CN203073373U

CN203073373U - Efficient solar electric power storage/charging protective cover for cellphones

Info

Publication number: CN203073373U
Application number: CN201220683172XU
Authority: CN
Inventors: 韦海贵
Original assignee: Individual
Current assignee: Individual
Priority date: 2012-12-12
Filing date: 2012-12-12
Publication date: 2013-07-24
Anticipated expiration: 2022-12-12
Also published as: WO2014089916A1

Abstract

The utility model provides an efficient solar electric power storage/charging protective cover for cellphones. The efficient solar electric power storage/charging protective cover comprises a protective cover body (1), a solar panel (2), an integrated circuit (3), a rechargeable battery (4) and a cellphone charging port (5), wherein the solar panel (2) is nested to the protective cover body (1) to convert solar energy into electric power and the electric power is used for charging the rechargeable battery (4) after being regulated in voltage and stabilized in current through the integrated circuit; and then the rechargeable battery (4) is used for charging the cellphone nested on the protective cover body (1). With the structure, the efficient solar electric power storage/charging protective cover for cellphones provided by the utility model is high in charging efficiency and is capable of fully charging the cellphone in short time; and with back electrode connection technique, the efficient solar electric power storage/charging protective cover for cellphones is beautiful and elegant in appearance. In addition, an efficient bendable solar cell is combined with the cellphone protective cover so that the protective cover can be sleeved with the cellphone conveniently; and at the same time, continuous power is provided for the cellphones through the efficient solar panel to ensure long-time standby and use of the cellphones.

Description

A kind of high-efficiency solar mobile phone electric power storage charging sheath

Technical field

The utility model relates to a kind of cell-phone charging sheath, relates in particular to a kind of high-efficiency solar computer electric power storage charging sheath that utilizes solar energy for cell-phone charging.

Background technology

At present, mobile phone particularly smart mobile phone become the new lover of present mobile communication with its wisdom and recreational the liking of people that be subjected to deeply.In order to protect the exquisite shell of smart mobile phone, the sheath supporting with mobile phone arises at the historic moment.Mobile phone protective cover of the prior art comprises the sheath body, and the sheath body can fit in the shell of mobile phone, and the protection phone housing is not scratched by hard thing.This sheath function is single relatively, can't satisfy the long amusement demand of people, and for this reason, people begin on the sheath body rechargeable battery to be installed, thereby have prolonged the standby and the service time of mobile phone.Yet even add rechargeable battery, the standby of mobile phone and service time are still quite limited, and the user for going on business or travel in long-time open air still can't satisfy.

Therefore, how to obtain electric weight people's the problem that faces always fast and endlessly.

The utility model content

The purpose of this utility model is in order to overcome the deficiencies in the prior art, to provide a kind of solar cell that utilizes to charge for rechargeable battery, for outdoor subscriber provides the cell-phone charging sheath of electric weight continually.

In order to achieve the above object, the utility model has adopted following technical scheme:

A kind of solar mobile electric power storage charging sheath comprises

The sheath body;

Solar panel, described solar panel comprises the high-efficiency solar assembly, cover is embedded in the back side of sheath body, is electric energy with conversion of solar energy;

Integrated circuit, described integrated circuit is integrated control processor, oscillating circuit, holding circuit and testing circuit after the electric energy of solar panel regulated by vibration, provides the electric energy output of constant pressure and flow;

Rechargeable battery, described rechargeable battery is electrically connected to the integrated circuit storage of electrical energy; And the cell-phone charging port, described cell-phone charging port is electrically connected with rechargeable battery, is arranged on the position of sheath body corresponding to the cell-phone charging socket.

Described sheath body front is provided with a cavity corresponding to the position of cell-phone charging port, and integrated circuit is installed in the cavity, and its top is provided with a deckboard, and sheath body backplate face is provided with the groove position.

Described solar panel cover is embedded on the groove position of this phosphor bodies of sheath.

Described rechargeable battery is the high power capacity lithium battery, and rechargeable battery is tabular, is installed in the groove position at solar panel rear.

Described solar panel comprises the PCB substrate, and this PCB substrate is used to carry the high-efficiency solar assembly;

The high-efficiency solar assembly forms tabular high-efficiency solar assembly by some monocrystalline silicon high-efficient solar battery sheet both positive and negative polarity back of the body contact Series Packages on the PCB substrate;

Protective clear layer is used to encapsulate the high-efficiency solar assembly.

Described solar panel connects the formula solar panel for the back of the body.

Described protective clear layer is selected from one of PET, ETFE, PVDF, transparent TPT or ultra-thin glass.

Described PCB substrate is flexible PCB substrate.

Owing to adopted said structure, high-efficiency solar mobile phone electric power storage charging sheath charge efficiency height of the present utility model can be full of at short notice; Because adopt the back electrode interconnection technique, good looking appearance is generous.In addition, be combined on the mobile phone protective cover, both made things convenient for the socket of sheath and mobile phone, can also provide power supply endlessly for mobile phone simultaneously, guarantee the long-time standby and the use of mobile phone by high performance solar panels by efficient flexible solar cell.

Description of drawings

Fig. 1 is a structural representation of the present utility model;

Fig. 2 is a structure schematic diagram of the present utility model;

Fig. 3 is a structure exploded view of the present utility model;

Fig. 4 is a Facad structure exploded view of the present utility model;

Fig. 5 installs structural representation behind the mobile phone for the utility model;

Fig. 6 is a schematic block circuit diagram of the present utility model;

Fig. 7 is the structural representation of the utility model solar panel.

The specific embodiment

The front is described in further detail the utility model with the specific embodiment in conjunction with the accompanying drawings.

Shown in Fig. 1 to 7, a kind of solar mobile phone charging sheath comprises

Sheath body 1, solar panel 2, integrated circuit 3, rechargeable battery 4 and charging output port 5, sheath body 1 front is provided with a cavity corresponding to the position of cell-phone charging port, integrated circuit 3 is installed in the cavity, its top is provided with a deckboard 11, and sheath body 1 backplate face is provided with groove position 12.Solar panel 2 is flexible monocrystalline silicon high-efficient solar panel, mainly is made up of PCB substrate 21, solar components 22 and protective clear layer 23.Substrate 21 can be made arc-shaped bend, is used to carry solar components 22;

Solar components 22 can form plate-shaped solar assembly 22 along the high performance solar batteries sheet series connection of making arc-shaped bend by some, and solar components 22 is fixed on the substrate 21;

Protective clear layer 23 fixedly is covered in solar components 22 surfaces, is used to protect solar components 22.The monocrystalline silicon high-efficient solar battery sheet that the utility model preferentially selects for use U.S. Sunpower company to produce, the photoelectric transformation efficiency of this solar battery sheet are up to 23%, and employing back electrode electrical connection design, can significantly improve charge efficiency.Integrated circuit 3 comprises control processor 31, oscillating circuit 32, holding circuit 33 and testing circuit 34, is mainly used in control solar panel 2 opto-electronic conversion to the charging of charged lithium cells 4 and the charging of 4 pairs of mobile phones 100 of charged lithium cells.On sheath body 1 corresponding to the position of mobile phone 100 charging sockets, be provided be electrically connected with rechargeable battery 4 charging output port 5.

In solar panel 2, substrate 21 is preferentially selected TPT(polyvinyl fluoride composite membrane for use) sheet material, it has good bending property; Protective clear layer 23 is the PET(PET) film, light transmittance is high; Between substrate 21 and solar module, and all adopt fixedly glue-line to fixedly connected between protective clear layer and the solar components, described fixedly glue-line is the copolymer of EVA(ethene and vinyl acetate) fixing glue-line.

Claims

1. high-efficiency solar mobile phone electric power storage charging sheath, it is characterized in that: comprise sheath body (1), sheath body (1) is provided with the hole position corresponding with mobile phone key and jack; Solar panel (2), described solar panel comprises the high performance solar batteries assembly, cover is embedded in the back side of sheath body (1), is electric energy with conversion of solar energy; Integrated circuit (3), described integrated circuit (3) is integrated control processor (31), oscillating circuit (32), holding circuit (33) and testing circuit (34), after the electric energy of solar panel (2) regulated by vibration, provide the electric energy output of constant pressure and flow; Rechargeable battery (4), described rechargeable battery (4) are electrically connected to integrated circuit (3) storage of electrical energy; And cell-phone charging port (5), described cell-phone charging port (5) is electrically connected with rechargeable battery (4), is arranged on the position of sheath body (1) corresponding to the cell-phone charging socket.

2. high-efficiency solar mobile phone electric power storage charging sheath according to claim 1, it is characterized in that the positive position corresponding to cell-phone charging port (5) of described sheath body (1) is provided with a cavity, integrated circuit is installed in the cavity, its top is provided with a deckboard (11), and sheath body (1) backplate face is provided with groove position (12).

3. high-efficiency solar mobile phone electric power storage charging sheath according to claim 2 is characterized in that described solar panel (2) cover is embedded on the groove position (12) of sheath body (1) backplate face.

4. high-efficiency solar mobile phone electric power storage charging sheath according to claim 1 is characterized in that described rechargeable battery (5) is the high power capacity lithium battery, and rechargeable battery (5) is tabular, is installed in the groove position (12) at solar panel (2) rear.

5. high-efficiency solar panel computer charging sheath according to claim 1 is characterized in that described solar panel (2) comprises PCB substrate (21), and this PCB substrate (21) is used to carry the high-efficiency solar assembly; High-efficiency solar assembly (22) forms tabular high-efficiency solar assembly by some can going up at PCB substrate (21) along the efficient monocrystaline silicon solar cell sheet both positive and negative polarity back of the body contact Series Package of arc-shaped bend; Protective clear layer (23) is used to encapsulate high-efficiency solar assembly (22).

6. high-efficiency solar panel computer electric power storage charging sheath according to claim 5 is characterized in that described solar panel (2) connects the formula solar panel for the back of the body.

7. high-efficiency solar panel computer charging sheath according to claim 5 is characterized in that described protective clear layer (23) is selected from one of PET, ETFE, PVDF, transparent TPT or ultra-thin glass.

8. high-efficiency solar panel computer charging sheath according to claim 7 is characterized in that described PCB substrate (21) is flexible PCB substrate.