiments without departing from the spirit of the same invention. Next, please refer to "FIG. 7" for the portable solar power supply system of the present invention. The second application architecture is lying down (2). Rightly, the portable solar power supply line of the present invention is combined with the clothes (portable device) 4' to create a good warmth effect, and the working power supply of the heating mechanism 41 in the clothes 4 is now responsible for the power supply system 10. Provided, the surface of the garment 40 needs to be provided with a solar panel 2 收集 to collect the solar system and convert it into solar energy, and then transmitted to the power supply green to form a DC power DC, at which time the DC power DC can supply the working power required by the heating mechanism μ. And charging the power supply system ') The power supply system 1G is also provided with a wheel-out unit. When the user's Ϊ292226, any portable device requires working power, the power supply system 10 can also be connected to provide a direct DC. The system of (4)#, the same day village secret (10) and pure warmth, and portable devices that can use this structure can include: jackets, clothes, pants, vests, and various related types of portable products. Although the present invention has been described above in terms of a preferred embodiment of the uranium, it is not intended to limit the invention, and any person skilled in the art can make some changes without departing from the spirit and scope of the invention. The scope of protection of the present invention is defined as the ammonium standard as defined in the appended patent application. [Simplified illustration] The portable power supply (4) and the stereoscopic schematic diagram of the portable solar energy system invented by the 1st forest; the second diagram is a schematic diagram of the circuit structure of the portable solar power supply system of the present invention; Schematic diagram of the receiving unit of the solar power supply system; the first offence is the schematic diagram of the portable solar energy of the present invention; - ® 帛C diagram is the schematic diagram of the control unit of the portable solar power supply system of the invention; Inventive portable solar power supply system - application architecture embodiment (1); diagram is the first month of the portable solar power supply system - application architecture embodiment (2); The second application architecture embodiment (1) of the solar power supply system; and the second embodiment of the second application architecture of the portable solar power supply system of the present month (2). [Main component symbol description] 10 Power supply system 11 1292226

11 receiving unit 12 output unit 13 display unit 14 control block 15 storage unit 20 solar panel 30 portable product 31 information processing system 32 electrical equipment 40 clothes 41 heating mechanism 111 solar energy receiving interface 112 DC power receiving interface 121 million series埠Output interface 122 DC power output interface 141 Charging control unit 142 Over-discharge control unit 143 Transformer unit 311 Function mechanism DC DC power 12

Claims (1)

Ί292226 IX. Patent application scope: 1. A portable solar power supply system, which is used to receive a solar energy and then convert it into a direct current power. The solar power supply system comprises: a receiving unit, the receiving unit is Connected to a flexible solar panel for receiving the solar energy; a control block, the control block is connected to the receiving unit, and is configured to convert the solar energy into the direct current electric energy, and stabilize the direct current electric energy a specific value; a storage unit connected to the control block for storing the DC power; and an output unit connected to the control block, the output unit is configured to output the DC power to a portable device; wherein the control block further comprises: a charging control unit, the charging control unit is connected to the receiving unit, the charging control unit is configured to control the DC power to charge the storage unit; a control unit, the overdischarge control unit is connected to the storage unit, and the overdischarge control unit Stopping the discharge of the storage unit when the DC power is lower than a safe value; and a transformer unit, the transformer unit is connected to the overdischarge control unit, wherein the transformer unit is used to stabilize the DC power at the specific The value is then transferred to the output unit. 2. The portable solar power supply system of claim 1, wherein the output unit further comprises at least one output interface for transmitting the DC power. 3. The portable solar power supply system of claim 1, wherein the receiving 13 1292226 unit further comprises a DC power input interface for receiving an external DC power. 4. The portable solar power supply system of claim 1, further comprising a display unit for displaying the working state of the power supply system. 5. The portable solar power supply system of claim 1, wherein the storage unit is a rechargeable battery for providing the stored DC power. 6. A portable information processing device having a portable solar power supply system, wherein the portable information processing device comprises: at least one functional mechanism for generating the portable information processing device Each function; a solar power supply system, the solar power supply system is configured to receive a solar light source and then converted into a direct current power, the solar power supply system further comprises: at least one set of solar panels, the solar panel is more flexible a solar panel for receiving the solar light source and converting it into a solar energy; a power supply system, the power supply system further comprising: a receiving unit, the receiving unit is connected to the solar panel, and used to transmit the solar energy; a control block, the control block is connected to the receiving unit, and configured to convert the solar energy into the DC power and stabilize the DC power source to a specific value; and a storage unit, the storage unit and the control block Connected and used to store the DC power and transmit the DC power to the functional mechanism; 14 1292 The control block further includes: a charging control unit, the charging control unit is connected to the receiving unit, the charging control unit is configured to control the DC power to charge the storage unit; and an over-discharge control unit a discharge control unit is connected to the storage unit, the overdischarge control unit is configured to stop discharging of the storage unit when the DC power is lower than a safe value; and a transformer unit, the transformer unit and the overdischarge control unit Connected, the transformer unit is transmitted to the output unit after the DC power is stabilized at the specific value. 7. The portable information processing device with a portable solar power supply system according to claim 6, wherein the power supply system further comprises an output unit, the output unit is connected to the control block, and the output unit is used by the output unit The DC power is transmitted out of the portable information processing device. 8. The portable information processing device with a portable solar power supply system according to claim 7, wherein the output unit is further provided with a data transmission B interface having a power transmission function. 9. The portable information processing device of the portable solar power supply system of claim 6, wherein the storage unit further comprises a rechargeable battery for providing the stored power. 10. The portable information processing device with a portable solar power supply system according to claim 6, wherein the portable information processing device can be a mobile phone, a PDA, and a multimedia device. One of a player (PMP), a notebook computer, a handheld game device, and a related portable device. 15 1292226 11. A portable device having a portable solar power supply system, wherein the portable device comprises: a heating mechanism for generating a heat source to maintain a temperature of the portable device; a power supply system, the solar power supply system is configured to receive a solar light source and then convert it into a direct current power, the solar power supply system further comprises: at least one set of solar panels, the solar panel is more flexible solar panel, Receiving the solar light source and converting it into a solar energy; a power supply system, the power supply system further comprising: a receiving unit connected to the solar panel and configured to transmit the solar energy; a control block, the control The block is connected to the receiving unit and configured to convert the solar energy into the DC power and stabilize the DC power to a specific value; and • a storage unit connected to the control block and used to store the DC power 'transmits the DC power to the heating mechanism; wherein the control The block further includes: a charging control unit, the charging control unit is connected to the receiving unit, the charging control unit is configured to control the DC power to charge the storage unit; 16 1292226 an over-discharge control unit, the over-discharge control unit Connected to the storage unit, the overdischarge control unit is configured to stop discharging of the storage unit when the DC power is lower than a safe value; and a transformer unit, the transformer unit is connected to the overdischarge control unit, The transformer unit transmits the DC power to the output unit after the DC power is stabilized at the specific value. 12. The portable device with a portable solar power supply system according to claim 11, wherein the power supply system further comprises an output unit, the output unit is connected to the control block, and the output unit is configured to DC power is delivered out of the portable device. 13. The portable device having a portable solar power supply system according to claim 12, wherein the output unit further comprises an output interface having a power transmission function. 14. The portable device having a portable solar power supply system according to claim 11, wherein the storage unit is a rechargeable battery for providing the stored power. 15. The portable device with a portable solar power supply system according to claim 11, wherein the portable device is more than a jacket, a garment, a pair of pants, a vest, and a related type of product. Choose one. 17