KR101527290B1 - Portable solar power supply - Google Patents

Abstract

Portable solar power supplies include solar cells; Off switch, a set of indicators, a power inlet, a power inlet, a first connector, a wireless communication member, a line transfer member, a data storage member, a wireless communication unit, a power management unit, a buck-boost converter unit, a charge control unit, A circuit board comprising an identification (RFID) member, a Secure Digital (SD) card member, a universal serial bus (USB) port, a micro USB port, and a solar charging member; A solar charger including a plurality of holes; And a rechargeable battery, each partially configured to include the solar charger, and including at least one battery including a second connector, a third connector, a plurality of snapping members, and a plurality of slots, The second connector is connectable to the first connector or the third connector, and the snipping member is retainable in the hole or the slot.

Description

PORTABLE SOLAR POWER SUPPLY [0002]

References to Related Applications

The subject matter of this application is related to U.S. Patent Application Serial No. 13 / 344,857, filed January 6, 2012, the entire teachings of which are incorporated herein by reference.

The present invention relates to a power supply, and more particularly, to a portable solar power supply having a solar-powered charger and a rechargeable battery with one or more batteries.

Currently, rechargeable batteries are a common power source for a variety of portable consumer electronic products such as cell phone handsets, laptops, digital cameras, music players, and the like. To charge the rechargeable battery, a particular charger is required to convert and supply AC power from the outlet to DC. When external power is difficult to access, charging is not possible. In turn, an electronic device using a rechargeable battery as the power source does not operate when the battery is in a low state.

To solve this problem, many types of portable solar power supplies (so called "power packs") have been developed. By the use of a portable solar power supply, the user can charge his / her electronic device wherever he / she goes when a need for charging occurs.

Typically, a portable solar power supply comprises a rechargeable battery and a control circuit disposed within the housing. Commercial portable solar power supplies have different cell performance. Portable solar power supplies with small capacities are usually small in weight and light in weight, while their operating time is limited. In contrast, portable solar power supplies with large capacities can be used for a relatively long time, but are bulky and almost not portable. In addition, the lifetime of conventional rechargeable batteries is affected by the frequency of use. Also, in the event that a normal battery degrades or breaks down, the entire power supply can no longer be used.

Therefore, there is still a need for improvement.

Patent Document 1: Taiwan Utility Model Application No. 100217944 (Sep. 23, 2011), portable mobile power source that can be replaced. Patent Document 2: Chinese Utility Model Publication No. 201829970 (2011.05.11), portable multifunctional power supply device. Patent Document 3: Chinese Utility Model No. 202068321 (Dec. 2011), DC power supply box. Patent Document 4: US Patent No. 5,689,412 (Nov. 11, 1997), a versatile portable power supply that is commonly used for AC / DC conversion, including a backup battery and a backup charger. Patent Document 5: U.S. Patent No. 7,514,900 (Apr. 07, 2009), a portable device having a multifunctional power interface. Patent Document 6: U.S. Patent Application Publication No. 2009/0096399 (Apr. 16, 2009), an intelligent electric appliance having a multi-function power supply. Patent Document 7: U.S. Patent Application Publication No. 2009/0160401 (Jun. 25, 2009), a battery charge management system for charging a battery bank including a plurality of batteries. Patent Document 8: U.S. Patent No. 7,858,582 (Jun. 11, 2011), a portable device having a multifunctional power interface. Patent Document 9: U.S. Patent Application Publication No. 2011/0129695 (Jun. 02, 2011), battery pack. Patent Document 10: U.S. Patent No. 8,129,938 (Mar. 03, 2012), a multifunctional power supply system for portable devices. Patent Document 11: Korean Patent Laid-Open Publication No. 2005-0025906 (Mar. 14, 2005), Multi-Output Type Power Supply Device and Portable Device Using It.

It is therefore an object of the present invention to provide a portable solar power supply having a solar charger with one or more batteries and a rechargeable battery.

A portable solar power supply apparatus according to the present invention includes: a solar cell; Off switch, a set of indicators, a power inlet, a power inlet, a first connector, a wireless communication member, a line transfer member, a data storage member, a wireless communication unit, a power management unit, a buck-boost converter unit, a charge control unit, A circuit board comprising an identification (RFID) member, a Secure Digital (SD) card member, a universal serial bus (USB) port, a micro USB port, and a solar charging member; A solar charger including a plurality of holes; And a rechargeable battery, each partially configured to include the solar charger, and including at least one battery including a second connector, a third connector, a plurality of snapping members, and a plurality of slots, The second connector is connectable to the first connector or the third connector, and the snipping member is retainable in the hole or the slot.

The foregoing and other objects, features and advantages of the present invention will become apparent from the following detailed description taken in conjunction with the accompanying drawings.

1 is a plan view of a solar charger of a portable solar power supply according to the present invention in which the solar cell is removed;
2 is a plan view of one of a plurality of cells of a rechargeable battery of a solar power supply;
Figure 3 is a block diagram of a circuit board of the solar charger of Figure 1 and a second connector of a control member of the cell of Figure 2;
Figure 4 is a perspective view of a partially assembled solar charger and a cell;
Figure 5 is a side elevational view of Figure 4;
Figs. 6 and 7 are exploded perspective views of Fig. 4 taken from different angles; Fig.
8 is an exploded perspective view showing the solar charger and three cells assembled;
Figure 9 is a perspective view of the solar charger and the cell of Figure 8 partially assembled; And
Figures 10 and 11 are perspective views of an assembled solar charger and cell viewed from different angles.

1 to 5, a portable solar power supply device having one or more cells connected in series in accordance with the present invention includes a solar charger 1 and a rechargeable battery 2. Each component is discussed in detail below.

The solar charger 1 includes a housing 11 and a circuit board 12 in the housing 11. [ The circuit board 12 is provided with a power management unit 12A, a buck-boost converter unit 12B, a charge control unit 12C, and a data management unit 12D.

The circuit board 12 is provided with an on / off switch 121, a set of indicators 122, a power inlet 123, a power outlet 124, a power inlet jack 125 A power outlet jack 126, a solar battery 127, and a first connector 128 are additionally provided.

A radio frequency identification (RFID) member 12-D, and a radio frequency identification (RFID) member 12-A, a line transfer member 12-B, a data storage member 12- (SD) card member 12-E, a universal serial bus (USB) port 12-F, a micro USB port 12-G, a solar charging member 12- Member 12-I is additionally provided.

The SD card member 12-E, the USB port 12-F, and the USB port 12-G are disposed in the housing 11. The solar cell 127 is provided on the upper surface of the housing 11 and is electrically connected to the solar charging member 12-H. The first connector 128 is disposed on the bottom surface of the housing 11. A plurality of holes (13) are provided at the four corners of the bottom of the rectangular housing (11).

Direct current (DC) power can be supplied to the solar charger 1 by connecting an adapter (or a USB connector) to the power inlet 123 (or power inlet jack 125). DC power can be supplied from the solar charger 1 to the portable electronic device by electrically interconnecting the power outlet 124 (or the power outlet jack 126) and the power port of the portable electronic device. The SD card member 12-E is for insertion of the SD card. The USB port 12-F and the micro USB port 12-G are for insertion of a USB connector and a micro USB connector, respectively. The line transfer member 12-B is for insertion of an RJ-45 physical connector.

The power inlet 123 and the power inlet jack 125 are electrically connected to one end of the charge control unit 12C and the other end of the charge control unit 12C is connected to one end of the power management unit 12A and the other end And is electrically connected to one end of the filling member 12-H. The other end of the solar charging member 12-H is electrically connected to the solar cell 127. The other end of the power management unit 12A is electrically connected to one end of the on / off switch 121, the set of indicators 122, the first connector 128 and the buck-boost converter unit 12B, respectively. The power outlet 124 and the power outlet jack 126 are electrically connected to one end of the buck-boost converter unit 12B and the other end of the buck-boost converter unit 12B is connected to the data storage member 12- The data management unit 12D is electrically connected to one end of the data management unit 12D via the USB port 12-C, the RFID member 12-D, the SD card member 12-E, the USB port 12- Lt; / RTI > The wireless communication member 12-A and the line transfer member 12-B are electrically connected to the other end of the data management unit 12D.

The rechargeable battery 2 includes a plurality of rectangular cells 3, 4 and 5. For example, the cell 3 includes a housing 31 having a rectangular cavity 32 formed in its top surface. The cavity 32 is provided with a control member 33, an electrical accumulator 34, a second connector 35, two projections 37, and two tabs 38. A third connector 36 and a plurality of slots 39 (for example, four on the four corners of the bottom of each cell 3) are provided on the bottom surface of the cell 3, Is provided. Each of the cells 3, 4 and 5 is complementary to the solar charger 1 and the cells 3, 4 and 5 are complementary to each other so that they can be assembled as described hereinafter .

The projections 37 and the tabs 38 are inserted into the holes 13 to fix the cell 3 and the solar charger 1 to each other in a sliding and snapping manner. Likewise, cells 3 and 4 can be fixed by inserting protrusions 37 and tabs 38 of cell 3 in sliding and snapping fashion into slots 39 of cell 4, respectively. Cells 4 and 5 may also be fixed in this manner. The second connector 35 of the cell 3 is electrically connected to the second connector 128 of the solar charger 1 and the third connector 36 of the cell 3 is electrically connected to the And the third connector 36 of the cell 4 is electrically connected to the second connector 35 of the cell 5, respectively. As a result, the solar charger 1 and the cells 3, 4 and 5 are electrically connected in series. Further, the solar charger 1 (for example, the solar cell 127) can directly convert the energy of light into electricity stored in each of the cells 3, 4 and 5.

While the invention has been described with respect to preferred embodiments, those skilled in the art will recognize that the invention can be practiced with modifications within the spirit and scope of the appended claims.

Claims (6)

In a portable solar power supply,
Solar cell; Off switch, a set of indicators, a power inlet, a power outlet, a first connector, a wireless communication member, a line transfer member, a data storage member, a power supply control unit, a buck-boost converter unit, A circuit board including a wireless identification (RFID) member, a Secure Digital (SD) card member, a universal serial bus (USB) port, a micro USB port, and a solar charging member; And a plurality of holes;
The power inlet is electrically connected to one end of the charge control unit and the other end of the charge control unit is electrically connected to one end of the power management unit and one end of the solar charging member, respectively; And the other end of the power management unit is electrically connected to one end of the on / off switch, the set of indicators, the first connector, and one end of the buck-boost converter unit, respectively;
The power outlet is electrically connected to one end of the buck-boost converter unit, and the other end of the buck-boost converter unit is connected through a data storage member, an RFID member, an SD card member, a USB port, And electrically connected to one end of the data management unit; Wherein the wireless communication member and the line transmission member are electrically connected to the other end of the data management unit;
And a rechargeable battery each of which is formed to partially include the solar charger and includes a second connector, a third connector, a plurality of snapping members, and one or more batteries including a plurality of slots,
Wherein the second connector is connectable to the first connector or the third connector, and the snipping member is retainable in the hole or the slot. The method according to claim 1,
Wherein the hole includes four holes, and the snapped member includes two projections and two tabs. The method according to claim 1,
Wherein the solar cell is electrically connected to the solar charging member. The method according to claim 1,
Wherein the line transfer member is for insertion of an RJ-45 physical connector. delete delete

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