KR20130125034A - An wireless input device that private power station of power saving - Google Patents

Abstract

The present invention relates to a self-photovoltaic generation power saving type wireless input device. The present invention relates, more concretely, to a self-regenerating generation power saving type wireless input device being charged by using an embedded solar cell when the wireless input device is not used, or being self-recharged even in use by making a piezoelectric element generate an electric charge by the pressure applied on a data input unit and also to a power saving type wireless input device intercepting a provided power and transmitting a standby mode or a down mode control signal to a computer monitor and a main body via a wireless transmission unit when an external pressure has not been generated at a vibration sensor and the piezoelectric element for a set time or a gravity sensor is contrarily operated if the wireless input device overturns. The present invention is named the self-photovoltaic generation power saving type wireless input device by integrating the two concepts. [Reference numerals] (AA,II) Start;(BB) Compare the period of time during which no signal appears on a piezoelectric element and a vibration sensor and a set period of time for a timer or compare the period of time at which a gravity sensor maintains a certain direction and the set period of time for a timer;(CC) No;(DD) No signal duration >= timer setting time;(EE) Yes;(FF) Wireless input device power OFF signal at a microcontrol unit and a waiting mode or down mode signal at a computer monitor and a main body appear;(GG) Upon the power OFF signal, the wireless input device gets turned off and the computer monitor and main body enters the waiting mode or down mode;(HH) Based on electricity generated by vibration/pressure or power supply/solar generation, power is supplied

Description

Solar self-power-saving wireless input device {AN WIRELESS INPUT DEVICE THAT PRIVATE POWER STATION OF POWER SAVING}

The present invention relates to a solar self-powered wireless input device, and more particularly, to generate electric energy by using solar energy and piezoelectric elements, which enables self-power generation to transmit information without a separate power source. It relates to a self-powered wireless input device.

The wireless input device is a device connected to an electronic device to transmit data. Examples of a typical computer input device include a mouse and a keyboard.

Conventional wireless input devices include transmitting antennas, wireless transmitters, microprocessors, input value (button, light, laser, blue track, ball, power outage, infrared, etc.) signal receiving and processing units, and operating voltages for data transmission to and from electronic devices. It includes a battery to provide.

Commonly used wireless input devices operate by receiving power from a battery, and include an on / off power switch 500 to extend the use time, and the user does not turn off the power. Otherwise, the wireless input device will continue to consume battery power.

The charging wireless input device charges a battery by connecting a USB to a computer and receiving power from the computer.

Many users of the wireless input device have to keep an eye on the battery replacement and charging of the wireless input device due to the exhaustion of the battery, and the direct on / off power switch (500) in order to use the wireless input device for a long time. ) Must be controlled by the user.

Accordingly, there is a demand for developing a power saving wireless input device that removes user's hassle for replacing and charging the wireless input device and self-generating solar power.

The present invention has been proposed to solve the problems of the prior art as described above, an object of the present invention to eliminate the hassle of charging in using a wireless input device and to the computer using the switch control of the wireless input device The present invention provides a solar self-powered power saving wireless input device that sends power saving signals to save power of a computer.

In accordance with one aspect of the present invention, there is provided a solar self-power-saving wireless input device comprising: a wireless transmitter configured to wirelessly transmit an operation and an input signal inputted from a data input unit to a computer main body ; A plurality of data input units for inputting data; A piezoelectric element generating charges by a pressure generated when data is input adjacent to the data input unit and a pressure generated by use of a wireless input device ; A vibration sensor unit for detecting a vibration of the wireless input device and transmitting a signal to a switch controller ; A gravity sensor which causes the pressure in the air of the wireless input device to operate in response to the sensor; A switch for turning on the power of the wireless input device when the vibration sensor unit receives a response to the vibration and charge generated by the piezoelectric element or when the gravity sensor maintains a constant direction (normal mouse use state). Control unit; A controller configured to provide data input from the data input unit to the wireless transmitter, and control data transmitted to the main body to be transmitted to the main body ; Solar cells for converting light energy of sunlight into electrical energy ; A charging circuit which is a passage for charging the converted electric energy using the piezoelectric element and the solar cell ; And a charging unit which stores or charges the electric energy converted by the charging circuit, and provides the electric energy stored in the wireless transmitter, the vibration sensor, the switch controller, and the controller . A power saving control switch configured to transmit a standby mode or a down mode control signal to the wireless transmitter to a monitor and a main body according to an on / off state of the wireless input device ; And a micro control unit configured to output a standby mode or a down mode control signal of the monitor and the main body of the computer through the wireless transmitter in response to the power state OFF signal of the switch control unit . It is characterized by.

The switch control unit turns off the power of the wireless input device when the pressure and vibration signals detected by the piezoelectric element and the vibration sensor unit are not maintained for a predetermined time or when the gravity sensor is reversed (when the wireless input device is turned upside down). And a timer unit for transmitting a signal to switch to the OFF) state.

The micro control unit receives a switch signal from the timer unit to the OFF state in response to a switch control unit to turn off the power of the wireless input device and control the standby mode and the down mode of the monitor and the main body through the power saving control switch. Allows the signal to be sent to the wireless transmitter.

The wireless transmitter transmits the standby mode and the down mode control signals to the monitor and the main body in response to the standby mode and the down mode control signals by the micro control unit.

The solar cell is located at the bottom of the left and right click buttons, which are data input parts when viewed from a plan view, and the palm contact portion is formed in a cover type, and is located inside when the wireless input device is not in a slip-on form when the wireless input device is not used. The solar cell is located in front of the lower part when the wireless input device is turned upside down.

The wireless input device converts the pressure of the data input unit or the pressure of the input device itself into electrical energy by the pressure element while using a power source, and thus can be charged even during use. In addition, the wireless input device may be self-charged by a solar cell located when the cover of the upper part is slipped down when not in use, or a solar cell located in front of the lower part when turned upside down.

According to the present invention, the user does not have to worry about replacing or charging the battery of the existing wireless input device, and saves energy by turning the power of the computer monitor and the main body into the standby mode or the down mode due to the timer and the external button of the wireless input device. can do.

BRIEF DESCRIPTION OF THE DRAWINGS The drawings appended here are intended to illustrate preferred embodiments, and the drawings of the present invention are intended for understanding the technology and should not be construed as being limited only to those described in the drawings.
1 is a schematic diagram of a solar self-power-saving wireless input device according to the present invention.
2 is a plan view of a solar self-power-saving wireless input device according to the present invention.
Figure 3 is a bottom view of a solar self-power-saving wireless input device according to the present invention.
4 is a system configuration of a solar self-power-saving wireless input device according to the present invention.
5 is a system control diagram of a solar self-power-saving wireless input device according to the present invention.

1 is a schematic diagram of a solar self-power-saving wireless input device 10 according to the present invention.

As shown in FIG. 1, a general computer is composed of a monitor 30, a main body 40, and a wireless input device 10. In using the wireless input device 10, the main body 40 is a wireless device. It consists of a receiving unit 400 for receiving data transmitted from the input device 10 and a central processing unit 410 for reading and controlling the data from the receiving unit 400 so that it appears on the monitor 30.

Solar self-power-saving wireless input device 10 of the present invention is a wireless input device by detecting the external pressure by the built-in piezoelectric element 140 and the vibration sensor unit 150 or the direction change of the gravity sensor 240 ( It is characterized in that the power supply of 10) and the power saving control signal corresponding thereto are transmitted to the main body 40 and the monitor 30. Accordingly, the wireless input device 10 includes a data input unit 130; Piezoelectric element 140; Vibration sensor unit 150; A timer unit 160; Switch control unit 170; A micro control unit 180; A wireless transmitter 190; Power saving control switch 200; The controller 230; It comprises a gravity sensor 240.

In addition, the wireless input device 10 converts the pressure of the data input unit 130 or the pressure of the input device itself into electrical energy, so that the built-in piezoelectric element 140 to be charged while using the wireless input device 10. And it has a built-in solar cell (see Fig. 2 / Figure 3: according to the position (120 ,, 510)) to convert the light energy of the solar light into electrical energy, it is characterized by reducing battery consumption by self-charging. Accordingly, the wireless input device 10 includes a charging circuit 210 and a charging unit 220.

The charging unit 220 charges and stores the converted electrical energy connected to the charging circuit 210 and provides the electrical energy stored in the wireless transmitter 190, the controller 230, and the like.

The piezoelectric element 140 is located close to the data input unit 130 so as to accurately detect an external pressure.

2 and 3 are a plan view and a bottom view of a solar self-power-saving wireless input device 10 according to the present invention.

As shown in FIGS. 2 and 3, the solar cell 120 is positioned below the left and right click buttons 100, which are data input parts, and is exposed when the palm contact part is lowered in a slip-on form or is exposed to the solar cell 510. ) Is located in front of the lower end of the input device except for the power switch 500 and the LED data input unit 520 of the wireless input device when the wireless input device 10 is turned upside down.

The present invention is not limited to the above contents and can be applied to various input devices as well as a mouse.

It is description of the code | symbol about FIG.
10: wireless input device 30: monitor
40: main body 130: data input unit
140: piezoelectric element 150: vibration sensor unit
160: timer unit 170: switch control unit
180: micro control unit 190: wireless communication unit
200: power saving control switch 210: charging circuit
220: charging unit 230: control unit
240: gravity sensor 400: receiver
410: central processing unit
It is description of the code | symbol about FIG.
10: wireless input device 100: data input unit
110: mouse cover 120: solar cell
It is description of the code | symbol about FIG.
500: power switch 510: solar cell
520: data input unit

Claims (10)

In a wireless input device for transmitting input data to a computer,
The wireless input device
A wireless transmitter for transmitting an operation and an input signal inputted from a data input unit of an input device to a computer ; A data input unit for operating and inputting the wireless input device ; A piezoelectric element generating charges by a pressure generated when data is input adjacent to the data input unit and a pressure generated by use of a wireless input device ; A vibration sensor unit for detecting a vibration of the wireless input device and transmitting a signal to a switch controller ; A switch controller configured to turn on the power of the wireless input device in an ON state in response to vibration and charge generation detected by the vibration sensor unit and the piezoelectric element ; A controller configured to provide data input from the data input unit to the wireless transmitter, and control data transmitted to the main body to be transmitted to the main body ; Solar cells receiving light used in daily life ; A charging circuit for converting energy into electrical energy in the piezoelectric element and the solar cell ; And a charging unit which stores or charges the electric energy converted by the charging circuit, and provides the electric energy stored in the wireless transmitter, the vibration sensor, the switch controller, and the controller . A power saving control switch configured to charge the solar cell on one side or the bottom of the wireless input device and to transmit a standby mode control signal to the wireless transmission unit to a computer monitor and a main body ; And a micro-control unit for outputting a standby mode control signal of the monitor of the computer and the main body through the wireless transmitter in response to a power-off signal from the switch control unit. Solar self-powered wireless input device.
The method of claim 1,
The switch control unit turns off the power of the wireless input device when the pressure and vibration signals detected by the piezoelectric element and the vibration sensor unit are not maintained for a predetermined time or when the gravity sensor is reversed (when the wireless input device is turned upside down). Solar self-powered wireless input device comprising a timer for transmitting a signal to switch to the OFF) state.
The method of claim 1,
The micro control unit receives a switch signal from the timer unit to the OFF state in response to a switch control unit to turn off the power of the wireless input device and control the standby mode and the down mode of the monitor and the main body through the power saving control switch. Solar self-powered wireless input device, characterized in that for transmitting a signal to a wireless transmitter.
The method of claim 1,
And the wireless transmitter is configured to transmit standby mode and down mode control signals to the monitor and the main body in response to standby mode and down mode control signals by the micro control unit.
The method of claim 1,
The solar cell is located at the bottom of the left and right click buttons, which are data input parts when viewed from a plan view, and the palm contact portion is formed in a cover type, and is located inside when the wireless input device is not in a slip-on form when the wireless input device is not used. The solar cell is a solar self-powered wireless input device, characterized in that located in front of the lower portion when the wireless input device upside down.
The method of claim 1,
The wireless input device converts the pressure of the data input unit or the pressure of the input device itself into electrical energy by the pressure element while using a power source, and thus can be charged even during use. In addition, the wireless input device is a solar self-powered wireless input device, characterized in that the self-charging by the solar cell located when the cover of the upper portion is lowered in the slip-on form when not in use or the solar cell located in front of the lower part when turned upside down .
The method of claim 1,
The wireless input device is a solar self-powered wireless input device, characterized in that the charge is in use by converting the pressure of the data input unit or the pressure of the input device itself into electrical energy through a piezoelectric element while using a power source.
The method according to claim 1 or 4,
The power saving control switch is a solar self-powered wireless input device, characterized in that for transmitting the standby mode and down mode control signals to the wireless transmitter, the solar charging and computer monitor, the main body due to the operation of the wireless input device switch control unit.
The method of claim 1,
The piezoelectric element is a solar self-powered wireless input device, characterized in that for converting the electrical energy through the charging circuit receives the pressure generated during the data input process through the data input unit and the user's hand.
The method of claim 1,
The charging circuit is connected to the piezoelectric element and the solar cell solar self-powered wireless input device, characterized in that for converting the energy generated by pressure and sunlight into electrical energy.

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