WO2014089915A1 - Solar mobile phone charging jacket - Google Patents

Abstract

A solar mobile phone charging jacket comprises a jacket body (1), a solar cell panel (2), an integrated circuit (3), and a mobile phone charging port (5). The solar cell panel (2) is embedded on the jacket body (1) for converting solar energy into electric energy, and uses the integrated circuit (3) to regulate a voltage and stabilize a current, so as to charge a mobile phone sleeved on the jacket body (1). The solar mobile phone charging jacket has high charging efficiency, and can fully charge the mobile phone within a short period; and because a back electrode connection technology is used, the appearance is attractive and elegant. In addition, a high-efficient bent solar cell is combined on the mobile phone jacket to both protect the mobile phone case from being scratched and provide continuous power supply for the mobile phone, thereby ensuring long standby time and long time use of the mobile phone.

Description

 Solar mobile phone charging jacket

 The utility model relates to a mobile phone charging sheath, in particular to a solar energy charging sheath capable of charging a mobile phone by using solar energy.

Background technique

 At present, mobile phones, especially smart phones, are deeply loved by people for their intelligence and entertainment, and become the new favorite of mobile communication. In order to protect the delicate outer casing of the smart phone, the jacket with the mobile phone came into being. The prior art mobile phone sheath includes a sheath body, and the sheath body can be attached to the outer casing of the mobile phone to protect the outer casing of the mobile phone from being scratched by hard objects. This kind of sheath function is relatively simple and can't meet people's long-term entertainment needs. For this reason, people began to install rechargeable batteries on the sheath body, thus extending the standby and use time of the mobile phone. However, even with the rechargeable battery, the standby and usage time of the mobile phone is still quite limited, and it is still unsatisfactory for users who are traveling for a long time or traveling.

 Therefore, how to quickly and continuously obtain power has always been a problem faced by people.

Utility model content

 The purpose of the utility model is to overcome the deficiencies of the prior art, and to provide a mobile phone charging jacket that uses a solar battery to charge a mobile phone and provides a continuous source of power for outdoor users.

 In order to achieve the above object, the utility model adopts the following technical solutions:

A solar mobile phone charging jacket, including

 Sheath body

 a solar panel, the solar panel is embedded in the back of the sheath body to convert solar energy into electrical energy; the integrated circuit, the integrated circuit integrates a control processor, an oscillating circuit, a protection circuit, and a detection circuit, and the solar panel After the electric energy is adjusted by the oscillation, the electric energy output of the constant voltage constant current is provided;

 The mobile phone charging port is disposed at a position corresponding to the charging socket of the mobile phone.

 The front surface of the sheath body is provided with a cavity corresponding to the charging port of the mobile phone. The integrated circuit is installed in the cavity, and a decorative cover plate is disposed on the front surface of the sheath body. The back surface of the sheath body is provided with a slot.

 The solar panel is sleeved in a slot of the body of the sheath body.

 The solar panel includes:

 a PCB substrate for carrying a high efficiency solar module;

High-efficiency solar module, which is formed by a plurality of high-efficiency solar cells that can be curved along a curved shape, and a positive and negative electrode back contact is serially packaged on a PCB substrate to form a plate-shaped high-efficiency solar module; Transparent protective layer for packaging high efficiency solar modules.

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

 The PCB substrate is a flexible PCB substrate.

 Due to the above structure, the high-efficiency solar mobile phone charging and charging sheath of the utility model has high charging efficiency and can be fully charged in a short time; and the back electrode connection technology is adopted, and the appearance is beautiful and generous. In addition, the high-flexible solar cell is combined with the mobile phone case to protect the phone case from scratches. At the same time, the high-efficiency solar panel provides a continuous power supply for the phone, ensuring long-term standby and use of the phone.

DRAWINGS

Figure 1 is a schematic view of the structure of the present invention;

Figure 2 is a schematic view of the back structure of the present invention;

Figure 3 is an exploded view of the back structure of the present invention;

Figure 4 is an exploded view of the front structure of the present invention;

Figure 5 is a schematic structural view of the utility model after installing the mobile phone;

Figure 6 is a circuit block diagram of the utility model;

7 is a schematic structural view of a solar panel of the present invention.

detailed description

 The present invention will be further described in detail in conjunction with the drawings and specific embodiments.

As shown in FIG. 1 to FIG. 7 , a solar mobile phone charging jacket includes a sheath body 1 , a solar panel 2 , an integrated circuit 3 , and a charging output port 5 , and a front surface of the sheath body 1 corresponds to a position of the charging port of the mobile phone. The cavity, the integrated circuit 3 is mounted in the cavity, and a decorative cover 11 is disposed on the upper surface of the cover body 1. The rear surface of the sheath body 1 is provided with a slot 12. The solar panel 2 is a high-efficiency solar panel, and is mainly composed of a PCB substrate 21, a high-efficiency solar module 22, and a transparent protective layer 23. The substrate 21 can be curved and curved for back connection to carry the solar module 22; the solar module 22 is formed by a plurality of high-efficiency solar cells that are curved along the curved shape to form a plate-like solar module 22, and the solar module 22 is fixed on the PCB. On the substrate 21, a transparent protective layer 23 is fixedly covering the surface of the solar component 22 for encapsulating the solar component 22, and the material thereof is selected from one of PET, ETFE, PVDF, transparent TPT or ultra-thin glass. The utility model preferentially selects a monocrystalline silicon high-efficiency solar cell produced by the American Simpower Company, and the solar cell has a photoelectric conversion efficiency of up to 23%, and adopts a back electrode type electrical connection design, which can greatly improve the charging efficiency. The integrated circuit 3 includes a control processor 31, an oscillating circuit 32, a protection circuit 33, and a detection circuit 34, and is mainly used for controlling charging of the rechargeable lithium battery 4 by photoelectric conversion of the solar panel 2 and charging of the mobile phone 100 by the rechargeable lithium battery 4. A charging output port 5 is provided on the sheath body 1 at a position corresponding to the charging socket of the mobile phone 100. In the solar panel 2, the PCB substrate 21 is preferably a TPT (polyvinyl fluoride composite film) sheet having good bending properties; the transparent protective layer 23 is a PET (polyethylene terephthalate) film, and the light transmittance is Extremely high; between the substrate 21 and the solar cell module, and between the transparent protective layer and the solar module, a fixed adhesive layer is fixedly connected, and the fixing adhesive layer is EVA (copolymer of ethylene and vinyl acetate) fixing adhesive Floor.

Claims

Rights request

 1. A high-efficiency solar mobile phone charging sheath, comprising: a sheath body (1), the sheath body (1) is provided with a hole corresponding to a button and a jack of the mobile phone; a solar panel (2), The solar panel comprises a high efficiency solar module embedded in the back of the sheath body (1) to convert solar energy into electrical energy; an integrated circuit (3), the integrated circuit

(3) Integrating a control processor (31), an oscillating circuit (32), a protection circuit (33), and a detecting circuit (34) to provide constant voltage and constant current after adjusting the electric energy of the solar panel (2) by oscillating The power output; the mobile phone charging port (5), the mobile phone charging port (5) is disposed at a position corresponding to the charging socket of the mobile phone (1).

 2. The solar cell phone charging jacket according to claim 1, wherein the front surface of the sheath body (1) is provided with a cavity corresponding to the position of the charging port (5) of the mobile phone, and the integrated circuit is installed in the cavity. , with a decorative cover above it

(11), sheath body (1) There is a slot (12) on the back panel.

 3. The solar cell phone charging jacket according to claim 2, wherein the solar panel (2) is embedded in a slot (12) of the back panel surface of the sheath body (1).

 4. The high efficiency solar panel charging jacket of claim 1, wherein the solar panel (2) comprises a PCB substrate (21) for carrying high efficiency solar modules; Solar modules

(22), a plurality of single-crystal silicon high-efficiency solar cells that can be curved along an arc, a positive and negative electrode back contact series packaged on a PCB substrate (21) to form a plate-shaped high-efficiency solar module; a transparent protective layer (23) for packaging High efficiency solar modules (22).

 5. The high efficiency solar panel charging jacket of claim 4, wherein the solar panel (2) is a back-mounted solar panel.

 6. The high efficiency solar panel charging jacket of claim 4, wherein said transparent protective layer

(23) From one of PET, ETFE, PVDF, transparent TPT or ultra-thin glass.

 7. The high efficiency solar panel charging jacket of claim 6, wherein the PCB substrate (21) is a flexible PCB substrate.