WO2011088668A1 - Solar charger - Google Patents

Abstract

A solar charger includes a charger housing (1) mated with the body of a portable device, a solar battery board (2), a solar charge control circuit (3) and output interfaces (5). The solar battery board (2) is located on the surface of the charger housing (1). The solar charge control circuit (3) is connected with the solar battery board (2), and the output interfaces (5) are located on the solar charge control circuit (3). When the solar charger is mated together with the portable device, the output interfaces (5) are contacted with electric energy input interfaces on the portable device or electrodes on the exposed surface of a chargeable battery. The solar charger can be installed integrally with the portable device and has no influence on the portability of the portable device.

Description

 Solar charger

Technical field

 The present invention relates to a charger, and more particularly to a solar charger. Background technique

 With the rapid development and popularization of electronic technology, electronic products have begun to develop in a portable and lightweight manner. Most of the portable and lightweight electronic products and devices are battery-powered, and the range of reusable rechargeable batteries is becoming wider and wider. Among various methods of charging rechargeable batteries, solar chargers that use energy-saving and environmentally-friendly new energy sources are attracting more and more attention from manufacturers and users.

 At present, most of the solar chargers are external, connected to portable devices through the interface to charge the rechargeable battery. The disadvantage of this method is that the user needs to carry an external charger device with him, which makes the portable product less "Portable". Some solar chargers are also integrated with the portable device, but the portable device needs to be placed in daylight during charging, so it is not convenient for the user to use during charging. Summary of the invention

 The technical problem to be solved by the present invention is to provide a solar charger to solve the defect that affects the normal use of the portable device during charging using the solar charger.

 To solve the above problems, the present invention provides a solar charger including:

 a charger housing, a solar panel, a solar charging control circuit, and an output interface that cooperate with the portable device body;

 The solar panel is located on the surface of the charger housing; the solar charging control circuit is connected to the solar panel; the output interface is located on the solar charging control circuit; and the output interface is set as: The solar charger, when mated with the portable device, is in contact with a power input interface on the portable device.

The above solar charger can also have the following features: The charger housing is provided with a buckle, and the position of the buckle corresponds to the position of the card slot on the portable device that matches the buckle on the battery back cover.

 The above solar charger can also have the following features:

 The output interface is made of an elastic material.

 The above solar charger can also have the following features:

 A transparent protective body is attached to the solar panel.

 The invention also provides another solar charger, comprising:

 a charger housing, a solar panel, a solar charging control circuit, and an output interface that cooperate with the portable device body;

 The solar panel is located on the surface of the charger housing; the solar charging control circuit is connected to the solar panel; the output interface is located on the solar charging control circuit; and the output interface is set as: The solar charger, when mated with the portable device, is in contact with an electrode on an exposed surface of the rechargeable battery on the portable device.

 The above solar charger can also have the following features:

 The charger housing is provided with a buckle, and the position of the buckle corresponds to the position of the card slot on the portable device that matches the buckle on the battery back cover.

 The above solar charger may further include:

 a battery container mated with the charger housing, the battery container including a housing, a fixing unit and a card slot;

 The fixing unit is configured to: fix a rechargeable battery; a position on the battery container is an electrode of the fixed rechargeable battery and the output interface when the battery container is used with the charger housing Contact

 The card slot of the battery container is configured such that the position on the battery container corresponds to the position of the buckle on the charger housing.

 The above solar charger can also have the following features:

 The fixing unit is a groove type structure.

The above solar charger can also have the following features: The output interface is made of an elastic material.

 The above solar charger can also have the following features:

 A transparent protective body is attached to the solar panel. The invention solves the charging problem of the portable device without the AC power by using the energy-saving and environmentally-friendly solar energy; since it can be installed integrally with the portable device, it does not affect the portability of the original portable device; The charger can be used with the battery container to charge the rechargeable battery separately, so it can be charged without affecting the use of the portable device. It has considerable practical value for both home and travel. BRIEF abstract

 1 is a front view and a side view of a solar charger structure according to an embodiment of the present invention; FIG. 2 is a rear view and a side view of the portable device according to an embodiment of the present invention;

 3 is a structural view of a portable device in combination with a solar charger according to an embodiment of the present invention; FIG. 4 is a rear view and a side view of another portable device according to an embodiment of the present invention;

 FIG. 5 is a structural diagram of another portable device in combination with a solar charger according to an embodiment of the present invention; FIG.

 Figure 6 is a rear view and a side view of the battery container in the embodiment of the present invention;

 FIG. 7 is a structural diagram of a battery container used in conjunction with a solar charger in an embodiment of the present invention. Preferred embodiment of the invention

 The technical solution of the present invention will be described in more detail below with reference to the accompanying drawings and embodiments. To achieve the above object, as shown in FIG. 1, the solar charger of the present invention includes a charger housing 1, a solar panel 2, a solar charging control circuit 3, and an output interface 5 that can be coupled to the body of the portable device.

The solar panel 2 is located on the surface of the charger housing 1 and may be encapsulated with a transparent material to protect the solar panel 2. Solar charging control circuit 3 passes through wire 4 or any other current The guiding element is connected to the solar panel 2, and an output interface 5 is disposed thereon. When the solar charger is coupled with the portable device, the output interface 5 should be connected with the power input interface of the portable device or the exposed surface of the rechargeable battery. The upper electrodes are in contact. In addition, the output interface can be made of elastic material to ensure good contact performance.

 After the solar panel 2 converts the received solar energy into electrical energy, it is sent to the solar charging control circuit 3, and the solar charging control circuit 3 converts the electrical energy into electrical energy suitable for use by the portable device and transmits it through the output interface 5 thereon. To the power input interface on the portable device in contact with the interface or the electrode on the exposed surface of the rechargeable battery.

 Generally, in the portable device, the battery back cover is usually fixed on the portable device by using a structure of a buckle or a card slot, that is, a buckle is arranged on the back cover, and a card slot is provided at a corresponding position of the portable device, and the back cover is needed when needed. When fixing, insert the buckle into the slot at the corresponding position. Therefore, in order to use the charger housing 1 in cooperation with the portable device, the buckle 6 can be provided on the charger housing 1, and the position of the buckle 6 corresponds to the position of the card slot on the portable device.

 When the solar charger charges the rechargeable battery through the portable device (ie, when the solar charger is mated with the portable device, the output interface 5 is in contact with the power input interface on the portable device), the structure of the portable device is as shown in FIG. 2, The utility model comprises: a portable device casing 7, a rechargeable battery 8, a power input interface 9 and a card slot 11. Typically, one side of the rechargeable battery 8 is provided with electrodes that are in contact with electrodes on a contact surface on the portable device to power the portable device or to receive electrical energy from the portable device. In the present invention, the power input interface 9 can be connected to the above-mentioned contact surface via the wire 10 or any other current conducting element to transfer the power received from the output interface 5 to the rechargeable battery 8. The structure of the solar charger and the portable device is shown in Figure 3.

When the rechargeable battery is to be directly charged using the solar charger (ie, when the solar charger is mated with the portable device, the output interface 5 is in direct contact with the electrode on the exposed surface of the rechargeable battery), the back cover of the portable device needs to be taken. Next, the solar charger is mounted on the portable device. At this time, the structure of the portable device is as shown in FIG. 4, and includes: a portable device casing 7, a rechargeable battery 8, and a card slot 11. The rechargeable battery 8 is provided with an electrode 12 in addition to an electrode in contact with an electrode on a contact surface of the portable device, and an electrode 12 is further disposed on a surface parallel to the back cover of the portable device, and the electrode 12 usually includes a positive electrode and a negative electrode. Contact. As shown in FIG. 5, when the portable device and the solar charger are mated together, since the electrode 12 is in contact with the output interface 5, electrical energy can be transmitted from the solar charger side to the rechargeable battery 8 At that point, you can directly charge the rechargeable battery.

 In addition, the solar charger can also be configured with a battery container that can be mated with the housing, as shown in the figure.

As shown in Fig. 6, the battery container is provided with a casing 13, a fixing unit 14, and a card slot 15. The fixing unit 14 is for fixing a rechargeable battery, which generally adopts a structure of a recess in which a rechargeable battery is placed to fix the battery. As shown in FIG. 7, the position of the fixing unit 14 on the battery container should ensure that when the battery container is used with the charger housing 1, the electrode 12 of the fixed rechargeable battery is in contact with the output interface 5; The position of the slot 15 on the battery container corresponds to the position of the buckle 6 on the charger housing 1 to ensure that the battery container can be secured to the solar charger. Therefore, when a battery container is used in conjunction with a solar charger to charge the battery, the portable device can be configured with an additional battery to ensure normal use.

Of course, the present invention may be embodied in various other various modifications and changes without departing from the spirit and scope of the invention. Changes and modifications are intended to be included within the scope of the appended claims.

Industrial applicability

 The invention adopts the energy-saving and environmentally-friendly solar energy as the energy source, thereby solving the charging problem of the portable device without the AC power; since it can be installed integrally with the portable device, it does not affect the portability of the original portable device; The battery can be charged separately with the battery container, so that it can be charged without affecting the use of the portable device. It has considerable practical value for both home and travel.

Claims

Claim 1. A solar charger, comprising:  a charger housing, a solar panel, a solar charging control circuit, and an output interface that cooperate with the portable device body;  The solar panel is located on the surface of the charger housing; the solar charging control circuit is connected to the solar panel; the output interface is located on the solar charging control circuit; and the output interface is set as: The solar charger, when mated with the portable device, is in contact with a power input interface on the portable device.  2. The solar charger according to claim 1, wherein  The charger housing is provided with a buckle, and the position of the buckle corresponds to the position of the card slot on the portable device that matches the buckle on the battery back cover.  3. The solar charger of claim 1, wherein  The output interface is made of an elastic material.  4. The solar charger of claim 1, wherein  A transparent protective body is attached to the solar panel.  5. A solar charger, including:  a charger housing, a solar panel, a solar charging control circuit, and an output interface that cooperate with the portable device body;  The solar panel is located on the surface of the charger housing; the solar charging control circuit is connected to the solar panel; the output interface is located on the solar charging control circuit; and the output interface is set as: The solar charger, when mated with the portable device, is in contact with an electrode on an exposed surface of the rechargeable battery on the portable device.  6. The solar charger of claim 5, wherein  The charger housing is provided with a buckle, and the position of the buckle corresponds to the position of the card slot on the portable device that matches the buckle on the battery back cover. 7. The solar charger of claim 6, the solar charger further comprising: a battery container mated with the charger housing, the battery container including a housing, a fixing unit and a card slot;  The fixing unit is configured to: fix a rechargeable battery; a position on the battery container is an electrode of the fixed rechargeable battery and the output interface when the battery container is used with the charger housing Contact  The card slot of the battery container is configured such that the position on the battery container corresponds to the position of the buckle on the charger housing.  8. The solar charger of claim 7, wherein  The fixing unit is a groove type structure.  9. The solar charger of claim 5, wherein  The output interface is made of an elastic material.  10. The solar charger of claim 5, wherein  A transparent protective body is attached to the solar panel.