JP5153689B2 - Mouse pad - Google Patents

Description

  The present invention relates to a mouse pad that receives electric power transmitted in a contactless manner and can supply electric power to a mouse that operates with the electric power.

  In recent years, with the progress of the information-oriented society, information is often handled as electronic data. By handling information as electronic data in this way, information can be easily retrieved and updated. In order to handle information as electronic data, a computer is used, but in recent years, such a computer has spread not only to companies and organizations but also to general households.

  In order to operate the computer, a mouse is used in addition to a keyboard for inputting information, and the operability for the computer is remarkably improved by using the mouse. Such a mouse specifies coordinates by moving it forward, backward, left and right on the mouse pad, and is supplied with power by being connected to a keyboard or a computer main body. In recent years, a wireless mouse has also been put into practical use in order to improve the operability of the mouse. For example, it is configured to be able to accommodate a battery and is supplied with power by the accommodated battery, or has a built-in secondary battery. Some secondary batteries are charged for use.

  As a built-in secondary battery, a solar battery part is attached to the surface of the mouse, and the secondary battery is charged by the solar battery part (for example, see Patent Document 1), or a mouse connected to an external power source. Some use a pad to supply power to the mouse in a non-contact manner from the mouse pad (see, for example, Patent Document 2). With such a configuration, charging can be performed while using the wireless mouse.

JP-A-11-110130 JP 11-95922 A

  However, as described above, when the solar cell unit is attached to the surface of the mouse, the mouse is operated with the hand placed on the surface of the mouse. Has a problem that the surface of the solar cell part is covered with a hand and cannot be charged.

  In addition, in the case of charging a wireless mouse with a mouse pad connected to an external power source, the mouse pad must be connected to an external power source. Since the mouse pad that is operated is connected to an external power source, there is a problem that the operability due to the wirelessness of the mouse is reduced.

  The present invention has been made in view of the problems of the conventional techniques as described above, and supplies power to a mouse in a non-contact manner during the operation without deteriorating the operability of the mouse. An object is to provide a mouse pad that can be used.

In order to achieve the above object, the present invention provides:
A mouse pad that receives electric power transmitted in a non-contact manner and can supply electric power to a mouse operated by the electric power,
A solar cell unit that generates electricity by receiving light through the operation surface of the mouse;
Power supply means for transmitting the power generated by the solar cell unit toward the operation surface of the mouse.

  In the present invention configured as described above, when light is received through the operation surface of the mouse in the solar cell unit, the solar cell unit generates power, and the electric power generated by this power generation is supplied to the power supply means. And the electric power generated in the solar cell part is transmitted toward the operation surface of the mouse by the power supply means. The power transmitted from the power supply means is received by the mouse, and the mouse operates by this power.

  In this way, power is received by receiving light, and the electric power is transmitted to the mouse in a non-contact manner, so that the operability of the mouse does not deteriorate and power is supplied to the mouse in a non-contact manner during the operation. Will be.

  In addition, a mouse that uses a secondary battery that stores the power generated by the solar battery unit and a switch that controls the supply of power stored in the secondary battery to the power supply means is used. If the power stored in the secondary battery is not supplied to the power supply means when the mouse pad is placed on the mouse pad in a state where it is not in use, useless consumption of the power stored in the secondary battery is avoided. In addition, when the mouse is used, if the power stored in the secondary battery is not supplied to the power supply means, it is possible to avoid adverse effects on the human body due to the transmission of power from the power supply means.

  As described above, according to the present invention, a mouse pad that receives electric power transmitted in a non-contact manner and can supply electric power to a mouse operated by the electric power, and receives light through the operation surface of the mouse. And a power supply means for transmitting the electric power generated by the solar cell unit toward the operation surface of the mouse. Since power is transmitted to the mouse by contact, power can be supplied to the mouse in a non-contact manner during the operation without deteriorating the operability of the mouse.

  In addition, a mouse that uses a secondary battery that stores the power generated by the solar battery unit and a switch that controls the supply of power stored in the secondary battery to the power supply means is used. If the power stored in the secondary battery is not supplied to the power supply means when the mouse pad is placed on the mouse pad in a state where it is not in use, the wasteful consumption of the power stored in the secondary battery is avoided. In addition, if the power stored in the secondary battery is not supplied to the power supply means when the mouse is used, it is possible to avoid adversely affecting the human body due to the transmission of power from the power supply means. Can do.

It is a figure which shows one Embodiment of the mouse pad of this invention, (a) is a surface view, (b) is AA 'sectional drawing shown to (a), (c) is a figure which shows an internal structure. is there. It is a figure which shows the mouse | mouth with which electric power is supplied with the mouse pad shown in FIG. 1, (a) is an external appearance perspective view, (b) is a side view, (c) is a figure which shows an internal structure. It is a figure for demonstrating operation | movement of the mouse pad at the time of operating the mouse | mouth shown in FIG. 2 on the mouse pad shown in FIG.

  Embodiments of the present invention will be described below with reference to the drawings.

  1A and 1B are diagrams showing an embodiment of a mouse pad according to the present invention, in which FIG. 1A is a surface view, FIG. FIG.

  In this embodiment, as shown in FIG. 1, a sponge 43 in which a solar cell unit 10, a power transmission unit 20 as a power supply means, and a secondary battery 31 are sandwiched is sandwiched between two protective sheets 40a and 40b. Has been.

  The solar cell unit 10 is configured in such a manner that an iodine solution containing titanium oxide with a pigment is arranged between electrodes made of platinum on a film sheet (not shown), and divided into a plurality of cells. Thus, it is arranged around the transmission coil 21 constituting the power transmission unit 20. And it produces electric power by receiving light, such as sunlight.

  The secondary battery 31 stores the electric power generated by the solar cell unit 10.

  The power transmission unit 20 includes a power transmission circuit 22 and a transmission coil 21, and the power transmission circuit 22 supplies the power stored in the secondary battery 31 to the transmission coil 21, and the transmission coil 21 is a power transmission circuit. The power supplied from 22 is transmitted.

  Of the two protective sheets 40a and 40b, the protective sheet 40a on the operation surface side of the mouse is a transparent portion 41 made of a transparent material only in the region facing the solar cell unit 10, and the other regions are colored. The colored portion 42 is printed.

  The sponge 43 has a hole for embedding the solar cell unit 10, the power transmission unit 20, and the secondary battery 31, and the solar cell unit 10, the power transmission unit 20, and the secondary battery 31 are inserted into these holes. The solar cell unit 10 and the transmission coil 21 of the unit 10, the power transmission unit 20, and the secondary battery 31 are embedded so as to be exposed to the protective sheet 40a side.

  A switch 32 is provided at the end of the mouse pad 1. The switch 32 controls ON / OFF of the connection between the secondary battery 31 and the power transmission circuit 22, and thereby controls the supply of power stored in the secondary battery 31 to the power transmission circuit 22.

  Below, the usage method of the mouse pad 1 comprised as mentioned above is demonstrated.

  First, a mouse to which power is supplied by the mouse pad 1 shown in FIG. 1 will be described.

  2 is a view showing a mouse to which power is supplied by the mouse pad 1 shown in FIG. 1, wherein (a) is an external perspective view, (b) is a side view, and (c) is a view showing an internal structure. is there.

  As shown in FIG. 2, the mouse to which power is supplied by the mouse pad 1 shown in FIG. 1 is provided with two buttons 50a and 50b on its upper surface to be pressed when designating information on the computer. A trackball 70 for designating coordinates on the computer is rotatably attached to the lower surface thereof. In addition, a wireless data transmission unit 82 that wirelessly transmits information about pressing of the buttons 50a and 50b and rotation information of the trackball 70 to the computer is provided on the front surface. Further, the mouse 2 is provided with a transmission coil 61 for receiving power transmitted from the mouse pad 1 shown in FIG. 1 on the lower surface, and the power received by the transmission coil 61 is received by the power receiving power. It is supplied to the secondary battery 81 via the circuit 62 and stored in the secondary battery 81. The transmission coil 61 and the power reception circuit 62 constitute a power reception unit 60.

  The mouse 2 configured as described above operates with the electric power stored in the secondary battery 81. When the mouse 2 is moved back and forth and right and left on the mouse pad 1, the trackball 70 rotates with the movement. The rotation of the trackball 70 is detected by the line detection unit 71, and the rotation information is transmitted to the computer via the wireless data transmission unit 82, and the coordinates on the computer are specified. When the buttons 50a and 50b are pressed, the pressing of the buttons 50a and 50b is detected by the pressing detection unit 51, and the pressing information is transmitted to the computer via the wireless data transmission unit 82. Information is specified. Note that the mouse powered by the mouse pad 1 shown in FIG. 1 is not limited to the one having the configuration shown in FIG. Various devices can be used as long as they can receive the electric power transmitted from the mouse pad 1, such as those that optically specify the coordinates of the ball 70, rather than detecting the rotation of the ball 70.

  Next, the operation of the mouse pad 1 when the mouse 2 shown in FIG. 2 is operated on the mouse pad 1 shown in FIG. 1 will be described.

  FIG. 3 is a diagram for explaining the operation of the mouse pad 1 when the mouse 2 shown in FIG. 2 is operated on the mouse pad 1 shown in FIG.

  As shown in FIG. 3A, the mouse pad 1 shown in FIG. 1 is placed on a desk or the like so that the protective sheet 40a is on the upper surface, so that the protective sheet 40a side is used as the operation surface of the mouse 2. Is done.

  When the mouse pad 1 shown in FIG. 1 is placed on a desk or the like so that the protective sheet 40a is on the upper surface, the solar cell unit 10 embedded in the sponge 43 is exposed on the protective sheet 40a side. In the protective sheet 40a, the region facing the solar cell portion 10 is the transparent portion 41. Therefore, as shown in FIG. 2 is received by the solar cell portion 10 through the transparent portion 41 of the protective sheet 40a serving as the second operation surface.

  In the solar cell unit 10, when light is received through the transparent portion 41 of the protective sheet 40 a, power is generated by the received light, and power generated by the power generation is supplied to the secondary battery 31. Then, the electric power supplied to the secondary battery 31 is stored in the secondary battery 31. Accordingly, the secondary battery 31 is charged only by placing the mouse pad 1 on a desk or the like so that the protective sheet 40a is on the upper surface.

  The electric power stored in the secondary battery 31 is supplied to the transmission coil 21 via the power transmission circuit 22, and a current corresponding to the electric power supplied to the transmission coil 21 flows through the transmission coil 21. Then, a magnetic field is generated in the direction emitted from the core portion of the transmission coil 21, that is, the direction toward the operation surface of the mouse 2 and the opposite direction.

  When the mouse 2 exists on the mouse pad 1 because the mouse 2 is operated on the mouse pad 1, the magnetic field generated by the current flowing through the transmission coil 21 is transmitted by the mouse 2. The current passes through the transmission coil 61 of the mouse 2 through the core portion of the coil 61. As a result, as shown in FIG. 3B, the power stored in the secondary battery 31 is transmitted in the direction toward the operation surface of the mouse 2 by the transmission coil 21 of the mouse pad 1, and the transmitted power is The transmission coil 61 of the mouse 2 receives power without contact.

  At this time, if the desk or the like on which the mouse pad 1 is placed is made of metal, or if a metal is interposed between the mouse pad 1 and the desk or the like on which the mouse pad 1 is placed, As described above, the generation of a magnetic field is prevented. Therefore, it is also conceivable to insert a magnetic sheet on the protective sheet 40b side of the transmission coil 21 of the mouse pad 1.

  The electric power generated by the current flowing through the transmission coil 61 of the mouse 2 is supplied to the secondary battery 81 via the power receiving circuit 62, and the secondary battery 81 is charged. Then, the power stored in the secondary battery 81 is supplied to the press detection unit 51, the rotation detection unit 71, and the wireless data transmission unit 82, and the mouse 2 operates.

  Here, a method of using the switch 32 provided on the mouse pad 1 and an operation of the mouse pad 1 by the use will be described.

  As described above, the mouse pad 1 of this embodiment is provided with the switch 32 for controlling the supply of the power stored in the secondary battery 31 to the power transmission circuit 22 and can be operated from the outside. Yes.

  In the mouse pad 1 of this embodiment, the power stored in the secondary battery 31 is transmitted toward the operation surface of the mouse 2 through the power transmission circuit 22 and the transmission coil 21. Therefore, even when the storage state of the secondary battery 81 of the mouse 2 that has received this power is full, the power stored in the secondary battery 31 continues to be transmitted, whereby the secondary battery 31 Therefore, the electric power stored in is consumed wastefully. Therefore, when the mouse 2 is not used and placed on the mouse pad 1, the switch 32 sets the connection between the secondary battery 31 and the power transmission circuit 22 to the OFF state. Then, the electric power stored in the secondary battery 31 is not transmitted through the power transmission circuit 22 and the transmission coil 21, thereby avoiding unnecessary consumption of the electric power stored in the secondary battery 31. . This is because, for example, when the computer 2 is used but the mouse 2 is not used or when the computer is not used, the power stored in the secondary battery 61 of the mouse 2 is not consumed. It can be considered that the connection between the secondary battery 31 and the power transmission circuit 22 is set to the OFF state by 32.

  Further, in the mouse pad 1 of this embodiment, the power stored in the secondary battery 31 is transmitted toward the operation surface of the mouse 2. This is a weak power that does not affect the human body, but if the transmitted power is not weak, if the mouse 2 is operated on the mouse pad 1 to which the power is transmitted, The human body will be adversely affected. Therefore, when operating the mouse 2 on the mouse pad 1, the switch 32 sets the connection between the secondary battery 31 and the power transmission circuit 22 to the OFF state. Then, the electric power stored in the secondary battery 31 is not transmitted through the power transmission circuit 22 and the transmission coil 21, thereby preventing the human body from being adversely affected by power transmission from the transmission coil 21. .

  The two operation methods of the switch 32 described above are contradictory to each other. However, the use and purpose of the switch 32, the storage state of the secondary battery 81 of the mouse 2, and the power transmitted from the mouse pad 1 What is necessary is just to use suitably according to a magnitude | size.

  As described above, in the mouse pad 1 of the present embodiment, the solar cell unit 10 generates light by receiving light and transmits the power to the mouse 2 in a non-contact manner, so that the operability of the mouse 2 is reduced. In this way, power can be supplied to the mouse 2 in a non-contact manner during the operation.

  In this embodiment, the case where power is transmitted from the mouse pad 1 to the mouse 2 using the magnetic field generated by the current flowing through the transmission coil 21 of the mouse pad 1 has been described as an example. Not only such power transmission but any power that can be supplied to the mouse 2 in a non-contact manner by the power generated by the solar cell portion 10 of the mouse pad 1 is acceptable.

  In this embodiment, the region facing the transmission coil 21 of the protective sheet 40a is the colored portion 42. However, if the region facing the solar cell portion 10 is the transparent portion 41, the region facing the transmission coil 21 is opposed. The region may be the transparent portion 41.

DESCRIPTION OF SYMBOLS 1 Mouse pad 2 Mouse 10 Solar cell part 20 Power transmission part 21,61 Transmission coil 22 Power transmission circuit 31,81 Secondary battery 32 Switch 40a, 40b Protection sheet 41 Transparent part 42 Coloring part 43 Sponge 50a, 50b Button 51 Press detection part 60 Power receiving unit 62 Power receiving circuit 70 Trackball 71 Rotation detecting unit

Claims (2)

A mouse pad that receives electric power transmitted in a non-contact manner and can supply electric power to a mouse operated by the electric power,
A solar cell unit that generates electricity by receiving light through the operation surface of the mouse;
A mouse pad having power supply means for transmitting the power generated by the solar cell unit toward the operation surface of the mouse. The mouse pad according to claim 1,
A secondary battery for storing electric power generated by the solar cell unit;
A mouse pad having a switch for controlling supply of electric power stored in the secondary battery to the power supply means.

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