CN201054516Y - Power supply device without plugging in electricity - Google Patents

Abstract

The utility model provides a power supply device without power plug-in for supply electric power to a wireless computer peripheral equipment. The wireless computer peripheral device comprises a first electromagnetic induction component. The power supply comprises a base, a solar cell module, a second electromagnetic induction module and a control circuit. The second electromagnetic induction component is controlled to generate a variable magnetic field. When the wireless computer peripheral device operates on a flat surface of the base, the first electromagnetic induction component is inductively coupled to the second electromagnetic induction component and receives the power caused by the varying magnetic field.

Description

unplugged power supply

technical field

The utility model relates to an unplugged power supply, in particular to an unplugged power supply for supplying electric power to a wireless computer peripheral device.

Background technique

In the prior art, the wireless mouse can be divided into the following two categories according to the source of power supply: one is to install a dry battery inside the mouse; the other is to install a rechargeable battery inside the mouse. Place the mouse on the charging stand for charging.

However, if a dry battery is installed inside the mouse, the user must often replace the dry battery when the battery power is insufficient, causing inconvenience in use. If the mouse is powered by a rechargeable battery, a metal contact piece is provided on the surface of the mouse for charging by contacting the metal contact piece on the charging stand. However, if the mouse is not properly placed on the charging stand, the charging process may be interrupted due to poor contact. In addition, the metal contact sheet is prone to dirt on the surface after long-term use, which greatly reduces the charging effect.

Therefore, the main purpose of the present invention is to provide an unplugged power supply to solve the above problems.

Utility model content

An object of the present invention is to provide an unplugged power supply for supplying power to a wireless computer peripheral device. The wireless computer peripheral device includes a first electromagnetic induction component. In a specific embodiment according to the present invention, the unplugged power supply includes a base, a solar cell component, a second electromagnetic induction component and a control circuit.

The base body has a flat surface. The solar cell assembly is installed on the base body to collect solar energy and convert the solar energy into electrical energy. The second electromagnetic induction component is arranged in the seat. The control circuit is arranged in the seat and is electrically connected to the solar battery component and the second electromagnetic induction component respectively. The control circuit is used to control the second electromagnetic induction component to generate a variable magnetic field. When the wireless computer peripheral device operates on the flat surface of the base, the first electromagnetic induction component is inductively coupled to the second electromagnetic induction component and receives the power generated by the changing magnetic field.

Compared with the prior art, the unplugged power supply according to the present invention can absorb solar energy through the solar cell assembly, and use electromagnetic induction effect to provide power to the wireless computer peripheral equipment. Therefore, the unplugged power supply according to the present invention can effectively achieve the purpose of saving energy and make users more convenient to use.

The advantages and spirit of the present utility model can be further understood through the following detailed description of the utility model and accompanying drawings.

Description of drawings

FIG. 1 shows a functional block diagram of an unplugged power supply and a wireless computer peripheral device according to a preferred embodiment of the present invention.

FIG. 2 shows a schematic diagram of implementing the unplugged power supply and the wireless computer peripheral device into a mouse pad and a wireless mouse respectively according to the present invention.

Fig. 3 shows a functional block diagram of the practical application of the unplugged power supply and the wireless computer peripheral device according to the present invention.

Description of reference symbols

1: Power supply unit 2: Wireless computer peripherals

10: Solar cell module 12: Control circuit

14: Second electromagnetic induction component 16: Solar energy

20: The first electromagnetic induction component 22: Conversion circuit

24: Rechargeable battery 100: Flat surface

Detailed ways

Please refer to Figure 1. FIG. 1 shows a functional block diagram of an unplugged power supply 1 and a wireless computer peripheral device 2 according to a preferred embodiment of the present invention. As shown in FIG. 1 , the wireless computer peripheral device 2 includes a first electromagnetic induction component 20 . The unplugged power supply 1 includes a base (not shown in FIG. 1 ), a solar cell component 10 , a control circuit 12 and a second electromagnetic induction component 14 .

In practical applications, the wireless computer peripheral device 2 may be a computer mouse, a joystick, or a keyboard. As shown in FIG. 2 , the power supply 1 and the wireless computer peripheral device 2 in this embodiment can be implemented as a mouse pad and a wireless mouse respectively. The mouse pad itself can be the base and has a flat surface 100 .

In practical applications, the solar cell assembly 10 can be installed on the base body, and used to collect a solar energy 16 and convert the solar energy 16 into electrical energy. As shown in FIG. 2 , the second electromagnetic induction component 14 can be disposed in the base and arranged around the base. The control circuit 12 can be disposed in the seat and electrically connected to the solar cell component 10 and the second electromagnetic induction component 14 respectively.

After the solar cell assembly 10 converts the solar energy 16 into electrical energy, the control circuit 12 can convert the electrical energy into a pulse width modulation (PWM) signal, and then output the pulse width modulation signal to the second electromagnetic induction component 14 to control The second electromagnetic induction component 14 further generates a varying magnetic field. In a specific embodiment, the arrangement of the second electromagnetic induction component 14 can cause a magnetic field direction of the varying magnetic field to be parallel to a normal direction of the flat surface 100 of the base body.

Thereby, when the wireless computer peripheral device 2 operates on the flat surface 100 of the base body, the first electromagnetic induction component 20 can be inductively coupled to the second electromagnetic induction component 14 and receive the changing magnetic field The electricity generated.

In practical application, the second electromagnetic induction component 14 can be a Hall effect component, and the first electromagnetic induction component 20 can be another corresponding Hall effect component.

In a specific embodiment, the first electromagnetic induction component 20 may be a first coil component, and the second electromagnetic induction component 14 may be a corresponding second coil component. When the PWM signal is output from the control circuit 12 to the second coil assembly, the second coil assembly can generate the varying magnetic field corresponding to the PWM signal. Therefore, when the wireless computer peripheral device 2 operates on the flat surface 100 of the base body, based on the principle of electromagnetic induction, the first coil assembly can be inductively coupled to the second coil assembly and receive the changing This electricity is generated by the magnetic field.

In practical applications, as shown in FIG. 3 , the wireless computer peripheral device 2 may further include a conversion circuit 22 and a rechargeable battery 24 . The conversion circuit 22 can be an AC-DC conversion circuit 22 electrically connected to the first electromagnetic induction component 20 and used for converting the power into a DC current. The rechargeable battery 24 can be electrically connected to the conversion circuit 22 , and the rechargeable battery 24 is charged by the conversion circuit 22 with the direct current.

Compared with the prior art, the unplugged power supply according to the present invention can absorb solar energy through the solar cell assembly, and use electromagnetic induction effect to provide power to the wireless computer peripheral equipment. Therefore, the unplugged power supply according to the present invention can effectively achieve the purpose of saving energy and make users more convenient to use.

Through the above detailed description of the preferred embodiments, it is hoped that the features and spirit of the present utility model can be described more clearly, and the scope of the present utility model is not limited by the preferred embodiments disclosed above. On the contrary, the intention is to cover various changes and equivalent arrangements within the scope of the claims of the present invention. Therefore, the scope of the claims of the present utility model should be interpreted in the broadest way based on the above description, so as to cover all possible changes and arrangements with equivalents.

Claims (10)

1. An unplugged power supply, which is used to supply power to a wireless computer peripheral device, the wireless computer peripheral device includes a first electromagnetic induction component, characterized in that the unplugged The power supply includes: a base having a flat surface; A solar cell component, the solar cell component is arranged on the base body, the solar cell component is used to collect a solar energy and convert the solar energy into an electric energy; a second electromagnetic induction component, the second electromagnetic induction component is arranged in the seat; and A control circuit, the control circuit is arranged in the base body, the control circuit is electrically connected to the solar cell component and the second electromagnetic induction component, and the control circuit is used to control the second electromagnetic induction component to generate a changing magnetic field ; Wherein when the wireless computer peripheral device operates on the flat surface of the base body, the first electromagnetic induction component is inductively coupled to the second electromagnetic induction component and receives the power induced by the changing magnetic field. 2. The unplugged power supply according to claim 1, wherein the control circuit converts the electric energy into a pulse width modulation signal, and outputs the pulse width modulation signal to the second electromagnetic induction component, Furthermore, this fluctuating magnetic field is generated. 3. The unplugged power supply as claimed in claim 1, wherein the second electromagnetic induction element is a Hall effect element. 4. The unplugged power supply as claimed in claim 3, wherein the first electromagnetic induction element is another Hall effect element. 5. The unplugged power supply as claimed in claim 1, wherein the second electromagnetic induction component is a coil component. 6. The unplugged power supply as claimed in claim 5, wherein the first electromagnetic induction component is another coil component. 7. The unplugged power supply as claimed in claim 1, wherein the second electromagnetic induction component is arranged such that a magnetic field direction of the varying magnetic field is parallel to a normal direction of the flat surface. 8. The unplugged power supply according to claim 1, wherein the wireless computer peripheral device further comprises a conversion circuit, the conversion circuit is electrically connected to the first electromagnetic induction component, and the conversion circuit To convert the power into a DC current. 9. The unplugged power supply according to claim 8, wherein the wireless computer peripheral device further comprises a rechargeable battery, the rechargeable battery is electrically connected to the conversion circuit, and the conversion A circuit charges the rechargeable battery with the direct current. 10. The unplugged power supply of claim 1, wherein the wireless computer peripheral device is selected from a group consisting of a computer mouse, a joystick, and a keyboard .

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