JP2005276548A - Touch type input device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a touch type input device in which a good input operating feeling obtained. <P>SOLUTION: When an outside force in the direction of a first electrode 5 approaching to a second electrode 6 is acted on an elastic deformation part 31a of an elastic body 3, a heater 7 is operated and a fluid in a cell 33 is expanded and the elastic deformation part 31a of the elastic body 3 rises up in a projetcion shape. Therefore, when, for example, the elastic body 3 is pushed down by a fingertip, the elastic deformation part 31a rises up in projection shape and the tip of the elastic part 31a hits the fingertip, thereby, the operator can clearly recognize that the input operation of a specific button has been completed through the fingertip. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a touch input device having a flat input portion.

  Conventionally, there is an input device in which a pair of contacts and an electrorheological fluid are sandwiched between upper and lower supports (see the following patent publication). Both the upper and lower supports are plate-shaped. The pair of contacts are opposed to each other through a gap. The electrorheological fluid is contained in a flexible container. A pair of contacts is surrounded by the container.

When the upper support is pressed with a finger and the distance from the upper contact to the lower contact becomes a predetermined value or less, a feedback signal is output from the computer to the electrorheological fluid, and the viscosity of the electrorheological fluid increases. As a result, the input resistance (reaction force acting on the fingertip) increases and the feel changes.
JP-A-9-319509 (paragraph number 0020, FIG. 1)

  However, in the above-described input device, when the upper support is pushed with the fingertip, the support moves slightly downward, and the reaction force acting on the fingertip only increases.

  Therefore, it is difficult for the operator to clearly recognize through the fingertip that the input operation of the specific button has been completed. That is, the conventional input device cannot obtain a good input operation feeling.

  This invention is made in view of such a situation, The subject is providing the touch-type input device which can acquire a favorable input operation feeling.

  In order to solve the above-described problem, a touch input device according to the first aspect of the present invention includes a cell filled with a fluid, and an elastic body having an elastic deformation portion that protrudes in a convex shape due to expansion of the fluid, A first electrode disposed in the cell; a second electrode disposed in the cell so as to face the first electrode; a heating means for heating the fluid; and the first electrode serving as the second electrode. Detecting means for detecting that an external force in a direction approaching the elastic body acts on an elastic deformation portion of the elastic body; and a control means for operating the heating means to expand the fluid when the detecting means detects the external force; It is characterized by having.

  As described above, when the external force in the direction in which the first electrode approaches the second electrode acts on the elastic deformation portion of the elastic body, the heating means operates to expand the fluid in the cell, and the elastic deformation portion of the elastic body Raised in a convex shape. Therefore, for example, when the elastic body is pressed with a fingertip, the elastic deformation portion protrudes in a convex shape, and the tip of the elastic deformation portion hits the fingertip. It can be clearly recognized through the fingertips.

  According to a second aspect of the present invention, in the touch input device according to the first aspect of the invention, the elastically deforming portion is recessed toward the second electrode when the fluid is not expanded.

  As described above, since the elastically deforming portion is recessed toward the second electrode when the fluid is not expanded, the operator can distinguish the input operation region from the other region through the sense of touch.

  According to a third aspect of the present invention, in the touch input device according to the first or second aspect of the invention, the first electrode is substantially annular, and the elastic deformation portion when the fluid is not expanded is caused by the first electrode. It is characterized by being surrounded.

  As described above, since the first electrode is substantially annular and the elastic deformation portion when the fluid is not expanded is surrounded by the first electrode, the convex tip of the elastic deformation portion is surely attached to the fingertip pressing the elastic body. The operator can recognize more clearly that the input operation has been completed.

  According to a fourth aspect of the present invention, in the touch-type input device according to the third aspect of the invention, the second electrode is substantially annular, and the heat generating portion of the heating means is surrounded by the second electrode. It faces the elastic deformation part.

  As described above, the second electrode is substantially annular, the heat generating part of the heating means is surrounded by the second electrode, and the heat generating part is opposed to the elastically deforming part. Can be planned.

  According to a fifth aspect of the present invention, there is provided a touch-type input device having a cell filled with a fluid, an elastic body having an elastically deforming portion protruding in a convex shape by the expansion of the fluid, and a first element disposed in the cell. 1 electrode, the 2nd electrode arrange | positioned so that the said 1st electrode may be opposed in the said cell, and the heating means which heats the said fluid, The said elastic body joins this upper insulating film and this upper insulating film A recess corresponding to the cell is two-dimensionally arranged in the lower insulating film, the second electrode and the heating means are accommodated in the plurality of recesses, and the upper insulating film The first electrode and the elastically deformable portion are arranged on the film so as to correspond to the plurality of concave portions.

  For example, by raising a plurality of elastic deformation portions selected from two-dimensionally arranged elastic deformation portions, it is possible to partition the input operation area and other areas or to form Braille.

  A sixth aspect of the present invention is the touch input device according to any one of the first to fifth aspects, wherein the elastically deforming portion of the elastic body is thinner than other portions.

  Since the elastic deformation part of the elastic body is thinner than the other parts as described above, the elastic deformation part is easily raised.

  A seventh aspect of the present invention is the touch input device according to any one of the first to sixth aspects, wherein the elastic body and the first and second electrodes are transparent.

  Since the elastic body and the first and second electrodes are transparent as described above, the display on the screen is not hidden when the touch-type input device is mounted on the display screen and used.

  As described above, according to the touch-type input device of the first aspect of the present invention, for example, when the elastic body is pressed with the fingertip, the elastically deforming portion protrudes in a convex shape, and the elastically deforming portion of the fingertip is Since the leading end hits, the operator can clearly recognize through the fingertip that the input operation of the specific button has been completed, and can obtain a good input operation feeling.

  According to the touch input device of the second aspect of the present invention, as described above, the elastically deforming portion is dented toward the second electrode when the fluid is not inflated. Thus, for example, a so-called blind touch input operation can be performed.

  According to the touch input device of the third aspect of the present invention, the convex tip of the elastically deforming portion surely hits the fingertip pushing the elastic body, and the operator can more clearly recognize that the input operation has been completed. And a good input operation feeling can be obtained.

  According to the touch input device of the invention described in claim 4, the touch input device can be made compact.

  According to the touch input device of the fifth aspect of the present invention, for example, by raising a plurality of elastic deformation portions selected from the two-dimensional elastic deformation portions, the input operation region and the other regions are It is possible to partition or form braille, and to facilitate the input operation.

  According to the touch input device of the sixth aspect of the present invention, the elastically deformable portion is easily raised and the input operability is improved.

  According to the touch input device of the seventh aspect of the invention, since the display on the display screen is not hidden by the touch input device, the touch input device can be used by being mounted on the display screen.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a cross-sectional view showing a state in which an elastic deformation portion of a touch input device according to an embodiment of the present invention is dented, and FIG. 2 shows a state in which one of the elastic deformation portions of the touch input device is expanded. 3 is an exploded perspective view of the touch input device, FIG. 4 is an enlarged view of part A in FIG. 3, FIG. 5 is an enlarged view of part B in FIG. 3, and FIG. 6 is a block diagram of the touch input device. FIG.

  The touch input device 1 includes an elastic body 3, a first electrode 5, a second electrode 6, a heater (heating means) 7, a detection device (detection means) 81, a control device (control means) 82, a power supply 83, and a switch 84. With.

  The elastic body 3 includes an upper insulating film 31 and a lower insulating film 32. Both films 31 and 32 are transparent.

  A plurality of elastic deformation portions 31 a are formed on the upper insulating film 31. The plurality of elastic deformation portions 31a are regularly two-dimensionally arranged. The elastic deformation portion 31a is thinner than the other portions of the upper insulating film 31. Normally, the elastically deforming portion 31a is recessed toward the second electrode 6 (see FIG. 1), but as described later, when the pressure in the cell 33 increases, the elastically deforming portion 31a protrudes in a convex shape in the opposite direction (see FIG. 2). . As a material of the upper insulating film 31, for example, polyimide is suitable.

  A plurality of recesses 32 a are formed in the lower insulating film 32. The plurality of recesses 32a are regularly arranged two-dimensionally. The elastic deformation portion 31a enters the recess 32a. The opening of the recess 32a is closed by the upper insulating film 31, and a plurality of sealed cells 33 are formed. The cell 33 is filled with silicon oil (fluid) containing bubbles. As a material of the lower insulating film 32, for example, polyimide is suitable.

  The first electrode 5 is fixed to the lower surface of the upper insulating film 31. As shown in FIG. 4, the first electrode 5 has a ring shape or an annular shape and surrounds the elastic deformation portion 31a. The first electrode 5 is connected to the power source 83 via the conductive path 11. The first electrode 5 and the conductive path 11 are transparent. As a material for the first electrode 5 and the conductive path 11, ITO (indium tin oxide) is suitable.

  The second electrode 6 is fixed to the bottom surface of the recess 32a. As shown in FIG. 5, the second electrode 6 is C-shaped or substantially annular and faces the first electrode 5. The second electrode 6 is connected to the power source 83 through the conductive path 12. The second electrode 6 and the conductive path 12 are transparent. ITO is suitable as a material for the second electrode 6 and the conductive path 12.

  The heater 7 has a heat generating portion 71 and a connecting portion 72. The heat generating portion 71 is fixed to the bottom surface of the recess 32a. The heat generating portion 71 is C-shaped and is disposed inside the second electrode 6. The connecting portion 72 is connected to both ends of the heat generating portion 71. The heat generating part 71 is connected to a power source 83 via a connection part 72. A carbon paste is suitable as a material for the heat generating portion 71 of the heater 7.

  The detection device 81 measures the capacitance between the first and second electrodes 5 and 6.

  The output terminal of the detection device 81 is connected to the input terminal of the control device 82. The control device 82 outputs a control signal to the switch 84 that selects a power supply destination of the power supply 83.

  7 is a cross-sectional view showing a state in which the elastic deformation portion of the touch-type input device is pressed with a finger, and FIG. 8 is a cross-sectional view showing a state in which the elastic deformation portion of the pressed touch-type input device is raised.

  Next, the operation of the touch input device of this embodiment will be described.

  The touch-type input device 1 is mounted on, for example, a touch panel (not shown) and used as a device that assists input operations.

  As shown in FIG. 7, when the operator presses one elastic deformation part 31a with the fingertip F, the pressure is transmitted to the touch panel, and the touch panel outputs an input signal. At this time, the interval between the first electrode 5 and the second electrode 6 is narrowed, and the capacitance between the first and second electrodes 5 and 6 changes. As shown in FIG. 8, the control device 82 specifies which cell 33 has changed capacitance based on the detection signal from the detection device 81, and supplies a current to the heater 7 disposed in the cell 33. Is output. The switch 84 is operated by this control signal, and current is supplied only to the heater 7 in the selected cell 33.

  As a result, the silicon oil containing bubbles in the cell 33 is heated by the heater 7 to expand the bubbles, and the pressure of the bubbles causes the elastically deforming portion 31a to protrude upward as shown in FIG. . At this time, since the tip of the elastic deformation member 31a hits the fingertip F of the operator, the operator can clearly recognize that the input has been completed.

  As described above, according to this embodiment, the operator can clearly recognize through the fingertip F that the input operation of a specific button has been completed.

  In addition, since the elastic deformation portion 31a is dented toward the second electrode 6 when the bubble is not expanded, the operator can distinguish between the input operation region and the other region through touch, for example, so-called blind touch. Input operation becomes possible.

  Further, since the first electrode 5 is annular and the elastic deformation portion 31a when the bubble is not inflated is surrounded by the first electrode 5, the fingertip F that presses the elastic body 3 is elastically pressed when the operator inputs it. The convex tip of the deformable portion 31a reliably hits, and the operator can more clearly recognize that the input operation has been completed, and can obtain a good input operation feeling.

  Further, the second electrode 6 is substantially annular, and the second electrode 6 surrounds the heat generating portion 71 of the heater 7, and the heat generating portion 71 faces the elastic deformation portion 31 a, so that the touch input device 1 Compactness can be achieved.

  Furthermore, since the elastic deformation part 31a of the elastic body 3 is thinner than the other parts, the elastic deformation part 31a is easily raised, and the input operability is improved.

  Moreover, since the elastic body 3 and the 1st, 2nd electrodes 5 and 6 are transparent, when the touch-type input device 1 is mounted | worn with and used for the screen of a touchscreen, the display of a screen is not hidden. Therefore, the touch input device 1 can also be used as an input assist device for a touch panel.

  In this embodiment, the cell 33 is filled with silicon oil containing bubbles. However, the fluid filled in the cell 33 is not limited to silicon oil containing bubbles, for example, water containing bubbles, liquid, gas, etc. Any fluid that increases in volume when heated by heating means and decreases in volume at room temperature can be used.

  In this embodiment, the input position is detected by detecting a change in capacitance. However, the input position may be detected by bringing the first electrode 5 and the second electrode 6 into contact with each other.

  FIG. 9 is a perspective view showing how to use a touch input device according to another embodiment of the present invention.

  In this embodiment, the touch input device 1 is used by being mounted on the screen of the touch panel 21.

  In the above-described embodiment, the elastically deforming portion 31a of the cell 33 facing the input button in the input standby state of the touch panel is recessed, but in this embodiment, the opposite is true. That is, in this embodiment, the elastically deforming portions 31a of the cells 33 in the two regions Ar1 and Ar2 facing the two input buttons (display portions 21a and 21b) in the input standby state of the touch panel are raised in a convex shape, The elastic deformation part 31a of the cell 33 in the area facing the input button (parts other than the display parts 21a and 21b) not in the standby state is recessed.

  According to this embodiment, since the plurality of elastic deformation portions 31a selected from the elastic deformation portions 31a arranged in a matrix can be raised, the input operation region and other regions can be distinguished through tactile sense. Operation can be facilitated.

  Furthermore, if the elastic deformation part 31a is miniaturized, braille can be formed by a combination of a plurality of elastic deformation parts 31a.

FIG. 1 is a cross-sectional view showing a state in which an elastic deformation portion of a touch input device according to an embodiment of the present invention is dented. FIG. 2 is a cross-sectional view showing a state where one of the elastically deforming portions of the touch input device is expanded. FIG. 3 is an exploded perspective view of the touch input device. FIG. 4 is an enlarged view of a portion A in FIG. FIG. 5 is an enlarged view of a portion B in FIG. FIG. 6 is a block diagram of the touch input device. FIG. 7 is a cross-sectional view showing a state in which the elastic deformation portion of the touch input device is pressed with a finger. FIG. 8 is a cross-sectional view showing a state where the elastically deforming portion of the pressed touch input device is raised. FIG. 9 is a perspective view showing how to use a touch input device according to another embodiment of the present invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Touch type input device 3 Elastic body 31 Upper side insulating film 32 Lower side insulating film 32a Recessed part 5 1st electrode
6 Second electrode 7 Heater 71 Heat generating part 31a Elastic deformation part 33 cell

Claims (7)

An elastic body having a cell filled with fluid and having an elastically deforming portion that protrudes in a convex shape due to expansion of the fluid;
A first electrode disposed in the cell;
A second electrode disposed in the cell so as to face the first electrode;
Heating means for heating the fluid;
Detecting means for detecting that an external force in a direction in which the first electrode approaches the second electrode has acted on an elastic deformation portion of the elastic body;
And a control means for expanding the fluid by operating the heating means when the detecting means detects the external force.   The touch input device according to claim 1, wherein the elastically deforming portion is recessed toward the second electrode when the fluid is not expanded.   The touch-type input device according to claim 1, wherein the first electrode is substantially annular, and the elastic deformation portion when the fluid is not expanded is surrounded by the first electrode.   The touch-type touch panel according to claim 3, wherein the second electrode is substantially annular, the heat generating portion of the heating means is surrounded by the second electrode, and the heat generating portion faces the elastic deformation portion. Input device. An elastic body having a cell filled with fluid and having an elastically deforming portion that protrudes in a convex shape due to expansion of the fluid;
A first electrode disposed in the cell;
A second electrode disposed in the cell so as to face the first electrode;
Heating means for heating the fluid,
The elastic body is composed of an upper insulating film and a lower insulating film bonded to the upper insulating film,
Recesses corresponding to the cells are two-dimensionally arranged in the lower insulating film,
The second electrode and the heating means are accommodated in the plurality of recesses,
The touch-type input device, wherein the first electrode and the elastic deformation portion are arranged on the upper insulating film so as to correspond to the plurality of concave portions.   The touch-type input device according to claim 1, wherein an elastic deformation portion of the elastic body is thinner than other portions.   The touch input device according to claim 1, wherein the elastic body and the first and second electrodes are transparent.

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