JPH1167030A - Touchless switch - Google Patents

Abstract

PROBLEM TO BE SOLVED: To shorten the longitudinal length of a device in a touchless switch having a half mirror. SOLUTION: In a touchless switch wherein a luminous element 4 and a half mirror 6 are provided on a position therefrom a real image 2a, formed in the air can be irradiated and on between an imaging means 3 and an original picture 2 respectively, the imaging means 3 and the original picture 2 are installed so that the angle α of an acute angle out of two angles formed by surfaces including the original picture 2 and the half mirror 6 can have a degree of 45 deg. or less, and a light receiving element 5 is provided on a specified position in a direction where a light, vertically passing through the end surface of the imaging means 3 to be directed to the half mirror 6, is reflected by the half mirror 6 and is proceeding.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] The present invention relates to Japanese Patent Application No. 7-313.
More particularly, the present invention relates to an improved invention of a touchless switch having a configuration in which a half mirror is provided between a plate on which characters and pictures are drawn and an image forming means.

[0002]

2. Description of the Related Art The present applicant filed an application for a touchless panel switch on December 5, 1994 as a completely new type of non-contact switch (Japanese Patent Application No. Hei 6-333727).
On October 24, 1995, a similar non-contact switch, a touchless switch, was filed (Japanese Patent Application No. Hei 7-313440). In the touchless switch, there has been proposed an idea of a touchless switch having a configuration in which a half mirror is provided between a plate on which a character or a picture is drawn and a gradient index lens element serving as an imaging unit.

The touchless switch to be considered in the present invention is a touchless switch having a configuration in which a half mirror is provided between a plate on which a character or a picture is drawn and an image forming means (for example, a gradient index lens element). Yes, hereinafter, the term "touchless switch" particularly means only this type of touchless switch.

[0004] A touchless switch projects (maps) an object (hereinafter, also referred to as an original picture) as a transmission source into the air by imaging means (for example, a gradient index lens element), and outputs a real image of the object to the switch. It is intended to be displayed in the air as a key and to be used as a target for a switch operation. In this touchless switch, an object to be detected approaching a key displayed in the air (such as an operator's finger)
Detected as follows:

A light emitting element is provided at one of the keys in the air, that is, at a predetermined position where a real image of the original picture can be irradiated (one or a plurality of light emitting elements may be provided). Light emitted from light emitting element (including infrared light)
Is reflected by the finger approaching the key and transmitted to the original picture via the imaging means. Since a half mirror is provided between the original picture and the image forming means, a light emitting element is emitted,
Part of the light reflected by the finger and transmitted through the imaging means is reflected by the half mirror. Since the light receiving element is provided at a position where the light from the light emitting element reflected by the half mirror can be received, an object (finger) trying to touch a key in the air
Can be detected.

The position where the light receiving element is provided is determined by the distance of the trajectory of the light beam from the light emitted from the light emitting element reflected by the finger to the incidence on the image forming means, and reflected by the half mirror after the light is emitted from the image forming means. The position where the distance of the trajectory of the light beam until it enters the light receiving element is approximately equal is most desirable.

The conventional touchless switch has a problem that the length of the device in the vertical direction, that is, the length from the original picture to the image forming means tends to be long. This is because the following restrictions were imposed to shorten the distance between the original picture and the imaging means and between the imaging means and the real image in the air. Depending on the distance (referred to as Lo) between the original picture and the imaging means,
The distance (referred to as Li) between the imaging means and the real image in the air is determined. Lo and Li are, of course, equal or nearly equal.

[0008] Since Li is determined by Lo, L
i cannot adjust its length independently. By the way, with respect to this Lo, in the touchless switch in question, it is necessary to provide a half mirror between the original picture and the imaging means. Naturally, Lo must be long enough to install the half mirror. This is a constraint on shortening Lo. The size of the half mirror is limited by the size of the end face of the imaging means.

FIG. 2 is a schematic diagram of a conventional touchless switch. Now, suppose that the end surfaces (the light incident surface and the light exit surface) of the imaging means 3 are square, and that the length of each side is 25 mm as shown in FIG. Assuming that the thickness of the half mirror 6 is 1 mm, the distance from the original picture 2 to an end face of the imaging means 3 on the side facing the original picture 2 (hereinafter referred to as a lower end face; the other end face is referred to as an upper end face). It can be seen that Lo needs to be at least 26.4 mm. Naturally, Li
Is also approximately 26.4 mm. When the length of one side of the end face of the imaging means 3 is 25 mm, Lo = 26.4 mm, and the angle between the half mirror 6 and the end face of the imaging means 3 is 45 degrees, the length of the half mirror 6 is approximately 37.4 mm or more is required.

As the size of the end face (upper face and lower face) of the image forming means 3 is increased, the half mirror 6 needs to have a size larger than the above-mentioned length of 37.4 mm, and Lo becomes longer. . Therefore, the conventional touchless switch has a disadvantage that the length in the vertical direction tends to be long, and a touchless switch with a short length in the vertical direction has been desired.

[0011]

SUMMARY OF THE INVENTION The present invention has been made in view of the drawbacks of the conventional touchless switch, and an object of the present invention is to reduce the longitudinal length of the device, that is, Lo. It is to provide a touchless switch that can be used.

[0012]

The present invention has solved the above-mentioned problems, and has the following features. In the touchless switch, of the two corners formed by the surface including the original picture and the surface including the half mirror, the acute angle is 4
The image forming means and the original picture are set so as to be less than 5 degrees. A light receiving element is provided at a predetermined position in a direction in which a light beam passing through the end face of the image forming means and traveling toward the half mirror perpendicularly is reflected by the half mirror and travels.

[0013]

BEST MODE FOR CARRYING OUT THE INVENTION At least one light emitting element is provided so as to irradiate a real image of an original picture, that is, a key in the air. The light emitting element only needs to be able to irradiate at least a part of the keys in the air, and it does not mean that the light emitting element should not irradiate a position other than the keys in the air. In short, it is necessary for the light emitting element to illuminate a key (either part or all) displayed in the air, but it is necessary for a person skilled in the art to determine where to illuminate other air positions. The choices above.

The image forming means and the original picture are set apart from each other by a predetermined distance so that the lower end face of the image forming means and (the surface of) the original picture are parallel or almost parallel. The predetermined distance is determined by the optical characteristics of the imaging means. In other words, the original picture and the image forming means are arranged at a position where the original picture can be projected in the air as a focused real image. The half mirror is of a size sufficient to map the original picture into the air, so that the acute angle of the angle between the plane containing the original picture and the plane containing the half mirror is less than 45 degrees Install. In other words, the half mirror
It is installed at an inclination of less than 45 degrees from a horizontal plane parallel to the lower end surface of the original picture and the imaging means.

The installation position of the light receiving element is considered as follows. Assume a vertical line passing through or approximately the center of a key displayed in the air. This perpendicular is also a perpendicular passing through the center of the original picture. It is considered that the light ray travels on the perpendicular from the imaging means toward the half mirror. A part of the light beam is refracted by the half mirror and transmitted, but a part is reflected.
A light receiving element is provided at a predetermined position on a line on which the light ray is reflected by the half mirror and travels.

[0016]

FIG. 1 is a schematic view showing an embodiment of the present invention. Original picture 2 consists of materials that can transmit light, characters, symbols,
Plates (panels) depicting pictures, figures or icons
It is. A light emitting diode, a cold cathode tube, or the like is used as the illumination means 1 for emitting the original picture. Note that a light emitting body, that is, an electronic display device such as a light emitting diode or an LCD may be used for the original picture 2 itself. Further, a diffusion plate may be interposed between the original picture 2 and the lighting means 1. Original picture 2
Providing a diffusion plate between the lighting device 1 and the lighting means 1 has an effect of reducing uneven brightness of the original picture 2.

The image forming means 3 is an optical element for mapping an object at a predetermined position as a real image at a predetermined position. Imaging means 3
For example, a block-shaped element in which a large number of gradient index rod lenses of a predetermined length are arranged in a matrix, that is, a so-called gradient index lens element can be used as the imaging means. In the imaging means 3, a plate (flat plate micro lens plate) in which a large number of micro convex lenses are arranged in a matrix is aligned with the optical axis of each of the first micro convex lens and the corresponding second micro convex lens. Alternatively, two sheets provided at predetermined intervals may be used.

As the light emitting element 4, for example, an infrared light emitting diode is used. The light emitting element 4 is installed at a position where the real image 2a can be irradiated. The type of the light emitting element 4, optical characteristics such as light emission wavelength and directivity, the number of light emitting elements 4, the irradiation direction (the direction of the optical axis), the driving method, and the like are the design choices of those skilled in the art. However, the light emitting element 4 must be able to irradiate a part or the whole area of the real image 2a which is an image of the original picture 2 as an object projected in the air.

The light (infrared light) emitted from the light emitting element 4 is a switch key, that is, an object (substantially an operator's finger) approaching the real image 2a formed in the air as a target for switch operation. Reflecting and imaging means 3
Through the half mirror 6, and a part of the half mirror 6
Partially pass through the half mirror 6 and reach the light receiving element 5.

As shown in FIG. 1 and FIG.
It is practically preferable to adjust the position where the light emitting element 4 and the light receiving element 5 are provided, the optical axis, and the sensitivity so that the finger can be detected shortly before the finger reaches “a”. The light receiving element 5 includes a photodiode, a phototransistor, or a photo IC.
Etc. can be used. The control circuit 7 controls the light emitting element 4, the light receiving element 5, and the illuminating means 1 and outputs a signal to the outside of the switch device.

The half mirror 6 may be any plate made of a material that transmits the light from the original picture 2 and reflects the light from the light emitting element 4. An ordinary transparent resin (for example, acrylic resin) plate can sufficiently withstand use.

When installing the half mirror 6, the original picture
The angle α from the horizontal is designed in consideration of the length Lo between the lower ends of the imaging means. The surface including the original picture and the surface including the half mirror always intersect unless both surfaces are parallel, but the acute angle is the angle α among the angles formed by the two surfaces. The half mirror 6 is designed and installed so that the angle α is less than 45 degrees. Naturally, as the distance Lo between the original picture and the image forming means lower end face becomes shorter, the angle α must be narrower (smaller).

Although the absolute position of the light receiving element 5 is changed in accordance with the angle α, the light ray passing vertically through the end face of the imaging means 3 is reflected by the half mirror 6 and travels along the trajectory of the light ray. It is still installed on top.

The position at which the light receiving element 5 is installed is, as in the case of the conventional touchless switch, from the time when the light emitted from the light emitting element 4 is reflected by the finger as the object to be detected and reaches the upper end surface of the imaging means 3. (A) of the trajectory of the ray of light and the imaging means 3
A position where the distance (B + C) of the trajectory of the light beam which is emitted from the light source and reflected by the half mirror 6 to reach the light receiving element 5 is recommended. That is, in FIG. 2, A = B +
It is a position that becomes C.

However, the light receiving element 5 can receive the light from the light emitting element 4 even slightly before and after the position of the vest, so that it should be provided at the approximate position. In other words, the optical axis and the light emission intensity of the light emitting element 4 and the optical axis and the sensitivity of the light receiving element 5 are adjusted so that the light receiving element 5 can detect the light from the light emitting element 4.

[0026]

Since the present invention is configured as described above, the following effects can be obtained. The half mirror 6 is set so that the angle α is less than 45 degrees,
The distance Lo between the original picture and the lower end face of the imaging means can be shorter than that of the conventional touchless switch. Therefore, it is possible to provide a touchless switch capable of reducing the length of the device in the vertical direction.

[Brief description of the drawings]

FIG. 1 is a schematic diagram showing one embodiment of the present invention.

FIG. 2 is a schematic diagram of a conventional touchless switch.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Illumination means 2 Original picture 2a Real image 3 Imaging means 4 Light emitting element 5 Light receiving element 6 Half mirror 7 Control circuit Lo Distance between original picture and lower end face of imaging means Li Distance between upper end face of imaging means and real image α Original picture Of the two angles formed by the surface including the half mirror and the surface including the half mirror. A The distance traveled by the light from the light emitting element to the upper end surface of the image forming means after being reflected by the finger. B Image forming means. The distance traveled by the light from the light emitting element from the lower end surface to the half mirror C The distance traveled by the light from the light emitting element to the light receiving element after being reflected by the half mirror

Continuation of the front page (72) Inventor Hiroshi Kanamori 2-13-1, Chigama-dori, Minami-ku, Nagoya-shi Inside Taitec Co., Ltd. Inside

Claims (1)

[Claims] 1. A touchless switch in which a light emitting element is provided at a position capable of irradiating a real image formed in the air and a half mirror is provided between an image forming means and an original picture, the touchless switch including the original picture Of the two angles formed by the surface and the surface including the half mirror, the imaging means and the original picture are installed so that the acute angle is less than 45 degrees, and the end face of the imaging means is vertically And a light receiving element is provided at a predetermined position in a direction in which a light beam passing through the half mirror and traveling toward the half mirror is reflected by the half mirror.