CN112087552A - Intelligent binocular high-speed shooting instrument and automatic adjusting method thereof - Google Patents

Abstract

The invention belongs to the technical field of high-speed photographing instruments, and particularly relates to an intelligent binocular high-speed photographing instrument and an automatic adjusting method of the intelligent binocular high-speed photographing instrument. The intelligent binocular high-speed shooting instrument comprises a cross rod, a first lens and a second lens, wherein the first lens and the second lens are arranged on the cross rod; the two ends of the cross rod are respectively a first end part and a second end part, the first end part is externally connected with the supporting body, and the second end part is a free end; the first lens and the second lens are both positioned on one side close to the first end part, and the distance between the first lens and the first end part is smaller than the distance between the second lens and the first end part. An automatic adjusting method of an intelligent binocular high-speed shooting instrument is suitable for the intelligent binocular high-speed shooting instrument and realizes automatic or manual lens calling. The invention can manually or automatically realize lens switching according to the size of a shot object so as to preview different breadth, thereby facilitating the acquisition of videos or images, reducing breadth waste, improving definition and achieving ideal shooting effect.

Description

Intelligent binocular high-speed shooting instrument and automatic adjusting method thereof

Technical Field

The invention belongs to the technical field of high-speed photographing instruments, and particularly relates to an intelligent binocular high-speed photographing instrument and an automatic adjusting method of the intelligent binocular high-speed photographing instrument.

Background

The shooting instrument is an intelligent image device which records information by shooting documents/objects and the like through high-speed images, is mainly applied to copying and scanning of documents, files and other data, and copies and scans important documents into electronic files, so that the documents are convenient to read and store. When shooting is performed using a camera, shooting scanning is basically performed by a camera on the camera.

At present, the shooting instruments on the market only have a single camera, and can only adapt to one format during shooting. For example: if the camera defaults to the A3 format, when shooting the A4 format or smaller, the format waste phenomenon exists, and the ideal shooting effect can not be achieved. If the breadth adjustment is carried out by adjusting the shooting distance, the depth of field of the lens is insufficient, and the problems that the focal distance is clear under the height of the A3 breadth and the focal distance is unclear under the height of the A4 breadth occur.

Disclosure of Invention

In order to solve the problems, the invention provides an intelligent binocular high-speed shooting instrument and an automatic adjusting method thereof, and the technical scheme is as follows:

an intelligent binocular high-speed shooting instrument comprises a cross rod, a first lens and a second lens, wherein the first lens and the second lens are mounted on the cross rod; the two ends of the cross rod are respectively a first end part and a second end part, the second end part is externally connected with a support body, and the first end part is a free end; the first lens and the second lens are both positioned on one side close to the first end part, and the distance between the first lens and the first end part is smaller than the distance between the second lens and the first end part.

The intelligent binocular high shooting instrument as described above is further preferably: a first cavity is arranged in the cross rod; the lower surface of the cross rod is provided with a first mounting hole, a second mounting hole and a third mounting hole which are communicated with the first cavity; a first mounting hole, a second mounting hole and a third mounting hole are sequentially arranged from the first end part to the second end part; the first mounting hole is used for mounting the first lens, the second mounting hole is used for mounting the second lens, and the third mounting hole is used for mounting an illuminating lamp.

The intelligent binocular high shooting instrument as described above is further preferably: the controller is installed in the cross rod, connected with the first lens, the second lens and the illuminating lamp respectively and used for providing operation control.

The intelligent binocular high shooting instrument as described above is further preferably: still include the mounting bracket, the mounting bracket includes base and support arm, the one end of support arm with base swing joint, the other end with the second tip of horizontal pole links to each other.

The intelligent binocular high shooting instrument as described above is further preferably: a second cavity is formed in the support arm, a third cavity is formed in the base, and the second cavity is communicated with the third cavity; the base is also provided with a switch, an operation button and a USB interface; the second cavity is used for accommodating the first lens, the second lens, the illuminating lamp and a wiring harness of the controller, introducing the wiring harness into a third cavity, and connecting the wiring harness with the switch, the operation button and the USB interface on the base.

The intelligent binocular high shooting instrument as described above is further preferably: and a battery is also arranged in the third cavity and is respectively connected with the switch and the USB interface.

The intelligent binocular high shooting instrument as described above is further preferably: the base is provided with a paper feeding device, and the paper feeding device is connected with the controller and is used for automatically conveying paper to be shot to the base.

The intelligent binocular high shooting instrument as described above is further preferably: and a standard comparison frame is arranged on the base and used for calibrating the first lens and/or the second lens.

The intelligent binocular high shooting instrument as described above is further preferably: the standard contrast boxes include a1 box, a2 box, A3 box, a4 box, and a5 box.

The intelligent binocular high shooting instrument as described above is further preferably: and a distance sensor is arranged on the support arm and connected with the controller for sensing the thickness of the paper on the base.

An automatic adjusting method of an intelligent binocular high shooting instrument is suitable for the intelligent binocular high shooting instrument and comprises the following steps:

the method comprises the following steps: opening a second lens, recording the breadth of one-time shooting, and closing the second lens;

step two: opening a first lens, recording the secondary shooting breadth, and closing the first lens;

step three: comparing the number of words and the number of figures of the primary shooting breadth and the secondary shooting breadth;

step four: if the number of the characters is the same as the number of the figures, shooting by using the second lens; and if the number of the words and/or the number of the graphs are different, shooting by using the first lens.

The automatic adjustment method of the intelligent binocular high-speed shooting instrument further preferably comprises the following steps: after the first lens or the second lens is selected, comparing the paper breadth with a standard comparison frame, and determining the corresponding standard comparison frame; and adjusting the selected first lens or the second lens, recording three times of shooting breadth, and finishing adjustment when the three times of shooting breadth is the same as the size of the corresponding standard contrast frame.

The automatic adjustment method of the intelligent binocular high-speed shooting instrument further preferably comprises the following steps: and a sixth step of recording the shooting times and the shooting distance after the three times of shooting, and adjusting the selected first lens or the second lens after the shooting times or the shooting distance reaches a preset value.

The automatic adjustment method of the intelligent binocular high-speed shooting instrument further preferably comprises the following steps: the method also comprises the seventh step: and adjusting the contrast and storing the shooting result.

Analysis shows that compared with the prior art, the invention has the advantages and beneficial effects that:

the intelligent binocular high-speed shooting instrument is provided with the first lens and the second lens, and the second lens and the first lens are used in sequence when the size of a shot object is small to large during shooting. When shooting, can realize the switching of first camera lens and second camera lens according to the manual or automatic size of shooing the object to this different breadth of preview is convenient for carry out the collection of video or image, and it is extravagant to reduce the breadth, improves the definition, reaches ideal shooting effect.

Drawings

Fig. 1 is a schematic structural diagram of the intelligent binocular high speed photographing instrument of the invention.

Fig. 2 is a schematic structural diagram of the intelligent binocular high speed photographing instrument of the invention.

Fig. 3 is a schematic diagram of first lens shooting.

Fig. 4 is a schematic diagram of second lens shooting.

In the figure: 1-a cross bar; 2-a base; 3, a limiting block; 4-standard comparison box; 5-conducting bars; 6-a paper feeder; 7-adjusting knob; 8-a distance sensor; 9-a support arm; 10-a first lens; 11-a second lens; 12-lighting lamp.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are for convenience of description of the present invention only and do not require that the present invention must be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. The terms "connected" and "connected" used herein should be interpreted broadly, and may include, for example, a fixed connection or a detachable connection; they may be directly connected or indirectly connected through intermediate members, and specific meanings of the above terms will be understood by those skilled in the art as appropriate.

Referring to fig. 1 to 4, in which fig. 1 is a schematic structural diagram of an intelligent binocular high speed photographing apparatus according to the present invention; FIG. 2 is a schematic structural diagram II of the intelligent binocular high speed photographing apparatus of the present invention; FIG. 3 is a schematic diagram of a first lens capture; fig. 4 is a schematic diagram of second lens shooting.

As shown in fig. 1 and 2, the present invention provides an intelligent binocular high speed shooting apparatus, which mainly comprises a cross bar 1, and a first lens 10 and a second lens 11 mounted on the cross bar 1. The two ends of the cross rod 1 are respectively a first end part and a second end part, the second end part is externally connected with a support body, and the first end part is a free end; the first lens 10 and the second lens 11 are both located on a side close to the first end, and a distance between the first lens 10 and the first end is smaller than a distance between the second lens 11 and the first end.

Specifically, the intelligent binocular high-speed photographing apparatus of the present invention is provided with a first lens 10 and a second lens 11, and the second lens 11 and the first lens 10 are used in sequence when the size of a photographed object is small to large during photographing. For example, when the size of the shot object is A5 or A4 paper, the second lens 11 is used; when the size of the shot object is A3 or A2 paper, the first lens 10 is used. When the invention is used for shooting, the switching between the first lens 10 and the second lens 11 can be manually or automatically realized according to the size of a shot object, so that different breadth is previewed, the acquisition of videos or images is facilitated, the breadth waste is reduced, the definition is improved, and an ideal shooting effect is achieved.

Further, in the invention, a first cavity is arranged in the cross rod 1; the lower surface of the cross rod 1 is provided with a first mounting hole, a second mounting hole and a third mounting hole which are communicated with the first cavity. From the first end to the second end, be first mounting hole, second mounting hole and third mounting hole in proper order. The first mounting hole is used for mounting the first lens 10, the second mounting hole is used for mounting the second lens 11, and the third mounting hole is used for mounting the illuminating lamp 12. The cross bar 1 of the invention is in a cavity structure, so that the first lens 10, the second lens 11 and the illuminating lamp 12 can be conveniently installed and internally wired, and meanwhile, the brightness of the visual field can be improved by installing the illuminating lamp 12.

Further, the present invention further includes a controller, which is installed in the cross bar 1 and is respectively connected to the first lens 10, the second lens 11, and the illumination lamp 12, and is used for providing operation control, and implementing switching and adjustment of the first lens 10 and the second lens 11, and brightness adjustment of the illumination lamp 12.

Furthermore, the invention also comprises a mounting rack, wherein the mounting rack comprises a base 2 and a support arm 9, one end of the support arm 9 is movably connected with the base 2, and the other end of the support arm 9 is connected with the second end part of the cross rod 1. Specifically, the support arm 9 and the base 2 are in lockable articulation through the adjusting button 7, so that the shooting angles of the first lens 10 and the second lens 11 can be adjusted conveniently. Meanwhile, the support arm 9 and the cross rod 1 are connected in a pluggable mode, and storage is facilitated.

Furthermore, in the invention, a second cavity is arranged in the support arm 9, a third cavity is arranged in the base 2, the second cavity is communicated with the third cavity, and the first cavity is communicated with the second cavity, so that the wiring harnesses of the controller, the first lens 10, the second lens 11 and the illuminating lamp 12 are conveniently led into the third cavity. Through the form of internal routing, support arm 9, horizontal pole 1 can play the guard action to the circuit.

Further, in the invention, the base 2 is also provided with a switch, an operation button and a USB interface. The second cavity accommodates the first lens 10, the second lens 11, the illuminating lamp 12 and the wiring harness of the controller, and the wiring harness enters the third cavity and is connected with the switch, the operation button and the USB interface on the base 2. Specifically, the switch and the operation button are connected with a wire harness of the controller; the wire harness of the controller is also connected with the USB interface; the control wire harnesses of the first lens 10, the second lens 11 and the illuminating lamp 12 are connected with a controller; the power supply wiring harness of the first lens 10, the second lens 11 and the illuminating lamp 12 is connected with the USB interface. The switch can control the running state (on or off) of the intelligent binocular high-speed shooting instrument; the operation button can control the lens switching and brightness adjustment of the intelligent binocular high-speed shooting instrument; the USB interface is connected with an external port, preferably a Type-C interface, an external power supply and a memory (a hard disk, a computer and the like) so as to be connected with direct current or perform data interaction.

Further, in the invention, a battery is also arranged in the third cavity, and the battery is respectively connected with the switch and the USB interface. Can be for the operation power supply of intelligent binocular high appearance of clapping after losing external electric power support, when USB interface external power source, can be for the battery power supply when intelligent binocular high appearance of clapping normally operates, the preferred lithium cell of battery.

Further, in the present invention, a paper feeding device is provided on the base 2, and the paper feeding device is connected to the controller for automatically feeding the paper to be photographed to the base 2. Specifically, the paper feeding device comprises a limiting block 3, a paper feeder 6 and a guide strip 5. Two conducting bars 5 parallel mount are on base 2, adsorption paper feeding device and conducting bar 5 sliding fit, and stopper 3 adsorbs on base 2 through the magnetism mode of inhaling. When the paper is automatically fed, after the size of the paper is determined, the limiting block 3 is placed at a preset limiting position, the paper feeding device feeds the paper to the base 2, the paper is the end point of conveying when contacting the limiting block 3, after the first lens 10 or the second lens 11 finishes shooting, the next paper is conveyed, and the next paper covers the upper part of the previous paper. When the paper with different breadths is shot, the automatic conveying of the paper with different breadths can be realized by adjusting the position of the paper feeding device in sliding fit with the guide strip 5.

Further, in the present invention, the base 2 is provided with a standard contrast frame 4 for calibrating the first lens 10 and/or the second lens 11. Preferably, the standard contrast boxes 4 include a1 boxes, a2 boxes, A3 boxes, a4 boxes, and a5 boxes, corresponding to a1 web size, a2 web size, A3 web size, a4 web size, and a5 web size, respectively. Meanwhile, the standard contrast frame 4 of the present invention is not limited to the a-group paper, but may be B-group paper (B1, B2, B3, B4, B5), C-group paper (C1, C2, C3, C4, C5).

Furthermore, in the invention, the support arm 9 is provided with the distance sensor 8, the distance sensor 8 is connected with the controller, the thickness of the paper on the base 2 can be sensed, and a signal is transmitted to the controller, so that the controller can finely adjust the shot lens conveniently, and the clear view is ensured.

As shown in fig. 1 to 4, the present invention further provides an automatic adjustment method for an intelligent binocular high speed shooting instrument, which is suitable for the intelligent binocular high speed shooting instrument, and comprises the following steps:

the method comprises the following steps: and opening the second lens 11, recording the primary shooting breadth, and closing the second lens 11.

1.1, starting to operate, and keeping the first lens 10 and the second lens 11 in a closed state.

1.2 after the paper is detected to be put in, the second lens 11 is started to photograph the paper, and the photograph is named as a primary photograph.

1.3 close the second lens 11.

Step two: and opening the first lens 10, recording the secondary shooting breadth, and closing the first lens 10.

2.1 the first lens 10 is opened to take a picture of the paper, and the picture is named as secondary shooting format.

2.2 close the first lens 10.

Step three: and comparing the number of words and the number of figures of the primary shot format and the secondary shot format.

3.1, scanning each line of characters in the primary shooting breadth and the secondary shooting breadth.

3.2, block scanning is carried out, and pictures in the primary shooting breadth and the secondary shooting breadth are scanned.

Step four: if the number of characters and the number of figures are the same, shooting is carried out by using a second lens 11; if the number of words and/or the number of graphics are different, photographing is performed using the first lens 10.

4.1 if all the strip scanning lengths of the primary shooting breadth and the secondary shooting breadth are the same and the picture sizes are the same, judging to use the second lens 11 for shooting.

4.2 if all the strip scanning lengths and the picture sizes of the primary shooting breadth and the secondary shooting breadth are different, judging to use the second lens 11 for shooting.

4.4 after the lens is judged, the lens is opened, and the other lens is closed.

Step five: after the first lens 10 or the second lens 11 is selected, comparing the paper breadth with the standard comparison frame 4 to determine the corresponding standard comparison frame 4; and adjusting the selected first lens 10 or the second lens 11, recording the three-time shooting breadth, and finishing the adjustment when the three-time shooting breadth is the same as the size of the corresponding standard contrast frame 4.

5.1 comparing the standard contrast frame 4 with the previous shot breadth by using the opened lens, and selecting the standard contrast frame 4 with the area difference of not more than 900 square millimeters (30mm multiplied by 30mm) with the previous shot breadth.

5.2 adjusting the lens, shooting the three-time shooting breadth for multiple times, and finishing the adjustment when the size of the three-time shooting breadth is the same as that of the standard comparison frame 4.

Step six: after three times of shooting, the shooting times and the shooting distance are recorded, and the selected first lens 10 or second lens 11 is adjusted after the shooting times or shooting distance reaches a preset value.

6.1 setting shooting distance threshold. And when the difference between the distance and the initial distance is 5mm to 50mm in the shooting process, the shooting distance is within the threshold range.

6.2 adjusting the lens in use (fine focus) after the number of shots or shooting distance reaches a predetermined value

The triggering of the adjusting step can be based on two parameters, wherein one parameter is the shooting frequency (the thickness of paper is certain, and the distance can be judged to reach the shooting distance threshold value when the shooting frequency reaches a preset upper limit); the second is the distance detected by the distance sensor 8. After the two are compared and judged, the optimal value is selected, namely: the lens can be finely adjusted as soon as one parameter is reached.

Step seven: and adjusting the contrast and storing the shooting result.

7.1 set contrast template.

7.2 dynamically adjusting the brightness of the illuminating lamp 12, and comparing the shooting result with the contrast template.

7.3 outputting the shooting result.

In summary, the intelligent binocular high-speed shooting instrument of the invention is provided with the first lens 10 and the second lens 11, and when the size of the shot object is small to large during shooting, the second lens 11 and the first lens 10 are used in sequence. When shooting, the first lens 10 and the second lens 11 can be switched manually or automatically according to the size of a shot object, so that different formats can be previewed, the collection of videos or images is facilitated, the format waste is reduced, the definition is improved, and an ideal shooting effect is achieved.

It will be appreciated by those skilled in the art that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of or equivalence to the invention are intended to be embraced therein.

Claims (10)

1. The utility model provides an appearance is taken photo to intelligence binocular height which characterized in that includes:

the device comprises a cross rod, a first lens and a second lens, wherein the first lens and the second lens are arranged on the cross rod;

the two ends of the cross rod are respectively a first end part and a second end part, the second end part is externally connected with a support body, and the first end part is a free end;

the first lens and the second lens are both positioned on one side close to the first end part, and the distance between the first lens and the first end part is smaller than the distance between the second lens and the first end part.

2. The intelligent binocular high shooting instrument according to claim 1, wherein:

a first cavity is arranged in the cross rod; the lower surface of the cross rod is provided with a first mounting hole, a second mounting hole and a third mounting hole which are communicated with the first cavity;

a first mounting hole, a second mounting hole and a third mounting hole are sequentially arranged from the first end part to the second end part;

the first mounting hole is used for mounting the first lens, the second mounting hole is used for mounting the second lens, and the third mounting hole is used for mounting an illuminating lamp.

3. The intelligent binocular high shooting instrument according to claim 2, wherein:

the controller is installed in the cross rod, connected with the first lens, the second lens and the illuminating lamp respectively and used for providing operation control.

4. The intelligent binocular high shooting instrument according to claim 3, wherein:

the mounting frame comprises a base and a support arm, one end of the support arm is movably connected with the base, and the other end of the support arm is connected with the second end part of the cross rod;

a second cavity is formed in the support arm, a third cavity is formed in the base, and the second cavity is communicated with the third cavity; the base is also provided with a switch, an operation button and a USB interface;

the second cavity is used for accommodating the first lens, the second lens, the illuminating lamp and a wiring harness of the controller, introducing the wiring harness into a third cavity, and connecting the wiring harness with a switch, an operation button and a USB interface on the base;

preferably, a battery is further arranged in the third cavity, and the battery is respectively connected with the switch and the USB interface.

5. The intelligent binocular high shooting instrument according to claim 4, wherein:

the base is provided with a paper feeding device, and the paper feeding device is connected with the controller and is used for automatically conveying paper to be shot to the base;

a standard comparison frame is arranged on the base and used for calibrating the first lens and/or the second lens;

preferably, the standard contrast boxes include a1 box, a2 box, A3 box, a4 box, and a5 box.

6. The intelligent binocular high shooting instrument according to claim 5, wherein:

and a distance sensor is arranged on the support arm and connected with the controller for sensing the thickness of the paper on the base.

7. An automatic adjusting method of an intelligent binocular high speed shooting instrument, which is suitable for the intelligent binocular high speed shooting instrument according to any one of claims 1 to 6, and is characterized by comprising the following steps:

the method comprises the following steps: opening a second lens, recording the breadth of one-time shooting, and closing the second lens;

step two: opening a first lens, recording the secondary shooting breadth, and closing the first lens;

step three: comparing the number of words and the number of figures of the primary shooting breadth and the secondary shooting breadth;

step four: if the number of the characters is the same as the number of the figures, shooting by using the second lens; and if the number of the words and/or the number of the graphs are different, shooting by using the first lens.

8. The automatic adjusting method of the intelligent binocular high shooting instrument according to claim 7, wherein the method comprises the following steps:

further comprises the following steps: after the first lens or the second lens is selected, comparing the paper breadth with a standard comparison frame, and determining the corresponding standard comparison frame; and adjusting the selected first lens or the second lens, recording three times of shooting breadth, and finishing adjustment when the three times of shooting breadth is the same as the size of the corresponding standard contrast frame.

9. The automatic adjusting method of the intelligent binocular high shooting instrument according to claim 8, wherein:

further comprises the following steps: and recording the shooting times and the shooting distance after the three times of shooting, and adjusting the selected first lens or the second lens after the shooting times or the shooting distance reaches a preset value.

10. The automatic adjustment method of the intelligent binocular high speed shooting instrument according to claim 9, wherein:

the method also comprises the seventh step: and adjusting the contrast and storing the shooting result.

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