KR100845814B1 - Manual charging wireless optical mouse - Google Patents

Abstract

The present invention relates to a passive charging wireless mouse. Wireless mouse according to an embodiment of the present invention AC power generation unit for converting a magnetic force into an electric force; A rectifier for rectifying the alternating current generated by the alternating current generator into direct current; And a charging unit charged by a direct current supplied from the rectifying unit. Wireless mouse of the present invention has the advantage that can be easily performed by applying a passive force without a separate charging device.

Wireless mouse, charging

Description

Manual Charging Wireless Optical Mouse {MANUAL CHARGING WIRELESS OPTICAL MOUSE}

1 is a cross-sectional view showing a conventional wireless optical mouse.

2 is a block diagram showing the configuration of a wireless optical mouse according to an embodiment of the present invention.

3 is an exploded perspective view showing a wireless optical mouse according to an embodiment of the present invention.

4 is an exploded perspective view showing a wireless optical mouse according to another embodiment of the present invention.

5 is an exploded perspective view showing a wireless optical mouse according to another embodiment of the present invention.

The present invention relates to a passive charging wireless mouse.

In general, the mouse contacts the ground or the mouse pad, detects when the user moves the mouse, transmits a signal to move the cursor of the computer, and inputs a signal to the computer through a push button member provided in the mouse. Are independent input means.

Among these mice, in order to improve the efficiency of the work space, there is a wireless mouse which removes a connection cable with a computer and transmits a displacement signal according to the movement of the mouse body to the computer as a predetermined wireless signal.

1 is a cross-sectional view showing a conventional wireless mouse.

Referring to FIG. 1, the conventional wireless mouse 100 includes an opening and closing unit 110 and a battery 120.

The opening and closing unit 110 is a means for sealing an area in which the battery 120 is inserted, and the battery 120 is a means for supplying power required for the wireless mouse 100 to operate.

Generally, batteries that can be inserted into a wireless mouse include alkaline batteries, lithium-ion (Li-Ion) batteries, and nickel-hydrogen batteries (Ni-MH).

Alkaline batteries are primary batteries, which cannot be reused when discharged. Therefore, wireless mouse users have to spend additional money to purchase alkaline batteries compared to using wired mice. In addition, alkaline batteries that are discarded after one use may cause environmental pollution, and may cause industrial waste.

Li-ion batteries and nickel-hydrogen batteries (Ni-MH) are secondary batteries that can be reused by charging through a charger. However, when the secondary battery is used, additional charges are required because a separate charger, a charging cable, and a connector need to be purchased separately for charging.

In addition, in the conventional wireless mouse, when the above-mentioned charging device is not in the vicinity, it cannot be charged, which is inconvenient to perform the work.

An object of the present invention is to provide a passive charging wireless mouse that can charge the wireless mouse by applying a passive force, without having a separate charging device.

In order to achieve the object as described above, the wireless mouse according to an embodiment of the present invention includes an AC power generation unit for converting a magnetic force into an electric force; A rectifier for rectifying the alternating current generated by the alternating current generator into direct current; And a charging unit charged by a direct current supplied from the rectifying unit.

In one aspect of the invention, the alternating current generation unit handle for transmitting a rotational force; A permanent magnet coupled to one end of the handle to cause rotation; An electromotive force inductor for converting a change in magnetic flux according to the rotation of the permanent magnet into electromotive force; And a stator winding that accumulates or multiplies the current generated by the electromotive force inductor.

In another aspect of the invention, the alternating current generation portion is a permanent magnet for linear motion; A path guide tube for guiding a moving direction of the permanent magnet; And an inductor disposed in a shape of winding the path induction pipe.

Wireless mouse of the present invention has the advantage that can be easily performed by applying a passive force without a separate charging device.

Hereinafter, exemplary embodiments of a wireless optical mouse according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing the configuration of a wireless optical mouse according to an embodiment of the present invention.

Referring to FIG. 2, the wireless optical mouse 200 of the present invention includes a controller 210, an AC generator 220, a rectifier 230, and a charger 240. Preferably, the display unit 250 further includes.

The controller 250 controls the operations of the AC generator 220, the rectifier 230, the charger 240, and the display 250.

The AC power generation unit 220 converts the magnetic force into an electric force. The AC generator 220 operates by a manual force applied by the user to the wireless optical mouse 200.

The rectifier 230 rectifies the AC generated by the AC power generator 220 to DC.

In order to charge a battery charger or the like, a direct current component controlled by a constant voltage is usually applied, and current due to the difference between the applied voltage and the battery internal voltage flows to supply electrons.

The rectifier 230 is a means for converting alternating current into direct current to assist charging.

The process of converting AC to DC goes through a multi-step process. First, the AC voltage is lowered by a predetermined level by using a decompression circuit of the decompression transformer.

Subsequently, the AC power supply having the low voltage is filtered to the pulse current in which only a positive voltage exists in the rectifier circuit. A pulse current is a current with only a positive voltage, and is a current that is not stable and does not form a full direct current.

Subsequently, the pulse is filtered through the diode.

Subsequently, the pulse flow is converted into direct current using a smoothing circuit including a capacitor and an inductor.

The smoothing circuit plays a role in maintaining a constant voltage to the pulsed voltage changes. That is, the high voltage is lowered and the low voltage is increased to maintain a constant voltage.

Subsequently, a constant voltage circuit including a diode, a transistor, or the like is used to convert to a complete direct current.

The charging unit 240 is charged by a direct current supplied from the rectifying unit 230. The charging unit 240 may be configured as a storage battery that converts electrical energy into chemical energy and stores the same.

The display unit 250 displays the charging state of the wireless optical mouse 200 to the outside.

The display unit 250 is connected to the charging unit 240 to detect the amount of charge stored in the charging unit 240.

Subsequently, the detected charge amount is displayed to the outside through means such as a symbol or light emission, which is easy to identify by the user.

In one embodiment of the present invention, the display unit 250 is composed of a liquid crystal display, a small lamp or a light emitting diode.

3 is an exploded perspective view showing a wireless optical mouse according to an embodiment of the present invention.

Referring to FIG. 3, the optical mouse 200 of the present invention includes a first substrate 202, a second substrate 204, and an AC generator 220.

On the first substrate 202, a wheel 260, which is a means for inputting a signal, and a display unit 250 for displaying the charging state of the wireless optical mouse 200 to the outside are disposed.

The AC generator 220 includes a handle 222, a permanent magnet 224, an electromotive force inductor 226, and a stator winding 228.

The handle 222 is a means for the user to rotate by applying a manual force, one end 222a of the handle 222 is coupled to one surface of the permanent magnet 224.

Accordingly, the rotational force applied by the user is transmitted to the permanent magnet 224 through the handle 222, so that the permanent magnet 224 can rotate.

As the permanent magnet 224 rotates, a change in the density of the lines of magnetic force, that is, the magnetic flux, occurs in the magnetic field.

The electromotive force inductor 226 converts a change in magnetic flux according to the rotation of the permanent magnet 224 into electromotive force.

Stator winding 228 accumulates or multiplies the current generated by electromotive force inductor 226.

The connecting lines 228a and 228b are means for transmitting the current flowing through the stator winding 228 to the rectifier 230.

The second substrate 204 includes a printed circuit board (not shown) and couples with the first substrate 202. The printed circuit board includes circuits serving as the rectifier 230.

In some regions of the second substrate 204, openings 206 are formed to couple the handle 222 and the permanent magnet 224.

4 is an exploded perspective view showing a wireless optical mouse according to another embodiment of the present invention.

Referring to FIG. 4, the wireless optical mouse 400 of the present invention includes a first substrate 402, a second substrate 404, and an AC generator 420.

The alternator 420 includes a permanent magnet 424, an electromotive force inductor 426, a stator winding 428, and a wheel 460.

The wheel 460 of the present invention further has a function of transmitting rotational force to the permanent magnet 424 as well as the conventional function of rotating or clicking to input a signal.

That is, when the user rotates the wheel 460 while the permanent magnet 424 is coupled to one end of the wheel 460, the permanent magnet 424 rotates to induce electromotive force.

Since the functions and operations of the permanent magnet 424, the electromotive force inductor 426, the stator winding 428 and the connecting lines 428a and 428b are as described with reference to Figure 3, the description thereof will be omitted.

5 is an exploded perspective view showing a wireless optical mouse according to another embodiment of the present invention.

Referring to FIG. 5, the wireless optical mouse 500 of the present invention includes a first substrate 502, a second substrate 504, and an AC generator 520.

The AC generator 520 includes a permanent magnet 524, a path induction pipe 526, and an inductor 528.

The permanent magnet 524 is disposed in the path guide tube 526, and when the user grabs and shakes the optical mouse 500, in the path guide tube 526, a linear motion is generated.

The path guide pipe 526 guides the direction of movement of the permanent magnet 524, and a cushioning material may be coated on the inner wall for the purpose of mitigating a shock applied by the permanent magnet 524.

The inductor 528 is disposed in a shape of winding the path induction pipe 526. The inductor 528 has a shape having a plurality of closed curve conductors.

When the permanent magnet 524 causes linear motion, it is diverged from the N pole or the S pole of the permanent magnet 524, and the density of the magnetic force lines passing through the inductor 528 changes.

Accordingly, induced electromotive force is generated in the inductor 528, and the induced current flows.

The induced current is transferred to the rectifying unit 230 disposed on the second substrate 504 along the connecting lines 528a and 528b and used to charge the charging unit 240.

Preferred embodiments of the present invention described above are disclosed for purposes of illustration, and those skilled in the art having ordinary knowledge of the present invention will be able to make various modifications, changes, additions within the spirit and scope of the present invention, such modifications, changes and Additions should be considered to be within the scope of the following claims.

The wireless optical mouse of the present invention has an advantage of easily charging by applying a passive force without a separate charging device.

Claims (8)

AC power generation unit for converting a magnetic force into an electric force; A rectifier for rectifying the alternating current generated by the alternating current generator into direct current; And It includes a charging unit that is charged by the direct current supplied from the rectifying unit, The AC power generation unit, A handle that transmits rotational force; A permanent magnet coupled to one end of the handle to cause rotation; An electromotive force inductor for converting a change in magnetic flux according to the rotation of the permanent magnet into electromotive force; And And a stator winding that accumulates or multiplies the current generated by the electromotive force inductor. delete The wireless optical mouse of claim 1, wherein the handle is a wheel. delete The wireless optical mouse according to claim 1, wherein the rectifier includes a smoothing circuit and a constant voltage circuit. The wireless optical mouse of claim 1, wherein the charging unit comprises a storage battery that converts electrical energy into chemical energy and stores the same. The method of claim 1, wherein the wireless optical mouse, The wireless optical mouse further comprises a display unit for displaying the state of charge of the wireless optical mouse to the outside. The wireless optical mouse of claim 7, wherein the display unit comprises a liquid crystal display, a small lamp, or a light emitting diode.

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