KR20100125086A - Apparatus for inputting user command - Google Patents

Abstract

PURPOSE: A user instruction input apparatus is provided to prevent a device falling down from a user hand by preparing separation protection unit. CONSTITUTION: A user instruction input apparatus comprises a first housing(300), a second housing(400) and a button(411). The second housing has a separation protection unit(410). The second housing is fixed and coupled in the first housing. In case a user inserts a finger into the separation protection unit, the user instruction input apparatus is supported by the finger. The trigger button is projected from the rear direction to the front direction of the second housing.

Description

Apparatus for inputting user command}

The present invention relates to a user command input device, and more particularly, to a user command input device including a departure prevention unit in a main body provided with a motion sensor for detecting an input movement and a button for receiving a user's specific command. .

An inertial sensor is a device that displays the inertial force of a mass generated by acceleration or angular velocity as a deformation of an elastic structure connected to the mass, and then displays the deformation of the structure as an electrical signal using appropriate sensing and signal processing techniques. .

Since the 1990s, the development of micro electro-mechanical systems using semiconductor processes has made it possible to miniaturize and mass produce inertial sensors. Inertial sensors are divided into acceleration sensors and angular velocity sensors, which are particularly popular in applications such as vehicle suspension and brake integrated control, airbags, and car navigation systems. The present invention also applies to data input means of a portable information device such as a portable location recognition system to be applied to a mobile communication composite terminal.

In addition, the inertial sensor may be embedded in a remote controller-type device to receive a user's input command. For example, by using a remote controller having a built-in inertial sensor, the user may position the pointer to a specific point on the screen or display the on-screen display. You can move graphic objects.

As described above, a device of a remote controller type having an inertial sensor may be used in a game machine, etc. The user may input a specific command by applying a movement to the device to operate the inertial sensor or selecting a provided button.

On the other hand, when using a device of the remote control type, such as a game machine, the user applies a movement to the device for the operation of the inertial sensor, at this time may be damaged if the device is removed from the hand due to carelessness.

Therefore, the emergence of a remote control device having means for preventing the departure is required.

It is an object of the present invention to include a departure prevention unit in a main body provided with a motion sensor for detecting an input movement and a button for receiving a user's specific command.

The objects of the present invention are not limited to the above-mentioned objects, and other objects which are not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, a user command input device according to an embodiment of the present invention is provided with a first housing and an escape prevention part provided with at least one first button protruding the user command is fastened to the first housing A second housing.

Specific details of other embodiments are included in the detailed description and the drawings.

According to the user command input device of the present invention as described above by including a departure prevention unit in the main body is provided with a motion sensor for detecting the input movement and a button for receiving a specific command of the user, so that the device is separated from the user's hand There is an advantage to prevent.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating a user command control system according to an exemplary embodiment of the present invention, and the user command control system includes a user command input device 200, a graphic control device 150, and a display device 100.

The graphic control device 150 generates the graphic object 110 and controls the graphic object 110 according to a control signal received from the user command input device 200. Here, the graphic object 110 may be hidden on the screen as well as not displayed, and the cursor or pointer 120 used to specify a specific point on the screen may be the graphic object 110. Can be.

In controlling the graphic object 110, the graphic control device 150 may change the position of the graphic object 110 or change its shape. In addition, the graphic control device 150 may perform various functions corresponding to the control signal received from the user command input device 200 instead of merely controlling the graphic object 110. For example, the graphic control device 150 executes software selected by a user from among various software provided therein, or applies or cuts off its own power.

As the graphic controller 150, a personal computer in which a central processing unit is embedded may be used. Accordingly, the user may control the graphic object 110 by using the user command input device 200 that communicates with the graphic control device 150.

The user command input device 200 generates a control signal and wirelessly transmits the control signal to the graphic control device 150 in response to a movement input or a button input from the user.

The display apparatus 100 serves to display the graphic object 110 generated and controlled by the graphic control apparatus 150.

1 illustrates that the graphic control device 150, the user command input device 200, and the display device 100 are distinguished from each other, the plurality of devices may be implemented as a single device. to be. For example, the function of the graphic control device 150 may be embedded in the user command input device 200 or the graphic control device 150 and the display device 100 may be implemented as one device.

2 is a block diagram illustrating a configuration of a user command input device according to an exemplary embodiment of the present invention, wherein the user command input device 200 includes a communication unit 210, a storage unit 220, a control unit 230, and an input unit 240. And at least one of the motion sensor 250.

The communication unit 210 communicates with the graphic control device 150 to transmit a user command signal to the graphic control device 150. Here, the user command signal may include a signal input through an input means such as a signal and a button for the detected motion.

As a communication method between the communication unit 210 and the graphic control device 150, wireless communication methods such as infrared communication, Bluetooth, home RF, WiBro, and wireless LAN may be used. .

The storage unit 220 stores a matching relationship between the input user command and a signal thereof. For example, when a user applies a specific movement to the user command input device 200 or selects a specific button among the provided buttons, a signal corresponding to the user command may be generated and transmitted through the communication unit 210. . The matching relationship stored in the storage 220 may be updated by the user.

The storage unit 220 may include a hard disk, a flash memory, a compact flash card (CF), a secure digital card (SD), a smart card (SM), a multimedia card (MMC), or a memory stick. May be provided inside the user command input device 200 as a module capable of inputting / outputting, or may be provided in a separate device. Here, when the storage unit 220 is provided in a separate device, the communication unit 210 may communicate with a separate device to transmit and receive information on a matching relationship between a user command and a signal thereof.

The controller 230 generates a signal corresponding to the input user command. To this end, the controller 230 may refer to a matching relationship between a user command stored in the storage 220 and a signal thereof.

In addition, the controller 230 may perform overall control of the communication unit 210, the storage unit 220, the input unit 240, and the motion sensor 250, and may relay data between modules.

The motion sensor 250 detects a motion applied to the user command input device 200, that is, a motion of the user command input device 200. In order to detect motion, the motion sensor 250 may include at least one of an inertial sensor, a geomagnetic sensor, and a gyro sensor.

Here, the inertial sensor represents a device that displays the inertial force of the mass generated by the acceleration or the angular velocity as a deformation of the elastic structure connected to the mass, and then displays the deformation of the structure as an electrical signal using an appropriate sensing and signal processing technique. A geomagnetic sensor is a device that measures the geomagnetism and displays information about the pole direction (absolute direction) of the geomagnetism as an electrical signal. A gyro sensor is a device that displays the force generated in the vertical direction of the rotation angle as an electrical signal. Indicates.

The input unit 240 includes a button, a wheel, a jog shuttle, and the like to receive a command from a user. The user may use a button, wheel, or jog shuttle configuring the input unit 240 to perform a specific function of the software executed by the graphic controller 150 or to control whether the user command input apparatus 200 is powered on. Can be.

In addition, in the present invention, the input unit 240 may be understood to include a departure prevention unit.

As described above, the user may input a user command by applying a motion to the user command input device 200 having the motion sensor 250, and the device does not move away from the hand or the gripping posture is intended. It can be changed to a posture.

To this end, the input unit 240 according to an embodiment of the present invention may include a departure prevention unit surrounding at least one or more of the plurality of buttons provided. That is, the user may place a finger on a specific button in a normal gripping position, and the finger is surrounded by the escape prevention unit to prevent the user command input device 200 from being separated.

3 and 4 are a side view and a perspective view of a user command input device according to an embodiment of the present invention, respectively, the user command input device 200 is the first housing 300, the second housing 400 and various Buttons 322, 323, 324, 325, 326, 327, and 411.

The user command input device 200 may be in the form of a bar, and the first housing 300 may have at least one button 322, 323, 324, 325, 326, and 327 for receiving a user command. It may be provided, the second housing 400 may be fastened to the first housing 300 by having a departure prevention portion 410.

Specifically, the first housing 300 is bent obliquely in the direction of the second housing 400 in front of the upper surface portion 320 and the bar protruding from the buttons 322, 323, 324, 325, 326, 327. It may be composed of a front portion 310.

The upper surface part 320 may have a flat surface or a slight curved surface. Each of the buttons 322, 323, and a plurality of holes may be provided so that the buttons provided to be coupled to the inner substrate (not shown) may protrude through. It may be formed on the upper surface portion 320 corresponding to the positions of the 324, 325, 326, 327.

The upper surface part 320 may include buttons 322, 323, 324, 325, 326, and 327 and a power confirmation lamp 321. The button may include a power button 322, a home switch button 323, a direction button 324, a confirmation button 325, and function buttons 326 and 327.

The power button 322 may protrude from the front left side of the upper surface part 320, which serves to control the power of the graphic control device 150. For example, the user may use the power button 322 to apply power to the graphic control device 150 or to turn off the power.

The home switch button 323 may be provided to protrude on the front right side of the upper surface part 320, which serves to switch to the initial screen of the software executed by the graphic control device 150. For example, while using a specific software, the user may want to switch to the initial screen for setting the environment. When the home switch button 323 is selected, the user switches to the initial screen. In addition, the home switch button 323 may serve as a menu display execution. For example, when the home switch button 323 is selected once, when the home switch button 323 is selected while the screen is switched to the initial screen, the menu screen may be displayed.

The direction button 324 may be used to move the position of the graphic objects 110 and 120 displayed on the screen. The direction button 324 is located behind the upper surface 320 with respect to the power button 322 and the home switch button 323. Nevertheless, the direction button 324 is the front area of the entire upper surface 320 area. It is preferable to be provided in.

The direction button 324 may be composed of four buttons indicating up, down, left, and right. As shown in FIGS. 3 and 4, four direction buttons or four directions indicating each of four directions ( Not shown). When the direction button 324 is provided in the form of a cross, by selectively pressing the four ends, the user may input a movement command of the graphic objects 110 and 120 in the corresponding direction. For example, the user selects a direction button located at the forefront of the upper surface part 320 to input an upward direction command, selects a direction button located behind the upper surface part, and inputs a downward direction command. Select the direction button located on the left side based on the straight line connecting the up direction button and the down direction button (hereinafter referred to as the center axis line), and input the movement command to the left direction. By selecting the direction button, you can enter the right direction command.

The confirmation button 325 may be located on the central axis line of the rear region with respect to the direction button 324 of the upper surface portion 320. The confirmation button 325 may be used to input the user's approval on software running by the graphic control device 150. For example, the user may use the direction button 324 to position the cursor on a specific item among menus displayed on the screen or to activate the corresponding item. By pressing the confirmation button 325, the user selects the item. You can enter a user command to indicate that you have selected.

The function buttons 326 and 327 may be located in the rear area of the upper surface part 320 area, which may be used to input whether to select a special function provided by the software. For example, if the software being executed by the graphic control device 150 is a shooting game, the user can launch a laser or launch a missile using the function buttons 326 and 327. That is, the user may grip the front part of the user command input device 200 with his left hand and the rear part of the user command input device 200 with his right hand instead of holding the user command input device 200 with one hand. In this case, the user can operate the direction button 324 with his left hand (specifically with his left thumb) and the function buttons 326, 327 with his right hand (specifically with his right thumb).

The power confirmation lamp 321 indicates whether power is supplied to the user command input device 200 to prepare for operation. That is, the user may apply or cut power to the user command input device 200 by using a switch (not shown) for power supply or cutoff. When the power is cut off, the power check lamp 321 is turned off. The power confirmation lamp 321 is turned on when the power is applied while being maintained.

On the other hand, the user command input device 200 may not be separately provided with a switch for applying power or cut off. That is, when the user selects one or a specific combination of the buttons 322, 323, 324, 325, 326, and 327 provided, the power may be applied or cut off.

In addition, the power confirmation lamp 321 may be provided at a position bent from the upper surface portion 320 to the front portion 310 may be used as a means indicating whether the input of the user command has been performed. For example, when a movement is applied or when the buttons 322, 323, 324, 325, 326, 327, and 411 are selected, the user may blink several times. This allows the user to correctly input a user command entered by the user. You can check whether or not.

At this time, the power confirmation lamp 321 may have a different blinking pattern according to the type of the input user command. For example, the power confirmation lamp 321 flashes once when the direction button 324 is selected, and flashes two or three times when the confirmation button 325 is selected, and continuously flashes while the movement is applied. It is.

The front part 310 connected to the upper surface part 320 and bent obliquely in the direction of the second housing 400 to face the front is not shown in appearance, but the communication part 210 is provided inside the front part 310. It may be provided.

The second housing 400 may include a holding part 420 and a departure prevention part 410. The holding unit 420 may be understood as an area where the middle finger, the ring finger, and the little finger are located when the user holds the user command input device 200 with one hand. In addition, the user may selectively position the index finger on the holding unit 420 or the departure prevention unit 410.

A part of the holding part 420 may be configured as the battery cover 421. The battery is mounted in close contact with the battery cover 421 inside the holding part 420, so that the center of gravity of the overall user command input device 200 is provided. To effect toward the second housing 400. In addition, as the battery is located on the rear side of the user command input device 200, the overall center of gravity is directed toward the bottom of the rear side, thereby providing a stable grip by the user.

The departure prevention unit 410 may be formed in the lower portion of the user command input device 200, that is, the second housing 400 in a hollow manner. Accordingly, when the user inserts a finger into the departure prevention unit 410, It is possible to support the user command input device 200 with only a finger. That is, the user command input device 200 has a bar shape as shown in FIG. 3 or 4, the first housing 300 faces in the opposite direction to the ground surface, and the second housing 400 faces the ground surface. When facing the direction, the hollow is formed in a direction perpendicular to the axis and parallel to the ground surface extending to the front side, which is one side of the bar and the rear side, which is the other side. In other words, in FIG. 4, when the axes extending the front and the rear of the bar correspond to the Y axis and the axis of the ground surface corresponds to the Z axis, the departure preventing part 410 may be formed as a hollow in the X-axis direction. .

In addition, the departure prevention unit 440 may include a trigger type button (hereinafter, referred to as a trigger button) 411 that protrudes in the hollow inward direction and receives a user command. For example, a command for a specific function provided by software of the graphic control device 150 may be input.

Here, the trigger button 411 may be formed to protrude in the front direction from the rear direction of the second housing 400 of the hollow inside of the departure prevention unit 410, whereby the user is to remove the index finger ( 410 is inserted through the trigger button 411 by bending the index finger in the state of being inserted into the hollow and holding the upper surface portion 320 and the holding portion 420 with the remaining fingers and palms. You can enter user commands. To this end, the departure prevention unit 410 is preferably provided on the front lower portion of the user command input device 200, that is, the front surface of the second housing 400.

On the other hand, while the departure prevention unit 410 has been described in the form of a closed curve (for example, a donut shape), the departure prevention unit 410 is a curved form (for example, the letter "C" of the English alphabet) Form). For example, there may be an open portion of the departure preventing portion 410 at the front portion of the second housing 400 that meets the end of the front portion 310.

5 is a view showing the departure prevention portion 500 in the form of an open curve according to an embodiment of the present invention, a portion 520 and the departure prevention portion 500 of the departure prevention portion 500 connected to the holding portion 420. It is shown that the front portion 510 of) is separated. Here, the front portion 510 of the departure prevention part 500 slightly protrudes so that the groove 540 is formed inside the departure prevention part 500, and the user uses the user command input device 200. It can be stored easily.

For example, in order to store the user command input device 200 in a straight bar (hereinafter, fixedly desired) (not shown) fixed in parallel with a wall, the user may open the departure prevention part 500. The fixing bar may be inserted into the portion 530 and the rear surface of the user command input device 200 may face toward the ground to allow the fixing bar to be grooved. In this case, the above-described trigger button 411 may be provided inside the departure prevention unit 500 of the open curve shape.

On the other hand, Figure 5 shows that the open portion 530 of the departure prevention part 500 is formed in the front portion of the second housing 400, the departure prevention part 500 and the holding part 420 is in contact with the portion Of course, an open portion (not shown) may be formed.

FIG. 6 is a diagram illustrating a front button according to an exemplary embodiment of the present invention, in which a front button 310 is provided with a button (hereinafter, referred to as a front button).

The front button 600 may be in the form of protruding outward on the front portion 310, its role may be understood to perform the same or separate functions as the trigger button 411 or the function buttons (326, 327). have.

As the front button 600 is provided as described above, the user grips the body of the user command input device 200 with one hand and selects the front button 600 with the other hand. Not only functions as a button but also provides an effect of inducing a user to hold the user command input device 200 with two hands.

In addition, the user may select the front button 600 with the index finger or the other finger of the corresponding hand while holding the user command input device 200 with one hand, for example, by placing the index finger on the front button 600. In this case, as the index finger and the middle finger fix the front surface of the user command input device 200, the user command input device 200 may be prevented from being separated from the hand.

Although embodiments of the present invention have been described above with reference to the accompanying drawings, those skilled in the art to which the present invention pertains may implement the present invention in other specific forms without changing the technical spirit or essential features thereof. You will understand that. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive.

1 is a view showing a user command control system according to an embodiment of the present invention.

2 is a block diagram showing the configuration of a user command input device according to an embodiment of the present invention.

3 is a side view of a user command input device according to an embodiment of the present invention.

4 is a perspective view of a user command input device according to an embodiment of the present invention.

5 is a view showing the departure-avoidance portion in the form of an open curve according to an embodiment of the present invention.

6 is a view showing a front button according to an embodiment of the present invention.

<Explanation of symbols on main parts of the drawings>

300: first housing 310: front portion

320: upper surface portion 400: second housing

410: departure prevention part 420: holding part

Claims (7)

A first housing protruding at least one first button for receiving a user command; And And a second housing coupled to the first housing by having a departure prevention unit. The method of claim 1, The user command input device having a motion sensor for detecting a movement inside the front portion of the first housing. The method of claim 1, The departure prevention unit is a user command input device formed in the second housing hollow. The method of claim 1, The departure prevention unit is a user command input device formed in the form of a curve opened in the second housing. The method according to claim 3 or 4, And the departure prevention part includes a second button which protrudes in the inward direction of the hollow or the open curve and receives a user command. The method of claim 5, The second button is a user command input device formed to protrude in the front direction from the rear direction of the second housing of the inside of the hollow or the open curve. A housing provided with at least one button protruding from the user command; And And a front button protruding outward from the front portion of the housing.

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