JPH0318994Y2 - - Google Patents

Description

[Detailed Description of the Invention] "Industrial Application Field" This invention relates to a display surface position specifying device for specifying a position on a panel display surface.

``Prior art'' For example, specifying the display screen position on a panel display surface of a cathode ray tube, etc., outputting information corresponding to the specified position from the panel display surface, or Display surface position specifying devices for inputting information to a computer are used in various fields.

FIG. 2 shows the configuration of the main parts of this type of display surface position specifying device that has been proposed in the past, in which light emitting elements 12-1, 12-2, etc. such as light emitting diodes are arranged on a printed circuit board 13. . First focusing lenses 14-1, 14-2... are attached to the front surfaces of these light emitting elements 12-1, 12-2... corresponding to each of the light emitting elements 12-1, 12-2..., respectively. There is.

The emitted light from each light emitting element 12-1, 12-2... is transmitted through a correspondingly provided first focusing lens 14-
1, 14-2... parallel light beams 17-1, 1
7-2... Each of the converted parallel light beams is sent to a light receiving element 15-1, 15-1, such as a photodiode provided on the printed circuit board 16.
5-2... is configured to receive light. For this purpose, second focusing lenses 18-1, 18-2, . . ., which focus the corresponding parallel light beams, are provided on the front surface of each light receiving element 15-1, 15-2, .

FIG. 3 shows light emitting elements 12-1, 12-2..., first focusing lenses 14-1, 14-2... and light receiving elements 15- for each printed circuit board 13 and 16.
1, 15-2... and second focusing lenses 18-1, 1
8-2..., the first focusing lenses 14-1, 14-2... have a shape in which a convex lens is formed on the end face of a cylinder. A light receiving element 12 is inserted into the interior of the first focusing lenses 14-1, 14-2... from the end face opposite to the convex lens surface.
-1, 12-2... are inserted and fixed, respectively. In this way, the first focusing lenses 14-1, 1, into which the light emitting elements 12-1, 12-2... are inserted and fixed.
4-2... are arranged on the printed circuit board 13 with their convex lens surfaces protruding from the board surface.

In the example shown in FIG. 2, in order to use a cathode ray tube as the panel display surface 11, the printed circuit board 13
a first focusing lens 14-1 protruding from the
14-2... are arranged in a curved shape corresponding to the curved surface of the cathode ray tube.

The light receiving elements 15-1, 15-2... are also connected to the second focusing lens 18- from the end face facing the convex lens surface of the second focusing lens 18-1, 18-2..., respectively.
1, 18-2... is inserted and fixed, and the light receiving element 15
-1, 15-2... are inserted and fixed, and the second focusing lenses 18-1, 18-2... are installed on the pre-printed board 16 with their convex lens surfaces protruding from the printed circuit board 16.
Fixed.

Respective second focusing lenses 18-1, 18-
2..., parallel light beams 17-1, 17-2... are incident on the second parallel light beam, respectively.
The light is focused on the respective light receiving elements 15-1, 15-2, . . . by the focusing lenses 18-1, 18-2, . For this purpose, each second focusing lens 18-1,
18-2... are first focusing lenses 14-1, 14
-2... In the example shown in FIG. 2, they are arranged in a curved line corresponding to the curved surface of the cathode ray tube used as the panel display surface 11.

A printed circuit board 19 is disposed perpendicularly to the printed circuit board 13, and the first focusing lenses 21-1, 21-2, .
Fixed to . From the end surface side facing the convex lens surface of these first focusing lenses 21-1, 21-2..., the first focusing lenses 21-1, 21-
The light emitting elements 20-1, 20-2, etc. are inserted and fixed inside the light emitting elements 20-1, 20-2, and so on. In FIG. 2, first focusing lenses 21-1, 21-2, . . . are arranged in a curved shape corresponding to the curved surface of a cathode ray tube used as the panel display surface 11.

A printed circuit board 22 faces the printed circuit board 19.
Similarly, light-receiving elements 23-1, 23-2, .

Also in this case, although not shown in FIG. 2, second focusing lenses 24-1, 24-2, etc. are arranged with their convex lens surfaces protruding from the printed circuit board 22, and these second focusing lenses 24-1, 24-2... Lens 24-1, 24-
The light receiving element 2 is inserted into the second focusing lens 24-1, 24-2 from the end surface side opposite to the convex lens surface of the second focusing lens 24-1, 24-2...
3-1, 23-2... are inserted and arranged. The emitted light from the light emitting elements 20-1, 20-2... is converted into a parallel light beam 21 by the first focusing lens 21-1, 21-2...
-1, 21-2..., and these parallel light beams are respectively converted into corresponding second focusing lenses 24-
1, 24-2... and light receiving elements 23-1, 23-2...
Focused on location.

In this way, two sets of a light emitting element group and a light receiving element group facing each other are arranged facing each other,
The panel display surface 11 is positioned so as to be surrounded by these. In this way, the panel display surface 11
Printed circuit boards 13, 16 and 19, 22 are disposed facing each other on two sets of side edges facing each other, and a light emitting element, a first focusing lens, and a light receiving element are mounted on these printed circuit boards. and the second focusing lens are each fixed.

A parallel light beam group is arranged in a matrix on the surface immediately in front of the panel display surface 11 by the vertical parallel light beams 17-1, 17-2... and the horizontal parallel light beams 25-1, 25-2... It is formed. Therefore, the position on the panel display surface 11 is specified one-dimensionally by each parallel light beam, and the position on the panel display surface 11 is specified two-dimensionally by the intersection position of the parallel light beams arranged in a matrix. It is possible.

Therefore, when the intersection of the matrices is pointed out with a light blocking body such as a support rod just in front of the panel display surface 11, the parallel light beams between the two corresponding sets of light emitting elements and light receiving elements are optically blocked. Therefore, the logical value of the detection output of the corresponding light receiving element becomes "0", which is detected by a detection electric circuit (not shown) and a detection signal is generated.

Based on this detection signal, information to be displayed at the designated position on the panel display surface 11 is output and retrieved, or information from another electrical device is output to the designated position on the panel display surface 11. It is possible to input.

``Problems to be solved by the invention'' In this conventionally used display surface position specifying device, the first and second
The convex lens surface side of the focusing lens is arranged to protrude. For this purpose, printed circuit boards 13, 16, 1 are fixedly disposed on the side edge of the panel display surface 11.
Fine convex portions are formed on the mutually opposing plate surfaces of 9 and 22.

Therefore, dust and dirt tend to accumulate between these many small convex parts, and if dust and dirt accumulate between these parts, electrical malfunction may occur. Furthermore, the display surface position specifying device used conventionally has the disadvantage that cleaning work to remove these dust and dust is extremely difficult and complete cleaning is difficult to perform.

This idea was devised in view of the difficulties in the display surface position specifying devices used in the past, and its purpose is to prevent the accumulation of dirt and grime on the facing surface of the printed circuit board at the side edge of the panel display surface. It is an object of the present invention to provide a display surface position specifying device that can easily and reliably clean these opposing plate surfaces.

"Structure of the invention" In this invention, a plurality of light emitting elements are provided on at least one set of opposite side edges of the panel display surface, each of which corresponds to each of these light emitting elements, and a light beam from each light emitting element is detected. A plurality of light receiving elements are arranged respectively.

A first lens body consisting of a plurality of first converging lenses that converts the emitted light from each light emitting element into a parallel light beam respectively positions the lens surface of the first converging lens opposite to each light emitting element, and emits light. It is arranged in front of the array of elements.

In addition, a second lens body consisting of a plurality of second focusing lenses that focuses each parallel light beam on the position of each light receiving element respectively positions the lens surface of the second focusing lens opposite to each light receiving element, and receives light. It is arranged in front of the array of elements.

The first and second lens bodies, which are positioned with the lens surfaces of the first and second focusing lenses facing the light-emitting element and the light-receiving element, respectively, are integrally fixed to the light-emitting element and the light-receiving element, respectively. be done. In this fixed state, the first and second lens bodies have planar plate surfaces facing each other, and block parallel light beams emitted from the light emitting element and reaching the corresponding light receiving element. The position on the panel display surface corresponding to the light beam can be specified.

In this invention, since the first and second lens bodies fixedly disposed on the side edges of the panel display surface have planar plate surfaces facing each other, the opposing surfaces of the lens bodies It is difficult for dirt and grime to adhere to it, and the flat opposing surface can be easily and completely cleaned. Therefore, it is possible to prevent malfunctions due to dirt and dust, and to easily clean the facing surface, thereby extending the operational life of the device.

"Example" Hereinafter, the display surface position specifying device of this invention will be described in detail based on an example using the drawings.

In FIG. 1, the same reference numerals are given to the same parts to show the structure of the main parts. In this embodiment, the opposing side edges of the panel display surface 11 are Light emitting elements 12-1, 1 for one set
2-2... and light receiving elements 15-1, 15-2... are arranged.

In this invention, the first lens body 31 having the respective first condensing lenses 14-1, 14-2, . . . is formed into one body. That is, one of the plate surfaces of the first lens body 31, which is formed into a substantially rectangular rod shape, and which face each other in the longitudinal direction is formed into a flat surface 31-P. On the plate surface facing this plane 31-P,
a first focusing lens 14- for each position;
1, 14-2... are formed, and these first focusing lenses 14-1, 14-2... are formed with lens surfaces protruding from the plate surface.

At the side edge of the panel display surface 11, the first lens body 31 is integrally fixed to the printed circuit board 13 to which the light emitting elements 12-1, 12-2, . . . are fixed. In the embodiment, the printed circuit board 13
The lens surfaces of the first focusing lenses 14-1, 14-2... are positioned opposite to the light emitting elements 12-1, 12-2..., respectively, and the printed circuit board 1
3, a first lens body 31 is formed of a resin material 35 to form a sealed structure.

The printed circuit board 1
6 and the second lens body 32 are similarly formed of a resin material 36 to form a sealed structure.

Each printed circuit board 16 has a light receiving element 15.
-1, 15-2... are attached, and the second focusing lens 1 is mounted so that the respective lens surfaces face the respective light receiving elements 15-1, 15-2...
A second lens body 32 having 8-1, 18-2...
is formed of a resin material 36 to form a sealed structure.

Light emitting elements 12-1, 12-2... and first focusing lenses 14-1, 14-2..., and light receiving element 15-
1, 15-2... and second focusing lens 18-1,
18-2... are arranged in corresponding positions.

Therefore, the emitted light from the light emitting element 12-1 is the first
A second focusing lens 14-1 converts the parallel light beam 17-1 into a parallel light beam 17-1, and a second focusing lens 18-1 focuses the parallel light beam 17-1 onto the light receiving element 15-1. Optical paths are formed in exactly the same way for the other parallel light beams 17-2, 17-3, . . . .

These optical paths are arranged to correspond to predetermined straight lines on the panel display surface 11. Therefore, the parallel light beams 17-1, 17-2, . . . correspond to a plurality of straight lines, each of which indicates a one-dimensional position on the panel display surface 11.

FIG. 4 shows another embodiment of this invention, in which the same parts are denoted by the same reference numerals and the structure thereof is shown.

In the embodiment shown in FIG. 1, the light emitting elements 12-1, 12-2... and the light receiving elements 15-1, 15-2 are provided only for one set of side edges facing in the lateral direction of the panel display surface 11, respectively. ...is provided, but the fourth
In the embodiment shown in the figure, light-emitting elements 20-1, 20-2, and light-receiving elements 23 are also provided for the other pair of side edges facing in the vertical direction of the panel display surface 11, respectively.
-1, 23-2... are provided.

With the configuration shown in FIG. 4, parallel light beams 2 are also generated in the vertical direction of the panel display surface 11.
Optical paths 5-1, 25-2, . . . are formed. Therefore, in this case, the position on the panel display surface 11 is the parallel light beam 17 formed in a matrix.
-1, 17-2... and 25-1, 25-2... can be specified two-dimensionally.

For example, when the point of intersection of parallel light beams 17-2 and 25-1 is indicated with a pointer rod 50 made of a light-shielding material as shown in FIG. 4, the position corresponding to the point of intersection on the panel display surface 11 is will be specified.

For example, when various types of information are displayed on the panel display surface 11 and a process is to be performed in which one of the pieces of information is selected and output, the information is displayed at the position of the panel display surface 11 indicated by the pointing stick 50. The information displayed will be output by this instruction.

Further, it is also possible to carry out processing such as specifying a predetermined position of the information image displayed on the panel display surface 11, importing new information there, and correcting the information image.

In this case, the point of intersection of the parallel light beams 25-1 and 17-2 is indicated, for example, with the pointer stick 50, and information for changing the gradient of the straight line, for example, is input at this position. In this way, it is possible to obtain a desired information image by changing the shape of the information image displayed on the panel display surface 11 at the specified position.

In the display surface position specifying device of this invention, the first and second lenses are arranged with their planes facing each other with respect to the side edge of the panel display surface 11, and the lens surfaces are arranged with respect to the printed circuit board. For example, it has a structure in which the periphery is integrally embedded with synthetic resin material.

Therefore, there are no irregularities on the opposing plate surfaces of the first and second lens bodies, dust and dirt do not adhere to the first and second lens bodies, and cleaning is easy. And it is done reliably.

Therefore, the accumulation of dirt and grime on the side edges of the panel display surface 11 will not cause malfunctions, and the operating life of the display surface position specifying device will be greatly extended.

``Effects of the invention'' As explained in detail above, this invention has a simple structure, eliminates the accumulation of dust and other foreign matter on the side edges of the panel display surface, and makes cleaning the side edges easier. It is possible to provide a display surface position specifying device that is easy to operate, prevents malfunctions due to adhesion and accumulation of foreign matter, and can significantly extend its operating life.

[Brief explanation of drawings]

FIG. 1 is a front view showing the configuration of the main parts of an embodiment of this invention, FIG. 2 is a perspective view showing the structure of the main parts of a conventionally used display surface position specifying device, and FIG. FIG. 4, which is an enlarged view of the main part of the figure, is a front view showing the structure of the main part of another embodiment of this invention. 11... Panel display surface, 12-1, 12-2...
...Light emitting element, 13...Printed circuit board, 14-1,
14-2...first focusing lens, 15-1, 15
-2... Light receiving element, 16... Printed circuit board, 17
-1,17-2...Parallel light beam, 18-1,1
8-2... Second focusing lens, 19... Printed circuit board, 20-1, 20-2... Light emitting element, 21-
1, 21-2...first focusing lens, 22...printed circuit board, 23-1, 23-2...light receiving element,
24-1, 24-2... second focusing lens, 25
-1, 25-2... Parallel light beam, 31... 1st
lens body, 31-P...plane, 32...second lens body, 35, 36...resin material, 50...pointer stick.

Claims (1)

[Claims for Utility Model Registration] A plurality of light emitting elements, each corresponding to a plurality of light emitting elements, and detecting a light beam from each light emitting element, respectively, on at least one set of mutually opposing side edges of a panel display surface. a plurality of light receiving elements are arranged, and a plurality of first focusing lenses each converting the emitted light from each light emitting element into a parallel light beam;
The first lens body is arranged in front of the array of the light emitting elements with the first focusing lens facing each of the light emitting elements, and the first lens body is arranged in front of the array of the light emitting elements, and A second lens body is constituted by a plurality of second focusing lenses that focus on the respective light receiving element positions, and this second lens body positions the second focusing lenses at opposing positions with respect to each of the light receiving elements. The first and second lens bodies are integrally fixed to the light emitting element and the light receiving element, respectively, and in this fixed state, the first and second lens bodies are disposed in front of the array of light receiving elements. The second lens body has planar plate surfaces facing each other, and blocks the parallel light beam immediately before the panel display surface, thereby changing the position on the panel display surface corresponding to the blocked parallel light beam. A display surface position designation device configured to allow designation of a display surface position.