TW201042510A - Finger-cover type operating apparatus - Google Patents

Abstract

A finger-cover type operating apparatus includes a first operating device and a second operating device. The first operating device and the second operating device are each sleeved on a finger of a user. The first operating device includes a first G-sensor. The G-sensor is provided to sequentially sense the movement acceleration value of the first operating device in a three-dimensional space, thereby forming acceleration information. The first operating device sends the acceleration information to an electronic device for operating the electronic device.

Description

201042510 VI. Description of the Invention: [Technical Field] The present invention relates to a finger-type operating device, and more particularly to a finger-operated operating device that is sleeved on a user's finger. σ, [Prior Art] Ο Ο The most common way to operate the device for a computer device is to use a mouse, a touchpad, and a joystick as operating devices for operating the cursor. Solid plane such as desktop: There is enough space for the mouse to move, which makes it inconvenient to use. And /, when using the touchpad as the way of operation, because the touchpad = notebook computer 'touchpad is limited by its large area:, make:: semi-use notebook computer. ', the electric knower would like to use the mouse as an operation to use the joystick as an operation too much on a physical plane #^ ^, although j does not need to set the joystick if two:: but use the joystick when you need Mastery. It is inconvenient to use the right and the type on the keyboard. The rocker under the sub-ship also causes the use of the invention. [The present invention] The object of the present invention is to provide a user-operated, one-sleeve type operating device, which comprises a, 0, and a brother-operating device. With the second operation f, the # ac day-mounted operating device is in a set, sub-, and two π motion acceleration values, operating a 201042510 electronic device. In order to achieve the above object, the present invention provides a type of device comprising a first operating device and a second operating device: the operating device and the second operating device are respectively disposed on the device, = The first-level system includes a first-acceleration sensor, :;: =庠 and ::: signal transmitting module. The first acceleration sensor, ', is sequentially sensed by the cymbal, and the first operating device is at three degrees to form: acceleration information. The first coding module is connected to the acceleration sensor a, and is used to convert the acceleration information into a code. The first signal transmitting module is coupled to the second to receive and transmit the wireless signal encoded in the sub-package L = as the electronic device. θ * In summary, the finger-operated device of the present invention does not need to be used on a physical plane and does not need to be limited by the space of operation, thereby increasing the convenience of use. In addition, the user does not need to hold the finger-operated operation device to operate, and 0 can facilitate the user to type or hold other items, and can also increase the convenience of use. The advantages and spirit of the present invention will be further understood from the following detailed description of the invention. [Embodiment] Please refer to the figure--, which is a perspective view of the appearance of the finger-operated device of the present solution placed on the user's finger. The finger-operated operating device includes a first operating device 1GG and a second operating device 2 (10), and the operating device 1〇〇201042510 and the second operating device 200 can be ring-shaped or U-shaped, and can be respectively Set on the finger of a user. The first operating device 100 and the second operating device 200 are configured to measure an acceleration value of the movement in the three-dimensional space to operate an electronic device 300 (not shown). Please refer to the second figure for a functional block diagram of the finger-operated device and the electronic device of the present invention. The first operating device 100 includes a first acceleration sensor 110, a first encoding module 120, a first signal transmitting module 130, and a first power module 140. The first acceleration sensor ll (G sensor) is used to sequentially sense the motion acceleration value of the first operating device 100 in a three-dimensional space to form an acceleration information. The first encoding module 120 can be configured as a processing chip or a related circuit thereof. The first encoding module 120 is connected to the first acceleration sensor 110 and used to convert the acceleration information into a wireless signal encoding. . The principle that the first acceleration sensor 110 detects the acceleration of the object is a conventional technique, and is not described here. The first signal transmitting module 130 can be a radio frequency (RF) module, a Bluetooth transmitting module, or an infrared transmitting module, and the like, and a signal transmitting module capable of transmitting a wireless signal and related circuits. The first signal transmitting module 130 is connected to the second encoding module 220 and used to receive and transmit the wireless signal to an electronic device 300 for operating the electronic device 300. The first power module 140 is configured to supply the first acceleration sensor 110, the first encoding module 120, and the power of the first signal transmitting module 130. The first power module 140 can be composed of a battery and related circuits. The first power module 140 can also be a wireless charging module and its associated circuit 5 201042510. The wireless charging module can be composed of a radio frequency receiver (not shown) and a rechargeable battery (not shown). The radio frequency receiver receives an electromagnetic wave of an energy transmitter and converts it into electric energy for storage. For the rechargeable battery. If the user can easily replace the battery, the battery will be charged. Please refer to the second figure for a functional block diagram of the finger-operated device 1 and the electronic device 300 of the present invention. The second operating device 200 includes a second acceleration sensor 210, a second encoding module 220, a second signal transmitting module 230, and a second power module 240. The second acceleration sensor 210 (G sensor) is configured to sequentially sense the motion acceleration values of the second operating device 200 in a three-dimensional space to form an acceleration information. The second encoding module 220 is configured to be a processing chip or a related circuit. The second encoding module 220 is coupled to the second acceleration sensor 210 and configured to convert the acceleration information into a wireless signal encoding. The principle that the second acceleration sensor 210 detects the acceleration of the object is a conventional technique, and is not described here. The second signal transmitting module 230 can be a radio frequency (RF) module, a Bluetooth transmission module, or an infrared transmission module, and the like, which can transmit a wireless signal, and a related circuit. The second signal transmitting module 230 is coupled to the second encoding module 220 and configured to receive and transmit the wireless signal to an electronic device 300 for operating the electronic device 300. The second power module 240 is configured to supply power to the second acceleration sensor 210, the second encoding module 220, and the second signal transmitting module 230. The second power module 240 can be composed of a battery and related circuits. The second power module 240 can also be a wireless charging module and its associated circuit 6 201042510. The wireless charging module can be composed of a radio frequency receiver (not shown) and a rechargeable battery (not shown). The radio frequency receiver receives an electromagnetic wave 5 of an energy transmitter and converts it into electric energy to store For the rechargeable battery. If the user can easily replace the battery, the battery will be charged. The present invention may further include an energy emitter connected to the electronic device 300 or disposed in the electronic device 300 to emit an electromagnetic wave to the first power module 140 and the second Power module 240. The wireless charging technology described above is a conventional technique and will not be described here. The electronic device 300 can be a computer device such as a desktop computer, a notebook computer, a personal digital assistant (PDA), a smart phone, and the like. The electronic device 300 includes a receiving module 310, a processing module 320, a memory unit 330, and a display unit 340. The receiving module 310 is configured to receive the wireless signal code transmitted from the first operating device 100 and the second operating device 200. The processing module 320 can be constructed by a central processing unit and its associated circuitry. It is connected to the receiving module 310 and used to receive and receive the wireless 5 code. The memory unit 330 can be a memory. The memory unit 330 is coupled to the processing module 320 and temporarily stores the temporary storage data when the processing module 320 performs operations. The memory unit 330 also has a computing program. The display unit 340 can be a liquid crystal display screen and coupled to the processing module 320. The display unit 340 is used to display an object. The processing module 320 can encode the wireless signal to form an instruction signal according to the operation program of the memory unit 330 to operate the object. In this embodiment, the object 7 201042510 can be a cursor. The module 320 operates the cursor to move in the display surface according to the command signal, or executes a click command. In another embodiment, the item can be a virtual item. The processing module 320 operates the virtual object to perform three-dimensional movement in a three-dimensional virtual reality according to the command signal. In another embodiment, the electronic device 300 can be a removable remote control electronic device 300, such as a remote control machine, a remote control car, or the like. The electronic device 300 is configured to receive the wireless signal code of the first signal transmitting module 130 and the second signal transmitting module 230, and perform corresponding operations, such as moving, according to the wireless signal encoding. Please refer to the first figure. The following component numbers can refer to the second figure. When the user wants to use the finger-operated operating device 1 of the present invention, the first operating device 100 and the second operating device 200 can be respectively placed on a finger. The user's hand can be moved in a three-dimensional space, and the finger-operated device 1 generates an acceleration when the user's hand is stationary to moving. The acceleration may be detected by the first acceleration sensor 110 and the second acceleration sensor 210 to form the acceleration tribute ' and is divided into two acceleration values according to the component 5 of the acceleration lag: an X-axis acceleration value , a Y-axis adder value and a Z-axis acceleration' value. The first signal module and the second signal module can transmit the acceleration information to the receiving module 310 of the electronic device 300 and be analyzed by the electronic device 300. If the hand of the user moves on a moving plane P1, the first operating device 100 and the second operating device 200 move in the same direction, so the first acceleration sensor 110 and the second acceleration sensor 210 detect The measured acceleration should be equal. In addition, the moving plane P1 is set to be a plane formed by the X-axis and the Y-axis 8 201042510, so the county_device 4 shape =:==#axis plus two poles, 3]. Accepting the first operation described above: setting the scale signal (4) sent by ===, and performing the shape-moving action of the am device, 2;:=, it can be determined that the direction of the finger-type operation 持续 continues to move. When using the earlier 34G, the object can be stopped. Therefore, when the mobile phone is installed, the computer device can replace the general computer mouse movement. In another embodiment, the movement of the worker is -: dimension 1 can determine the finger-operated operation - the quasi-intelligence, thinking, when the electronic device: 300 display

Gan & in the phase 7F unit 34Q seized the electronic device _ according to the = operating device 1 in the three-dimensional space (four) acceleration direction H

G virtual reality - the object (such as - virtual character object or a flying squatter on the moving plane? 1, with - finger for the next up and down movement = the second figure shown in the user's only the first operation The device (10) can only measure the slight acceleration in the γ-axis and the second operation, and the first operation device] (8) only measures the electron f ί. The shaft plus camber value and the 2-axis acceleration value are relatively small. The operating device_ and the second operating device time calculate the first operating device according to the first operating device 1 at a predetermined acceleration value. 〇 2010 201042510 The amount of displacement on the γ axis. As shown in the fourth figure, the first movement of a meal, Qing Qing, please turn back to Putian to 2 - the operating device (10) does not have the above ^ The finger-operated operation device carries out i=gl heart lion. Therefore, the present invention can replace the general computer mouse click point Ο 运 运 于 in the above operation 'the first operation device iGG for two consecutive up and down = two The electronic device 300 can determine the finger-operated device! Perform an action 'as shown in the fourth figure. The invention can take the action of double-clicking the point from the mouse. The mutual first clearing is set to 1°° and the second operating device 20 is broken. The first operating device 1 detects an acceleration: The acceleration value detected by the operating device is reversed, and at: ―hour: the action device 1 performs a 关 击 之 + + + + + + + + + + + + + + + + + + + + + + + + + + + + + The operation of the electronic device 300 can be interrupted by the operation of the electronic device 300. The operation of the electronic device 300 can be interrupted by the operation of the electronic device 300. The U-tongue is described above as 'the county-style operating device of the present invention does not need to be used on the surface of the physical flat 10 201042510, and does not need to be limited by the operation space, thereby increasing the convenience of use. The user does not need to hold the finger-operated operation device 1 to operate, which is convenient for the user to type or hold other items, and can also increase the convenience of use. With the details of the above preferred embodiments, it is hoped The features and features of the present invention can be more clearly described The scope of the present invention is not limited by the preferred embodiments disclosed above. Conversely, it is intended to cover various modifications and equivalents of the patents contemplated by the present invention. The scope of the range is as follows. [The first picture shows the appearance of the finger-operated device of the present invention on the user's finger; the second picture shows the finger-operated operation device and the electronic device of the present invention. Functional block diagram of the device; 〇 third diagram is a state diagram of the use of the first operating device of the present invention; and fourth diagram is a diagram of the time and 'displacement relationship of the finger-operated device of the present invention for performing a click operation; and _ The fifth figure is a diagram showing the relationship between time and displacement of the finger-operated operation device of the present invention. [Main component symbol description] [Invention] Finger-operated operation device 1 11 201042510 First operation device 100 First acceleration sensor 110 First coding module 120 First signal transmission module 13 0 First power supply module 140 Second Operating device 200 second acceleration sensor 210 second encoding module 220 second signal transmitting module 230 second power module 240 electronic device 300 receiving module 310 processing module 320 memory unit 330 display unit 340 moving plane P1 temperature T predetermined Time T1 interval time T2 distance S moving distance S1

Claims (1)

201042510 VII. Patent application scope: The 4曰-type plug-in device consists of a ····················································· - an acceleration sensor for sequentially sensing the motion of the first - in three-dimensional space to form an acceleration; Ο 2 Ο a first-encoding module 'lightly connected to the first acceleration sensor, and The acceleration information is a wireless signal encoding; and the (4) transmitting module is connected to the second encoding module, and is configured to receive and transmit the performance information. The line signal is encoded in an electronic device, so as to know Electronic device. For example, the finger-type operating device described in the Japanese Patent Application No. 4, J: The younger-operating device is annular or u-shaped. - Zhonghai, as claimed in the patent scope, the i-electronic 彳 套 套 套 操作 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , 接收 接收 接收 接收It is not obvious that the display item is as the third item of the patent application scope is - cursor. The finger-operated operation device, wherein the patent-origin-operating device is the "------------------------------------------------------------------------------------------------------ 13 5 201042510 6. As in the scope of patent application No. 3 7 The first-operating device is used for two consecutive operation devices, wherein the finger-type wheel is double-clicked =. The (4) set determines that it is "since, and the second fall is set to - the user's other - finger. & the meaning of the system is used for the set of applications. H. Also, 'there is the LI of the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ For example, "Recommendation _7 refers to the material (4) two operating devices, including: 〇1 two acceleration sensors, used to sense the motion: the acceleration of motion in three-dimensional space to form - plus = - second coding module' And the second acceleration sensor is configured to convert the acceleration information into a wireless signal encoding; and the second signal transmitting module is connected to the second encoding module and configured to receive and transmit the wireless signal encoding The electronic device 1 operates the electronic device. The finger-operated device of the present invention, wherein the 201042510 second operating device further includes a second power module for supplying the second acceleration sensor and the second code. The power supply of the module and the second signal transmitting module. 12. The finger-operated device of claim 11, wherein the second power module is a wireless charging module. 13. The finger-operated device of claim 1, wherein the first operating device further comprises a first power module for supplying the first acceleration sensor, the first encoding module, and the The power of the first signal transmitting module. 14. The finger-operated operating device of claim 13, wherein the first power module is a wireless charging module. Ο 15