CN201749447U - Electronic device and optical positioning device thereof - Google Patents

Abstract

The utility model discloses an electronic device and an optical positioning device thereof. The optical positioning device comprises: a positioning area formed by four surrounding sides, as well as a camera, a positioning processing module and an auxiliary light source, wherein the auxiliary light source is a line light source or an area light source distributed along the side of the light source; among the four sides, two adjacent sides are mirror reflection sides, one of the other two sides is provided with the auxiliary light source, and the camera is arranged corresponding to the remaining side or to a corner formed by the remaining side and the side of the auxiliary light source; and the positioning processing module comprises an image receiving unit used for receiving an object image acquired by the camera on the positioning area, and a coordinate computation unit using at least two virtual images formed by the object in the object image on the two mirror reflection sides to calculate and obtain the coordinates of the object in the coordinate system of the positioning area. The electronic device and the optical positioning device thereof are relatively wide in application range of optical detection and positioning of objects.

Description

Electronic equipment and optical positioning apparatus thereof

Technical field

The utility model relates to a kind of field of locating technology, relates in particular to a kind of electronic equipment and optical positioning apparatus thereof.

Background technology

The optical touch technology is a kind of new technology that is different from touching techniques such as existing infrared, surface acoustic wave, resistance, electric capacity, optical sensor to movement response careful on the touch-screen fast, accurately, and the life-span aspect is improved largely.

A kind of existing Optical touch screen technology based on the camera location adopts at least 2 cameras to position, the camera that is about to 2 visual angles and is enough to cover the entire display screen curtain places 2 drift angles of display screen, images acquired then, again according to shelter pixel coordinate position and camera position in the plane of delineation, the relation at visual angle, can determine that in the camera angular field of view two rays send the position that intersects at the screen shelter from camera, thereby can determine ray and edge line angulation, utilize the triangle theorem to calculate shelter coordinate position realization location on the screen then.

Another kind of existing Optical touch screen technology based on the camera location adopts 1 camera to position, and this technology is found among the Chinese patent CN101261557.This patent disclosure a kind of image sensing device that is used for touch-screen.This technical scheme is only used the single camera scheme, has reduced equipment occupation space and has reduced R﹠D costs.This invention specifically comprises the electronic shutter that utilizes interlocking, realizes the time-sharing multiplex of different light paths on same travel path; Comprise that also light path realizes that subregion is multiplexing by utilizing independently, be imaged on the surface of a slice imageing sensor.

Another kind of adopt that 1 camera positions based on the Optical touch screen technology of camera location can referring to: on October 28th, 2009, disclosed name was called No. the 200910039966.5th, the Chinese invention patent application of " touch-screen locating device and touch-screen localization method ".Described touch-screen locating device comprises: camera, two dark light absorbent frames, two plane mirrors, display screen and computing modules.Also propose a kind of touch-screen localization method simultaneously, comprising: set in advance screen coordinate system, receive the view data of gathering; View data is carried out distortion correction to be handled; From view data, determine two reference point, and draw two virtual ray from the position of camera according to screen coordinate system and reference point; Determine the intersecting point coordinate that two virtual ray intersect with the frame of catoptron respectively, calculate the reflected ray equation that obtains two virtual ray, obtain touch point coordinates and demonstration according to two reflected ray Equation for Calculating according to the slope of intersecting point coordinate and virtual ray.

Above-mentioned touch-screen locating device is provided with dark light absorbent frame at the one side, and to lower the interference of this side to the object imaging, still, this will further cause the brightness deterioration of object when imaging, and be difficult to be caught in.Because when not considering the influencing of dark light absorbent frame, the light of object surface reflection is not enough under most of situation, causes video camera to catch the fall short thing, thereby be difficult to position.Therefore, all utilize in the touch-screen of optical touch technology at present, all need specially can be luminous or reflective felt pen as above-mentioned object, the hand-held described felt pen of user is operated touch-screen.

The situation of just using felt pen that touch-screen is operated, hand-held felt pen operation also causes using loaded down with trivial details problem, and under hand-held felt pen damage or loss situation, can cause whole touch screen not try out.

The utility model content

The technical matters that the utility model mainly solves provides a kind of wide electronic equipment and optical positioning apparatus thereof of light detecting position application scope to object.

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is: a kind of optical positioning apparatus that is applied to locate among a small circle is provided, comprises: locating area that four sides surround into and camera, localization process module, secondary light source; Described secondary light source is line source or the area source that distributes along its place avris; Wherein, in described four sides, two adjacent sides are direct reflection sides, and in addition the side in the dual-side is provided with described secondary light source, the corresponding described remaining side setting of described camera or to remaining the corner setting that side and secondary light source place side form; Described localization process module comprises: the image receiving unit that is used to receive the object image on described locating area of described camera collection; Be used for utilizing described object image object in formed at least two virtual images of two direct reflection sides, calculate the coordinate Calculation unit of the coordinate of object in described locating area coordinate system.

For solving the problems of the technologies described above, another technical scheme that the utility model adopts is: a kind of electronic equipment is provided, comprise display and optical touch screen, described optical touch screen is arranged at the display surface of display, described optical touch screen comprises: camera, localization process module, secondary light source, be arranged at described display surface four vertical sides above and that be provided with for display surface edges, it is the locating area of bottom with the display surface that described four sides surround into empty; Wherein, described secondary light source is line source or the area source that distributes along its place avris; In described four sides, two adjacent sides are direct reflection sides, and in addition the side in the dual-side is provided with described secondary light source, the corresponding described remaining side setting of described camera or to remaining the corner setting that side and secondary light source place side form; Described localization process module comprises: the image receiving unit that is used to receive the object image on described locating area of described camera collection; Be used for utilizing described object image object in formed at least two virtual images of two direct reflection sides, calculate the coordinate Calculation unit of the coordinate of object in described locating area coordinate system.

The beneficial effects of the utility model are: be different from the prior art optical touch screen and must felt pen touch-screen is operated and caused using loaded down with trivial details, fragile or the loss situation of felt pen, the utility model changes the location of prior art to the optical properties of object to be detected itself, the no longer simple object to be detected that relies on itself is luminous or reflectorized material is set is captured by camera, do not need special felt pen but change into, just can be placed in the locating area to be caught by camera and to locate such as user's finger, concrete principle is the design that the prior art locating device is provided with dark light absorbent frame at the one side to be changed into secondary light source is set, the object of secondary light source irradiation locating area and the direct reflection side of object back, object is the direct reflection side of its back relatively, be backlight, direct reflection side in its back forms relative dim spot, other zones then are the virtual images that secondary light source became that becomes clear, utilize this dim spot of sensing and capture object, thereby to object brightness no requirement (NR), realize object detecting non-selectivity, greatly expand the reconnaissance range and the scope of application, in the application of touch-screen, then realize finger touch, need not felt pen.

Description of drawings

Fig. 1 is the structural representation of the utility model optical positioning apparatus embodiment one of being applied to locate among a small circle;

Fig. 2 is the structural representation of the utility model optical positioning apparatus embodiment two of being applied to locate among a small circle.

Embodiment

By describing technology contents of the present utility model, structural attitude in detail, realized purpose and effect, give explanation below in conjunction with embodiment and conjunction with figs. are detailed.

See also Fig. 1 and Fig. 2, the optical positioning apparatus that the utility model is applied to locate among a small circle comprises:

Locating area that four sides surround into and camera, localization process module, secondary light source;

Described secondary light source is line source or the area source that distributes along its place avris;

Wherein, in described four sides, two adjacent sides are direct reflection sides, and in addition the side in the dual-side is provided with described secondary light source, the corresponding described remaining side setting of described camera or to remaining the corner setting that side and secondary light source place side form;

Described localization process module comprises:

Be used to receive the image receiving unit of the object image on described locating area of described camera collection;

Be used for utilizing described object image object in formed at least two virtual images of two direct reflection sides, calculate the coordinate Calculation unit of the coordinate of object in described locating area coordinate system.

During work, adopt two-way object virtual image forming light path to combine and carry out the object location.

The first via: the object of secondary light source irradiation locating area and the direct reflection side of object back, object is the direct reflection side of its back relatively, be backlight, direct reflection side in its back forms relative dim spot, other zones then are the virtual images that secondary light source became that becomes clear, and utilize this dim spot imaging of sensing to lock the reflected ray equation of this light path;

The second the tunnel: object another direct reflection side imaging between secondary light source place side and first via imaging place side, detailed process is the same, locks the reflected ray equation on this road, obtains the object coordinate in conjunction with the reflected ray equation of the first via; Moving to for object can not be with the locating area of dim spot imaging, such as near the side at camera place the time, the method lock onto target thing that then utilizes object directly to take directly reflects light the reflected ray equation to camera, no longer relies on the reflected ray equation of imaging.

The utility model changes the location of prior art to the optical properties of object to be detected itself, the no longer simple object to be detected that relies on itself is luminous or reflectorized material is set is captured by camera, do not need special felt pen but change into, just can be placed in the locating area to be caught by camera and to locate such as user's finger, concrete principle is the design that the prior art locating device is provided with dark light absorbent frame at the one side to be changed into secondary light source is set, the object of secondary light source irradiation locating area and the direct reflection side of object back, object is the direct reflection side of its back relatively, be backlight, direct reflection side in its back forms relative dim spot, other zones then are the virtual images that secondary light source became that becomes clear, utilize this dim spot of sensing and capture object, thereby to object brightness no requirement (NR), realize object detecting non-selectivity, greatly expand the reconnaissance range and the scope of application, in the application of touch-screen, then realize finger touch, need not felt pen.

In one embodiment, described camera can corresponding direct reflection side, the residue side outside the side of secondary light source place is placed, to adapt to object especially near the positioning action under the environment of this residue side.

In one embodiment, described locating area is a rectangle, and described secondary light source is covered with described rectangular long limit.Certainly, also can be part setting, or be arranged on rectangular minor face on rectangular long limit.

In one embodiment, may further include:

Be connected the distortion correction unit between described image receiving unit and the coordinate Calculation unit, be used for the object image of described collection is carried out the distortion correction processing, obtain correcting image and send to the object image of described coordinate Calculation unit as described coordinate Calculation.

Carry out distortion correction, can more accurately obtain the elements of a fix.

In one embodiment, may further include:

Be connected the contrast judging unit between described camera and the secondary light source, whether have enough contrast contrasts between the object of the object image that is used for judging that described camera is gathered and the background;

Be connected the luminous controling unit between described contrast judging unit and the secondary light source, be used for when described contrast judgment unit judges goes out the contrast of not enough contrast, change the spectrum of intensity, angle or the light of described secondary light source emitted light, when described contrast judgment unit judges goes out the contrast of enough contrast till.

By the setting of contrast judging unit and compared with control unit, make to have enough contrast contrasts between object and its background, be beneficial to video camera and capture object clearly.

In one embodiment, described line source or area source are arranged by a plurality of LED and are formed, and certainly, also can be this light sources as area source or line source, such as EL sheet etc.

In one embodiment, described camera is the wide-angle imaging head, and quantity can be one or more.

The utility model also provides a kind of electronic equipment embodiment, comprises display and optical touch screen, and described optical touch screen is arranged at the display surface of display, and described optical touch screen comprises:

Camera, localization process module, secondary light source, be arranged at described display surface four vertical sides above and that be provided with for display surface edges, it is the locating area of bottom with the display surface that described four sides surround into empty;

Wherein, described secondary light source is line source or the area source that distributes along its place avris;

In described four sides, two adjacent sides are direct reflection sides, and in addition the side in the dual-side is provided with described secondary light source, the corresponding described remaining side setting of described camera or to remaining the corner setting that side and secondary light source place side form;

Described localization process module comprises:

Be used to receive the image receiving unit of the object image on described locating area of described camera collection;

Be used for utilizing described object image object in formed at least two virtual images of two direct reflection sides, calculate the coordinate Calculation unit of the coordinate of object in described locating area coordinate system.

Above-mentioned electronic equipment can be various displays, hand-hold electronic equipments etc., as mobile phone, PDA, notebook etc.

Wherein, described locating area is a rectangle, and described secondary light source is covered with described rectangular long limit.

Wherein, may further include:

Be connected the distortion correction unit between described image receiving unit and the coordinate Calculation unit, be used for the object image of described collection is carried out the distortion correction processing, obtain correcting image and send to the object image of described coordinate Calculation unit as described coordinate Calculation.

Wherein, may further include:

Be connected the contrast judging unit between described camera and the secondary light source, whether have enough contrast contrasts between the object of the object image that is used for judging that described camera is gathered and the background;

Be connected the luminous controling unit between described contrast judging unit and the secondary light source, be used for when described contrast judgment unit judges goes out the contrast of not enough contrast, change the spectrum of intensity, angle or the light of described secondary light source emitted light, when described contrast judgment unit judges goes out the contrast of enough contrast till.

The above only is embodiment of the present utility model; be not so limit claim of the present utility model; every equivalent structure or equivalent flow process conversion that utilizes the utility model instructions and accompanying drawing content to be done; or directly or indirectly be used in other relevant technical fields, all in like manner be included in the scope of patent protection of the present utility model.

Claims (6)

1. an optical positioning apparatus that is applied to locate among a small circle is characterized in that, comprising:

Locating area that four sides surround into and camera, localization process module, secondary light source;

Described secondary light source is line source or the area source that distributes along its place avris;

Wherein, in described four sides, two adjacent sides are direct reflection sides, and in addition the side in the dual-side is provided with described secondary light source, the corresponding described remaining side setting of described camera or to remaining the corner setting that side and secondary light source place side form;

Described localization process module comprises:

Be used to receive the image receiving unit of the object image on described locating area of described camera collection;

Be used for utilizing described object image object in formed at least two virtual images of two direct reflection sides, calculate the coordinate Calculation unit of the coordinate of object in described locating area coordinate system.

2. the optical positioning apparatus that is applied to locate among a small circle according to claim 1 is characterized in that: described locating area is a rectangle, and described secondary light source is covered with described rectangular long limit.

3. the optical positioning apparatus that is applied to locate among a small circle according to claim 1 and 2 is characterized in that: described line source or area source are arranged by a plurality of LED and are formed.

4. the optical positioning apparatus that is applied to locate among a small circle according to claim 1 and 2 is characterized in that: described camera is the wide-angle imaging head.

5. an electronic equipment comprises display and optical touch screen, and described optical touch screen is arranged at the display surface of display, it is characterized in that, described optical touch screen comprises:

Camera, localization process module, secondary light source, be arranged at described display surface four vertical sides above and that be provided with for display surface edges, it is the locating area of bottom with the display surface that described four sides surround into empty;

Wherein, described secondary light source is line source or the area source that distributes along its place avris;

In described four sides, two adjacent sides are direct reflection sides, and in addition the side in the dual-side is provided with described secondary light source, the corresponding described remaining side setting of described camera or to remaining the corner setting that side and secondary light source place side form;

Described localization process module comprises:

Be used to receive the image receiving unit of the object image on described locating area of described camera collection;

Be used for utilizing described object image object in formed at least two virtual images of two direct reflection sides, calculate the coordinate Calculation unit of the coordinate of object in described locating area coordinate system.

6. electronic equipment according to claim 5 is characterized in that: described locating area is a rectangle, and described secondary light source is covered with described rectangular long limit.

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