JP6814923B1 - pointing device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a pointing device which can be used even in a narrow space while maintaining high operability. SOLUTION: A pointing operation including a movement operation of a pointer P displayed on a display screen 102 of a PC 100 is possible, and even in a state where the bending load is released by plastic deformation when a bending load is applied. The flexible rod 3 that maintains the deformed state and the load cell 4a that is arranged on the flexible rod 3 and detects the deformation of the flexible rod 3 and outputs a detection signal for moving the pointer P according to the amount and direction of the deformation. ~ 4d and an operation unit 5 arranged on the flexible rod 3 to output an operation signal according to the operation are provided. [Selection diagram] Fig. 1

Description

The present invention relates to a pointing device for performing a pointing operation including a moving operation of a pointer displayed on a display screen of an electronic device.

A mouse has been conventionally known as a pointing device for performing a pointing operation on a computer. The mouse is widely used as an excellent pointing device because of its good operability. However, since operation using a mouse requires a flat surface for operation of a predetermined size, a touch pad that moves a pointer with a fingertip instead of a mouse in a notebook computer that is supposed to be used in a narrow space. And a fingertip operation type pointing device such as a pointing stick (for example, a touch pad disclosed in Japanese Patent Application Laid-Open No. 2000-163210 and a pointing device disclosed in Japanese Patent Application Laid-Open No. 2003-296016) are generally used. It has been adopted.

Japanese Unexamined Patent Publication No. 2000-163210 (Page 2, FIG. 1) Japanese Patent Application Laid-Open No. 2003-296016 (Page 3, FIG. 1)

However, the conventional fingertip operation type pointing device has the following problems. That is, the above-mentioned fingertip operation type pointing device has an advantage that it is compact and does not require a flat surface for operation, but on the other hand, the operability is extremely poor as compared with a mouse due to the characteristic of operating with a fingertip, and the pointing operation can be performed as desired. There is a problem that it cannot be done.

The present invention has been made in view of such problems, and an object of the present invention is to provide a pointing device that can be used even in a narrow space while maintaining high operability.

The pointing device according to claim 1 for achieving the above object is a pointing device for performing a pointing operation including a moving operation of a pointer displayed on a display screen of an electronic device, and when a bending load is applied. A flexible rod that is plastically deformed to maintain the deformed state even when the bending load is released, and a flexible rod that is disposed on the flexible rod and detects the deformation of the flexible rod according to the amount and direction of the deformation. It is provided with a detection unit for outputting a detection signal for moving the pointer, and an operation unit arranged on the flexible rod for outputting an operation signal according to the operation.

Further, the pointing device according to claim 2 is the pointing device according to claim 1, wherein the operating unit has the plasticity of the flexible rod only when it is operated or not operated in advance. An operation button that allows the pointer to move due to deformation is provided.

According to the pointing device according to claim 1, the flexible rod is provided with a flexible rod that plastically deforms when a bending load is applied, and a detection unit that detects the deformation of the flexible rod and outputs a detection signal. Since the pointer can be moved by the amount of movement in an arbitrary direction by plastically deforming the rod, it can be sufficiently used even in a narrow space while maintaining high operability.

Further, according to the pointing device according to claim 2, the flexible rod has an operation button that allows the pointer to move due to the plastic deformation of the flexible rod only at the time of operation or non-operation, whichever is specified in advance. For example, when it is specified that the movement of the pointer is allowed when the operation button is operated (when pressed), the flexible rod is plastically deformed in a desired direction in the operation state of the operation button and the direction thereof. Move the pointer to, then return the flexible rod to its original state in the non-operated state of the operation button, and then repeat the operation of plastically deforming the flexible rod in the same direction in the operated state of the operation button to move the pointer significantly. The operation to make it can be easily performed.

It is a perspective view of the pointing device 1. It is a perspective view which shows the arrangement state of the load cells 4a to 4d. It is a perspective view of the state where the pointing device 1 is attached to PC100. It is explanatory drawing explaining the usage method of the pointing device 1.

Hereinafter, embodiments of the pointing device according to the present invention will be described with reference to the accompanying drawings.

First, the configuration of the pointing device 1 as an example of the pointing device according to the present invention will be described with reference to the accompanying drawings.

The pointing device 1 shown in FIG. 1 is for performing a pointing operation including a moving operation of a pointer P displayed on the display screen 102 of the notebook PC (personal computer) 100 shown in FIG. 3 as an example of an electronic device. The device includes a fixed portion 2, a flexible rod 3, a plurality of (for example, four) load cells 4a to 4d (hereinafter, also simply referred to as “load cell 4” when not distinguished), and an operating portion 5. Has been done.

As shown in FIG. 1, the fixing portion 2 is formed in a U-shape in a side view and is fitted into the edge of the main body 101 of the PC 100 or the edge of a keyboard (not shown) of a desktop personal computer. For example, it can be fixed by screwing. Further, the fixing portion 2 is formed with a holding portion 21 for inserting and holding the base end portion of the flexible rod 3.

The flexible rod 3 is configured to be plastically deformed when a bending load is applied and to maintain the deformed state even when the bending load is released. Specifically, the flexible rod 3 has a cylinder made of a soft resin (for example, vinyl chloride) and a soft metal (for example, lead or soft) inserted (filled) inside the cylinder. It is configured to include a core material made of aluminum) or the like. Further, as shown in FIG. 1, the flexible rod 3 is held in a state where the base end portion (lower end portion in the figure) is inserted into the holding portion 21 formed in the fixing portion 2. The flexible rod 3 is not limited to the above structure, and is a bellows structure or a joint as long as it can be plastically deformed when a bending load is applied and can be maintained in a deformed state even when the bending load is released. Various structures such as a structure (joint structure) can be adopted.

As shown in FIG. 2, the load cells 4a to 4d are arranged at equal intervals in the circumferential direction of the outer peripheral surface of the flexible rod 3 (so that the straight lines connecting the centers of the load cells 4a to 4d intersect each other at right angles). It is arranged and outputs a detection signal (strength according to the amount of plastic deformation) according to the plastic deformation of the flexible rod 3. In this case, since the four load cells 4a to 4d are arranged at equal intervals, the PC100 processes each detection signal output from each load cell 4a to 4d to reduce the amount of plastic deformation of the flexible rod 3 and the plastic deformation. The pointer P displayed on the display screen 102 of the PC 100 is moved according to the orientation.

As shown in FIG. 1, the operation unit 5 includes a first button 51, a second button 52, and an operation button 53, and is used to output an operation signal corresponding to the operation. Further, the operating portion 5 is attached to the tip end portion (upper end portion in the figure) of the flexible rod 3. In this case, the first button 51 can function in the same manner as either the right button or the left button in a normal mouse, and the second button 52 is the other of the right button and the left button in a normal mouse. Can function in the same way as. Further, the operation button 53 has a function of allowing the pointer P to move only when it is operated or not operated, whichever is specified in advance by the operation setting described later.

Next, how to use the pointing device 1 will be described with reference to the drawings. It is assumed that the driver for driving the pointing device 1 and the utility software for setting the operation of the pointing device 1 are pre-installed on the PC 100 that performs the pointing operation using the pointing device 1.

First, as shown in FIGS. 3 and 4, the pointing device 1 is attached to the PC 100. Specifically, the fixing portion 2 is fitted into the edge portion of the main body portion 101 of the PC 100, and then the screw 22 (see FIG. 4) is tightened to fix the fixing portion 2. Next, a USB cable (not shown) arranged in the fixed portion 2 is connected to the PC 100. At this time, the pointing device 1 is recognized by the plug-and-play function of the PC 100.

Next, the utility software installed on the PC 100 is started and the operation is set. In this operation setting, it is specified whether to allow the movement of the pointer P when the operation button 53 of the operation unit 5 is operated (when pressed) or when it is not operated (when not pressed). In this case, in this example, it is assumed that the movement of the pointer P is allowed when the operation button 53 is operated. As a result, the pointing device 1 is ready for use.

In this state, when the pointer P is moved to the right side, for example, the flexible rod 3 is moved to the right side (FIG. 4) while the operation unit 5 of the pointing device 1 is grasped and the operation button 53 of the operation unit 5 is operated (pressed). Deform (plastic deformation) from the state shown by the broken line in. At this time, a detection signal corresponding to the amount of deformation of the flexible rod 3 is output from the load cells 4a to 4d arranged on the outer peripheral surface of the flexible rod 3, and the PC 100 inputs the detection signal and processes the flexible rod 3. The pointer P moves to the right by the amount of movement corresponding to the amount of deformation of the rod 3 to the right. Next, when the increase in the amount of deformation of the flexible rod 3 to the right is stopped, or when the operation on the operation button 53 is released (when the operation button 53 is not operated), the pointer P stops at the position at that time. ..

On the other hand, when the flexible rod 3 is greatly deformed to the right side and further deformation becomes difficult, and it is desired to move the pointer P to the right side, the operation button 53 is not operated (non-operation state). The rod 3 is deformed to the left side (from the state shown by the solid line in FIG. 4 to the state shown by the broken line), and then the flexible rod 3 is deformed to the right side again while the operation button 53 is operated (operation state). By repeating such an operation, the pointer P can be moved to the right side by an arbitrary amount of movement. Further, by changing the deformation direction of the flexible rod 3 in each of the above operations, the pointer P can be moved in an arbitrary direction by an arbitrary amount of movement. Next, by operating the first button 51 and the second button 52 with the pointer P moved to a desired position, the PC 100 is instructed to perform a predetermined process.

In this case, each of the above operations on the pointing device 1 is particularly useful when the PC 100 is used in a narrow space because a flat area for moving the mouse is not required unlike the operation using the mouse. Further, since the pointer P can be moved in an arbitrary direction by an arbitrary amount of movement by plastically deforming the flexible rod 3, the mouse can be operated as compared with a conventional fingertip operation type pointing device such as a flat panel. Since the pointing operation can be performed with an operation feeling close to that of, the operability can be remarkably improved.

As described above, according to the pointing device 1, the flexible rod 3 that plastically deforms when a bending load is applied and the load cell 4 that detects the deformation of the flexible rod 3 and outputs a detection signal are provided. Since the pointer P can be moved by the amount of movement in an arbitrary direction by plastically deforming the flexible rod 3, it can be sufficiently used even in a narrow space while maintaining high operability.

Further, according to the pointing device 1, an operation button 53 that allows the pointer P to move due to the plastic deformation of the flexible rod 3 is provided only at the time of operation or non-operation specified in advance. As a result, for example, when it is specified to allow the pointer to move in the operating state of the operation button 53, the flexible rod 3 is plastically deformed in a desired direction in the operating state of the operation button 53 and the pointer is moved in that direction. Then, after returning the flexible rod 3 to the original state in the non-operated state of the operation button 53, the pointer is greatly moved by repeating the operation of plastically deforming the flexible rod 3 in the same direction again in the operated state of the operation button 53. The operation to make it can be easily performed.

The present invention is not limited to the above-mentioned configuration, and the method of use is not limited to the above-mentioned method of use. For example, although the example in which the pointing device 1 is attached to the PC 100 and used is described above, it can also be used by attaching it to the keyboard of a desktop personal computer. Further, although the example in which the pointing device 1 is configured to be detachably attached to the main body 101 of the PC 100 or the keyboard of the desktop personal computer has been described above, the pointing device 1 is attached in advance to the main body 101 of the PC 100 or the keyboard of the desktop personal computer. Can also be adopted. In addition, the pointing device 1 can be used for pointing operations in various electronic devices other than personal computers.

Further, although the configuration example including the four load cells 4 has been described above, the number of the load cells 4 is not limited to four and can be specified to any number. Further, although the example in which the movement of the pointer P is specified to be allowed when the operation button 53 is pressed has been described above, these specifications can be arbitrarily changed according to the usage pattern and the user's preference. it can.

1 Pointing device 3 Flexible rod 5 Operation unit 4a to 4d Load cell 53 Operation button 100 PC
102 Display screen P pointer

Claims (2)

A pointing device for performing pointing operations, including moving pointers displayed on the display screen of electronic devices.
A flexible rod that plastically deforms when a bending load is applied and maintains the deformed state even when the bending load is released, and a flexible rod that is disposed on the flexible rod and detects the deformation of the flexible rod. It includes a detection unit that outputs a detection signal for moving the pointer according to the amount and direction of deformation, and an operation unit that is arranged on the flexible rod and outputs an operation signal according to the operation. pointing device. The operation unit is provided with an operation button that allows the pointer to move due to the plastic deformation of the flexible rod only at the time of operation or non-operation specified in advance. 1. The pointing device according to 1.

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