FR2884942A1 - Wireless mouse for computer, has rechargeable battery and generating device assembled in shell, where generating device has linear generator that is electrically connected to rechargeable battery - Google Patents

Abstract

The mouse has a command device assembled in a shell. A controller detects a position of the shell and produces an electronic signal. A rechargeable battery is assembled in the shell for supplying electrical energy to the command device. A generating device (4) assembled in the shell comprises a linear generator (42) which is electrically connected to the battery. A coin of the generator is arranged in a spreading manner, where a flat magnet is movably disposed above the coin.

Description

WIRELESS MOUSE

TECHNICAL FIELD AND PRIOR ART

  The present invention generally relates to a wireless mouse and, more particularly, to a wireless mouse having the functions of self-generating and self-accumulating electrical energy using kinetic energy while it moves to meet the needs of electric power.

  The invention of the mouse makes the operation of the computer very simple. To eliminate the inconvenience of the mouse wire during its use by the user, a wireless mouse has therefore been proposed. The operation of a wireless mouse requires a battery to send an electrical signal to a computer via a wireless module. A battery is usually assembled in the wireless mouse to maintain the electrical power that is consumed. However, frequent replacement of the battery always causes significant inconvenience to the user and an additional expense. In addition, the discarded battery is wasting natural resources and polluting the environment.

  To mitigate the above-mentioned drawbacks, U.S. Patent No. 6,686,903 describes a "wireless mouse capable of generating and accumulating electrical energy". Referring to FIG. 1, the usual wireless mouse includes a control ball 123, a first roller 125, a second roller 127, an auxiliary roller 129, a first gear 130 and a second gear 132 The first roller 125 presses longitudinally against the control ball 123 to detect the movement of the wireless mouse projected along the axis X. On the other hand, the second roller 127 presses against the ball transversely. The first gear 130 is connected to the first rolling roller 125 in a coaxial manner and, as a result, they rotate together. The second gear 132 is connected to the second roller 127 coaxially and, therefore, they rotate together. The auxiliary roller 129, the first roller 125 and the second roller 127 support against the control ball 123, so that the control ball 123 is maintained in a certain rolling position. The wireless mouse further includes a first generating device 115 and a second generating device 119. The first generating device 115 is connected to a third gear 117 which is engaged with the first gear 130 to transform dynamic energy. in electrical energy. The second generator device 119 is connected by a fourth gear 121 to the second gear 132 to convert dynamic energy into electrical energy. The electrical energy is outputted to an energy storage device 131.

  The usual wireless mouse always has the following disadvantages.

  1. The generating devices are driven by a gear wheel which increases the gear load, and the user needs extra force in use to deliver kinetic energy to the generating devices.

  2. The two sets of generating devices increase the total weight, which not only complicates the operation, but also increases the load on the wrist. If there is only one set of generator device, it can not balance the load of the gear wheel.

  Therefore, the wireless mouse according to the prior art still retains some inconvenience and inconvenience.

  The present inventor, after investigation and research, thus offers the present invention of logical design to improve the imperfections mentioned above.

  SUMMARY OF THE INVENTION An object of the present invention is to provide a wireless mouse that can use its own kinetic energy as it travels, and generate on its own and self-accumulate electrical energy for self-healing. -food, so that it respects the requirements of environmental protection.

  Another object of the present invention is to provide a wireless mouse that satisfies the prerequisite of not increasing the burden on the user, and makes full use of the kinetic energy of the movement of the mouse, to have the functions of generation and accumulation of electrical energy.

  In order to achieve the above-mentioned objects, the present invention provides a wireless mouse having a housing, a controller, a rechargeable battery, and a generator device. The control device is assembled in the housing. The controller has a controller for detecting a position of the housing and producing an electronic signal, a demodulator for transforming the electronic signal into a wireless signal, and an antenna for transmitting the wireless signal. The rechargeable battery is assembled in the housing to deliver electrical power to the controller. The generator device is assembled in the housing and has a linear generator that is electrically connected to the rechargeable battery.

BRIEF DESCRIPTION OF THE FIGURES

  The present invention will be better understood and these purposes other than those mentioned above will appear more clearly on reading the detailed description thereof, made with reference to the accompanying drawings, in which: - Figure 1 is a view Figure 2 is a perspective view of a wireless mouse according to the present invention, Figure 3 is a block diagram of the wireless mouse of the prior art. wire in accordance with the present invention, and - Figure 4 is a circuit diagram of a generator according to the present invention.

  DESCRIPTION OF THE PREFERENTIAL EMBODIMENT

  Reference is first made to Figures 2 and 3, which are a perspective view and block diagram of a wireless mouse according to the present invention. The present invention provides a wireless mouse 100 that is used to control a cursor moving on a computer screen. In the preferred embodiment, the wireless mouse 100 comprises a housing 1, a control device 2, a rechargeable battery 3 and a regenerative device 4. The housing 1 is intended to be grasped by the user to move the mouse without wire 100, which is generally mounted with a switching unit, such as a plurality of buttons and a roller. However, the illustrated form does not limit the present invention.

  The controller 2 is assembled in the housing 1 and is generally assembled on a printed circuit board (not shown). Its function is to detect the state of motion of the wireless mouse 100 and produce a corresponding signal, and then transmit it to the computer. The controller 2 comprises a controller 22, a demodulator 24, an antenna 26 and a switching unit 28. The controller 22 is used to detect a position of the housing 1 and produce an electronic signal. Then, the electronic signal is transmitted to the demodulator 24.

  The demodulator 24 receives the electronic signal and transforms the electronic signal into a wireless signal. The wireless signal is transmitted to the antenna 26 and is transmitted to a receiver of the computer.

  In a detailed manner, the controller 22 comprises a detection unit 222 and a coding unit 224. The detection unit 222 may be a mechanical type detection unit or an optical type detection unit, for example, a control roller. encoding roll, a frame scanner, or an image sensor, the function of which is to detect the movement of the wireless mouse 100 and transmit the detected data to the coding unit 224. The coding 224 is used to sample the data detected by the detection unit 222 or the switching unit 28 and perform the coding.

  The function of the demodulator 24 is to transform the coded signal by the coding unit 224 to meet the format of the wireless transmission protocol, for example, infrared or Bluetooth, and then transmit it to the computer by the computer. intermediate of the antenna 26. The switching unit 28 is coupled to the switches under the buttons of the housing 1.

  The rechargeable battery 3 is assembled in the casing 1 and is connected to the control device 2 to deliver electrical energy to the control device 2.

  The generator device 4 is assembled in the housing 1. The generator device 4 has a linear generator 42 which is electrically connected to the rechargeable battery 3, a rectifier 44 and a voltage stabilizer 46. In this embodiment, the linear generator 42 comprises a coil 422 arranged in a stretched manner and a flat magnet 424 which is movably disposed above the coil 422. The magnet 424 delivers an ambient magnetic field. When the magnet 424 slides on the coil 422, the magnetic flux changes and the coil 422 produces an induced electromotive force (voltage), and therefore produces an induced current. In this embodiment, the linear generator is shown as a sketch. To ensure that the magnet 424 slides on the spool 422, a guide device may be provided on both sides of the spool 422, such as guide rails. In addition, an anti-shock device may be added to both ends of the coil 422, such as a magnet, or a tremor absorbing member.

  The rectifier 44 of the generator device 4 is electrically connected to the linear generator 42, and consists of diodes, which are used to prevent an induced current from flowing in a negative electrode of the rechargeable battery 3, and to cause the induced current to circulate in a positive electrode of the rechargeable battery 3 in order to recharge it. In this embodiment, the rectifier 44 is a bridge rectifier, but the present invention is not limited thereto.

  The voltage stabilizer 46 of the generator device 4 is used to stabilize the voltage. The voltage stabilizer 46 has two ends, one end is connected to the rectifier 44 and the other end is connected to the rechargeable battery 3. In this embodiment, the voltage stabilizer 46 has a resistor 462 and a capacitor 464. resistor 462 has two ends, one end is connected to the rectifier 44 and the other end is connected to the rechargeable battery 3.

  The capacitor 464 has two ends, one end is connected to the rectifier 44 and the other end is grounded.

  The present invention uses the kinetic energy of the mouse itself during its movement, and generates by itself and self-accumulates electrical energy to self-feed, so that it meets the requirements of Environmental Protection. When the user actuates the wireless mouse, the wireless mouse is moved frequently to the right and to the left and the magnet 424 of the linear generator 42 moves on the coil 422, and therefore produces an induced current and generates electric current . The present invention utilizes the principle of magnetic induction, which can charge the battery at any time and does not need to replace the battery, and therefore can extend the life of the wireless mouse. The present invention can safely cooperate with the original charging mode via a plug, which is selectable by the user.

  The present invention provides the linear generator, which does not increase the resistance of the wireless mouse roller, and does not increase the load borne by the user. The structure uses kinetic energy as the user moves the mouse to transform the electrical energy, so that the wireless mouse has the functions of generating by itself and accumulating energy on its own. electric.

  Although the present invention has been described with reference to the preferred embodiments thereof, it will be understood that the present invention is not limited to the details thereof. Several replacements and modifications are suggested in the description above, and others will be made clear to those skilled in the art. Therefore, all such substitutions and modifications are intended to be encompassed by the scope of the present invention as defined in the appended claims.

Claims (10)

  A wireless mouse (100), characterized in that it comprises: a housing (1), a control device (2), assembled in the housing (1), and having a controller (22) for detecting a position of the housing (1) and producing an electronic signal, a demodulator (24) for transforming the electronic signal into a wireless signal, and an antenna (26) for transmitting the wireless signal, and a rechargeable battery (3) assembled in the housing (1) for supplying electrical power to the control device (2), and a generator device (4) assembled in the housing (1), the generating device (4) having a linear generator (42) which is electrically connected to the rechargeable battery (3).   The wireless mouse (100) according to claim 1, characterized in that the controller (22) has a detection unit (22) and a coding unit (224).   3. Wireless mouse (100) according to claim 2, characterized in that the detection unit (22) is a mechanical type of detection unit.   4. Wireless mouse (100) according to claim 2, characterized in that the detection unit (22) is an optical type detection unit.   The wireless mouse (100) according to claim 1, characterized in that the control device (2) further has a switching unit (28) electrically connected to the coding unit (224).   The wireless mouse (100) according to claim 1, characterized in that the linear generator (42) has a coil (422) arranged in a stretched manner and a flat magnet (424) movably disposed above the coil (422).   7. wireless mouse (100) according to claim 1, characterized in that the generating device (4) further comprises a rectifier (44) electrically connected to the linear generator (42).   8. wireless mouse (100) according to claim 7, characterized in that the rectifier (44) is a bridge rectifier.   Wireless mouse (100) according to claim 7, characterized in that the generating device (4) further comprises a voltage stabilizer (46), and the voltage stabilizer (46) has two ends, one end is connected to the rectifier (44) and the other end is connected to the rechargeable battery (3).   A wireless mouse (100) according to claim 9, characterized in that the voltage stabilizer (46) has a resistor (462) and a capacitor (464), and the resistor (462) has two ends, one end is connected to the rectifier (44) and the other end is connected to the rechargeable battery (3), and the capacitor (464) has two ends, one end is connected to the rectifier (44) and the other end is grounded .