CN104639818A - Novel two-way optional camera - Google Patents

Abstract

The invention provides a novel two-way optional camera. The novel two-way optional camera comprises a front lens, a rear lens, a sensor, an analog-digital converter, an image processor, a memorizer and an image model selecting assembly, wherein the sensor is sequentially connected to the analog-digital converter, the image processor and the memorizer; the image model selecting assembly is respectively connected with the sensor and/or the image processor; the front lens and the rear lens are used for collecting reflection light of photographed objects; the sensor is used for converting optical signals to analog electric signals; the analog-digital converter is used for converting the analog electric signals into digital signals; the image processor is used for processing the digital signals to form image information; the memorizer is used for storing the image information; the image model selecting assembly is used for selecting and controlling the models of the image processor and the sensor. The novel two-way optional camera can be used for realizing the functions of shooting or photographing the foreground and the background or simultaneously shooting or photographing the foreground and the background; the image processor is used for fusing the images of the foreground and the background.

Description

Novelly two-wayly select camera

Technical field

The present invention relates to camera field, especially a kind ofly novelly two-wayly select camera.

Background technology

At present, existing camera can only realize prospect shooting or background shoot function, the syncretizing effect of shooting and front and back scape image while cannot realizing prospect and background.

Based on the problems referred to above, be badly in need of a camera that can effectively solve the problem.

Summary of the invention

For the weak point existed in the problems referred to above, the invention provides and a kind of can realize prospect, background or front and back scape by switching and take pictures or camera function simultaneously, and the novel two-way of front and back scape image co-registration can be realized select camera.

For achieving the above object, the invention provides and a kind of novelly two-wayly select camera, comprise front camera lens (1), rear lens (2), transducer (3), analog to digital converter (4), image processor (5), memory (6) and image model select assembly (7), described transducer (3) successively with described analog to digital converter (4), described image processor (5) and described memory (6) are connected, described image model selects assembly (7) to be connected with described transducer (3) and/or described image processor (5) respectively,

Described front camera lens (1) and described rear lens (2) are for assembling the reflection ray of subject;

Described transducer (3) is for being converted into analog electrical signal by light signal;

Described analog to digital converter (4) is for being converted into digital signal by analog electrical signal;

Described image processor (5) for digital signal is processed, to form image information;

Described memory (6) is for storing image information;

Described image model selects assembly (7) for carrying out selecting to described image processor (5) and the pattern of described transducer (3) and controlling.

Above-mentioned novel two-wayly select camera, wherein, described transducer (3) is arranged in the light path between described front camera lens (1) and described rear lens (2), described transducer (3) is divided into transducer a (31) and transducer b (32), described transducer a (31) is corresponding with described front camera lens (1), and described transducer b (32) is corresponding with described rear lens (2);

Described transducer a (31) selects assembly (7) to be connected with described analog to digital converter (4) and described image model with described transducer b (32) respectively.

Above-mentioned novel two-wayly select camera, wherein, also comprise the reflective mirror (8) in the light path that is arranged between described front camera lens (1) and described rear lens (2), described reflective mirror (8) for by described front camera lens (1) and/or described rear lens (2) through light carry out 90 ° of reflections, to be sent on described transducer (3).

Above-mentioned novel two-wayly select camera, wherein, described transducer (3) is divided into transducer a (31) and transducer b (32), and described transducer a (31) selects assembly (7) to be connected with described analog to digital converter (4) and described image model with described transducer b (32) respectively;

Described transducer a (31) and described transducer b (32) are vertically set on the downside of the first inclined plane (81) in described reflective mirror (8), the second inclined plane (82) respectively.

Above-mentioned novel two-wayly select camera, wherein, described image model selects assembly (7) to be connected with described reflective mirror (8) by motor (9), with control described reflective mirror (8) near described front camera lens (1) position, near described rear lens (2) position or between described front camera lens (1) and described rear lens (2) position placed in the middle move, with the downside making described transducer (3) be vertically set on the first inclined plane (81) and/or the second inclined plane (82) in described reflective mirror (8).

Above-mentioned novel two-wayly select camera, wherein, when described transducer (3) is arranged on the downside of described first inclined plane (81) and the second inclined plane (82), the base angle (83) in described reflective mirror (8) is corresponding with described transducer (3) center.

Above-mentioned novel two-wayly select camera, wherein, described image model selects assembly (7) to be connected with described transducer (3) by motor (9) mutually, with control described transducer (3) near described front camera lens (1) position, near described rear lens (2) position or between described front camera lens (1) and described rear lens (2) position placed in the middle move, with the downside making described transducer (3) be vertically set on the first inclined plane (81) and/or the second inclined plane (82) in described reflective mirror (8).

Above-mentioned novel two-wayly select camera, wherein, when described transducer (3) is arranged on the downside of described first inclined plane (81) and the second inclined plane (82), the base angle (83) in described reflective mirror (8) is corresponding with described transducer (3) center.

Compared with prior art, the present invention has the following advantages:

The present invention selects assembly and/or reflective mirror by adding image model on the basis of existing camera principle, can realize prospect, background or front and back scape and take pictures or camera function simultaneously, and by image processor to realize the fusion of front and back scape image.

Accompanying drawing explanation

Fig. 1 is the structural representation of first embodiment of the invention;

Fig. 2 is the structural representation of second embodiment of the invention;

Fig. 3 is the first using state figure of third embodiment of the invention;

Fig. 4 is the second using state figure of third embodiment of the invention;

Fig. 5 is the third using state figure of third embodiment of the invention;

Fig. 6 is the first using state figure of fourth embodiment of the invention;

Fig. 7 is the second using state figure of fourth embodiment of the invention;

Fig. 8 is the third using state figure of fourth embodiment of the invention.

Critical piece is described as follows:

Camera lens before 1-; 2-rear lens; 3-transducer; 31-transducer a; 32-transducer b; 4-analog to digital converter; 5-image processor; 6-memory; 7-image model selects assembly; 8-reflective mirror; 81-first inclined plane; 82-second inclined plane; 83-base angle; 9-motor

Embodiment

As shown in Figure 1, the present embodiment comprises front camera lens 1, rear lens 2, transducer 3, analog to digital converter 4, image processor 5, memory 6 and image model and selects assembly 7, transducer 3 is connected with analog to digital converter 4, image processor 5 and memory 6 successively, and image model selects assembly 7 to be connected with image processor 5 with transducer 3 respectively.

Front camera lens 1 and rear lens 2 are for assembling the reflection ray of subject.

Transducer 3 can adopt CCD or CMOS, for light signal is converted into analog electrical signal.

Analog to digital converter 4 is for being converted into digital signal by analog electrical signal.

Image processor 5 for digital signal is processed, to form image information.When modulus is set as that front and back camera lens is taken pictures or makes a video recording simultaneously, the signal that front and back camera lens obtains can be carried out image integration by image processor.

Memory 6 is for storing image information or video information.

Image model selects assembly 7 for carrying out selecting to the pattern of image processor 5 and transducer 3 and controlling.In addition, image model select that assembly can also select front camera lens to take pictures, the shooting of front camera lens, rear lens is taken pictures, rear lens is made a video recording, front and back camera lens is taken pictures simultaneously and integrate, front and back camera lens makes a video recording simultaneously and integrates.

In the present embodiment, transducer 3 is divided into transducer a31 and transducer b32, and transducer a31 is arranged on the rear side of front camera lens 1, and its position is corresponding with front camera lens 1, arranges with transducer a31 same light path to make front camera lens 1.Transducer b32 is arranged on the rear side of rear lens 2, and its position is corresponding with rear lens 2, arranges to make rear lens 2 and transducer b32 same light path.

Wherein, transducer a31 and transducer b32 select assembly 7 to be connected with analog to digital converter 4 and image model respectively.

As shown in Figure 2, the present embodiment comprises front camera lens 1, rear lens 2, transducer 3, analog to digital converter 4, image processor 5, memory 6, image model selection assembly 7 and reflective mirror 8, transducer 3 is connected with analog to digital converter 4, image processor 5 and memory 6 successively, and image model selects assembly 7 to be connected with image processor 5 with transducer 3 respectively.Reflective mirror is arranged on the position between front camera lens and rear mirror light.

Front camera lens 1 and rear lens 2 are for assembling the reflection ray of subject.

Transducer 3 can adopt CCD or CMOS, for light signal is converted into analog electrical signal.

Analog to digital converter 4 is for being converted into digital signal by analog electrical signal.

Image processor 5 for digital signal is processed, to form image information.When modulus is set as that front and back camera lens is taken pictures or makes a video recording simultaneously, the signal that front and back camera lens obtains can be carried out image integration by image processor.

Memory 6 is for storing image information or video information.

Image model selects assembly 7 for carrying out selecting to the pattern of image processor 5 and transducer 3 and controlling.In addition, image model select that assembly can also select front camera lens to take pictures, the shooting of front camera lens, rear lens is taken pictures, rear lens is made a video recording, front and back camera lens is taken pictures simultaneously and integrate, front and back camera lens makes a video recording simultaneously and integrates.

Reflective mirror 8 is the equilateral triangle structure of standing upside down, for by front camera lens 1 and rear lens 2 through light carry out 90 ° of reflections, to be sent on transducer 3.

In the present embodiment, transducer 3 is divided into transducer a31 and transducer b32, and transducer a31 is arranged on the rear side of front camera lens 1, and its position is corresponding with front camera lens 1, arranges with transducer a31 same light path to make front camera lens 1.Transducer b32 is arranged on the rear side of rear lens 2, and its position is corresponding with rear lens 2, arranges to make rear lens 2 and transducer b32 same light path.

Transducer a31 and transducer b32 is vertically set on the downside on the first inclined plane 82, inclined plane 81, second in reflective mirror 8 respectively.

Wherein, transducer a31 and transducer b32 select assembly 7 to be connected with analog to digital converter 4 and image model respectively.

As shown in Figure 3, the present embodiment comprises front camera lens 1, rear lens 2, transducer 3, analog to digital converter 4, image processor 5, memory 6, image model selection assembly 7 and reflective mirror 8, transducer 3 is connected with analog to digital converter 4, image processor 5 and memory 6 successively, and image model selects assembly 7 to be connected with image processor 5 with transducer 3 respectively.Reflective mirror is arranged on the position between front camera lens and rear mirror light.

Front camera lens 1 and rear lens 2 are for assembling the reflection ray of subject.

Transducer 3 can adopt CCD or CMOS, for light signal is converted into analog electrical signal.

Analog to digital converter 4 is for being converted into digital signal by analog electrical signal.

Image processor 5 for digital signal is processed, to form image information.When modulus is set as that front and back camera lens is taken pictures or makes a video recording simultaneously, the signal that front and back camera lens obtains can be carried out image integration by image processor.

Memory 6 is for storing image information or video information.

Image model selects assembly 7 for carrying out selecting to the pattern of image processor 5 and transducer 3 and controlling.In addition, image model select that assembly can also select front camera lens to take pictures, the shooting of front camera lens, rear lens is taken pictures, rear lens is made a video recording, front and back camera lens is taken pictures simultaneously and integrate, front and back camera lens makes a video recording simultaneously and integrates.

Reflective mirror 8 is the equilateral triangle structure of standing upside down, for by front camera lens 1 and rear lens 2 through light carry out 90 ° of reflections, to be sent on transducer 3.

Image model selects assembly 7 to be connected with reflective mirror 8 by motor 9, controls the position that reflective mirror 8 laterally moves to close front camera lens 1, and makes transducer 3 be vertically set on the downside on the first inclined plane 81 in reflective mirror 8.By this kind of project organization, front camera lens can be controlled and realize prospect and take pictures and the effect of making a video recording.

As shown in Figure 4, the present embodiment comprises front camera lens 1, rear lens 2, transducer 3, analog to digital converter 4, image processor 5, memory 6, image model selection assembly 7 and reflective mirror 8, transducer 3 is connected with analog to digital converter 4, image processor 5 and memory 6 successively, and image model selects assembly 7 to be connected with image processor 5 with transducer 3 respectively.Reflective mirror is arranged on the position between front camera lens and rear mirror light.

Front camera lens 1 and rear lens 2 are for assembling the reflection ray of subject.

Transducer 3 can adopt CCD or CMOS, for light signal is converted into analog electrical signal.

Analog to digital converter 4 is for being converted into digital signal by analog electrical signal.

Image processor 5 for digital signal is processed, to form image information.When modulus is set as that front and back camera lens is taken pictures or makes a video recording simultaneously, the signal that front and back camera lens obtains can be carried out image integration by image processor.

Memory 6 is for storing image information or video information.

Image model selects assembly 7 for carrying out selecting to the pattern of image processor 5 and transducer 3 and controlling.In addition, image model select that assembly can also select front camera lens to take pictures, the shooting of front camera lens, rear lens is taken pictures, rear lens is made a video recording, front and back camera lens is taken pictures simultaneously and integrate, front and back camera lens makes a video recording simultaneously and integrates.

Reflective mirror 8 is the equilateral triangle structure of standing upside down, for by front camera lens 1 and rear lens 2 through light carry out 90 ° of reflections, to be sent on transducer 3.

Image model selects assembly 7 to be connected with reflective mirror 8 by motor 9, controls the position that reflective mirror 8 laterally moves to close rear lens 2, and makes transducer 3 be vertically set on the downside on the second inclined plane 82 in reflective mirror 8.By this kind of project organization, rear lens can be controlled and realize background and take pictures and the effect of making a video recording.

As shown in Figure 5, the present embodiment comprises front camera lens 1, rear lens 2, transducer 3, analog to digital converter 4, image processor 5, memory 6, image model selection assembly 7 and reflective mirror 8, transducer 3 is connected with analog to digital converter 4, image processor 5 and memory 6 successively, and image model selects assembly 7 to be connected with image processor 5 with transducer 3 respectively.Reflective mirror is arranged on the position between front camera lens and rear mirror light.

Front camera lens 1 and rear lens 2 are for assembling the reflection ray of subject.

Transducer 3 can adopt CCD or CMOS, for light signal is converted into analog electrical signal.

Analog to digital converter 4 is for being converted into digital signal by analog electrical signal.

Image processor 5 for digital signal is processed, to form image information.When modulus is set as that front and back camera lens is taken pictures or makes a video recording simultaneously, the signal that front and back camera lens obtains can be carried out image integration by image processor.

Memory 6 is for storing image information or video information.

Image model selects assembly 7 for carrying out selecting to the pattern of image processor 5 and transducer 3 and controlling.In addition, image model select that assembly can also select front camera lens to take pictures, the shooting of front camera lens, rear lens is taken pictures, rear lens is made a video recording, front and back camera lens is taken pictures simultaneously and integrate, front and back camera lens makes a video recording simultaneously and integrates.

Reflective mirror 8 is the equilateral triangle structure of standing upside down, for by front camera lens 1 and rear lens 2 through light carry out 90 ° of reflections, to be sent on transducer 3.

Image model selects assembly 7 to be connected with reflective mirror 8 by motor 9, control the centre position that reflective mirror 8 laterally moves to front camera lens 1 and rear lens 2, and make transducer 3 longitudinally be vertically set on the downside on the first inclined plane 81 and the second inclined plane 82, now, the base angle 83 in reflective mirror 8 is corresponding with transducer 3 center.By this kind of project organization, can control front camera lens and rear lens realize simultaneously prospect take pictures with make a video recording, background takes pictures and the effect of making a video recording.

As shown in Figure 6, the present embodiment comprises front camera lens 1, rear lens 2, transducer 3, analog to digital converter 4, image processor 5, memory 6, image model selection assembly 7 and reflective mirror 8, transducer 3 is connected with analog to digital converter 4, image processor 5 and memory 6 successively, and image model selects assembly 7 to be connected with image processor 5 with transducer 3 respectively.Reflective mirror is arranged on the position between front camera lens and rear mirror light.

Front camera lens 1 and rear lens 2 are for assembling the reflection ray of subject.

Transducer 3 can adopt CCD or CMOS, for light signal is converted into analog electrical signal.

Analog to digital converter 4 is for being converted into digital signal by analog electrical signal.

Image processor 5 for digital signal is processed, to form image information.When modulus is set as that front and back camera lens is taken pictures or makes a video recording simultaneously, the signal that front and back camera lens obtains can be carried out image integration by image processor.

Memory 6 is for storing image information or video information.

Image model selects assembly 7 for carrying out selecting to the pattern of image processor 5 and transducer 3 and controlling.In addition, image model select that assembly can also select front camera lens to take pictures, the shooting of front camera lens, rear lens is taken pictures, rear lens is made a video recording, front and back camera lens is taken pictures simultaneously and integrate, front and back camera lens makes a video recording simultaneously and integrates.

Reflective mirror 8 is the equilateral triangle structure of standing upside down, for by front camera lens 1 and rear lens 2 through light carry out 90 ° of reflections, to be sent on transducer 3.

Image model selects assembly 7 to be connected with transducer 3 by motor 9, and the downside controlling transducer 3 first inclined plane 81 in reflective mirror 8 is moved, and then stops when transducer 3 is vertically set on the downside on the first inclined plane 81 in reflective mirror 8.By this kind of project organization, front camera lens can be controlled and realize prospect and take pictures and the effect of making a video recording.

As shown in Figure 7, the present embodiment comprises front camera lens 1, rear lens 2, transducer 3, analog to digital converter 4, image processor 5, memory 6, image model selection assembly 7 and reflective mirror 8, transducer 3 is connected with analog to digital converter 4, image processor 5 and memory 6 successively, and image model selects assembly 7 to be connected with image processor 5 with transducer 3 respectively.Reflective mirror is arranged on the position between front camera lens and rear mirror light.

Front camera lens 1 and rear lens 2 are for assembling the reflection ray of subject.

Transducer 3 can adopt CCD or CMOS, for light signal is converted into analog electrical signal.

Analog to digital converter 4 is for being converted into digital signal by analog electrical signal.

Image processor 5 for digital signal is processed, to form image information.When modulus is set as that front and back camera lens is taken pictures or makes a video recording simultaneously, the signal that front and back camera lens obtains can be carried out image integration by image processor.

Memory 6 is for storing image information or video information.

Image model selects assembly 7 for carrying out selecting to the pattern of image processor 5 and transducer 3 and controlling.In addition, image model select that assembly can also select front camera lens to take pictures, the shooting of front camera lens, rear lens is taken pictures, rear lens is made a video recording, front and back camera lens is taken pictures simultaneously and integrate, front and back camera lens makes a video recording simultaneously and integrates.

Reflective mirror 8 is the equilateral triangle structure of standing upside down, for by front camera lens 1 and rear lens 2 through light carry out 90 ° of reflections, to be sent on transducer 3.

Image model selects assembly 7 to be connected with transducer 3 by motor 9, and the downside controlling transducer 3 second inclined plane 81 in reflective mirror 8 is moved, and then stops when transducer 3 is vertically set on the downside on the second inclined plane 81 in reflective mirror 8.By this kind of project organization, rear lens can be controlled and realize background and take pictures and the effect of making a video recording.

As shown in Figure 8, the present embodiment comprises front camera lens 1, rear lens 2, transducer 3, analog to digital converter 4, image processor 5, memory 6, image model selection assembly 7 and reflective mirror 8, transducer 3 is connected with analog to digital converter 4, image processor 5 and memory 6 successively, and image model selects assembly 7 to be connected with image processor 5 with transducer 3 respectively.Reflective mirror is arranged on the position between front camera lens and rear mirror light.

Front camera lens 1 and rear lens 2 are for assembling the reflection ray of subject.

Transducer 3 can adopt CCD or CMOS, for light signal is converted into analog electrical signal.

Analog to digital converter 4 is for being converted into digital signal by analog electrical signal.

Image processor 5 for digital signal is processed, to form image information.When modulus is set as that front and back camera lens is taken pictures or makes a video recording simultaneously, the signal that front and back camera lens obtains can be carried out image integration by image processor.

Memory 6 is for storing image information or video information.

Image model selects assembly 7 for carrying out selecting to the pattern of image processor 5 and transducer 3 and controlling.In addition, image model select that assembly can also select front camera lens to take pictures, the shooting of front camera lens, rear lens is taken pictures, rear lens is made a video recording, front and back camera lens is taken pictures simultaneously and integrate, front and back camera lens makes a video recording simultaneously and integrates.

Reflective mirror 8 is the equilateral triangle structure of standing upside down, for by front camera lens 1 and rear lens 2 through light carry out 90 ° of reflections, to be sent on transducer 3.

Image model selects assembly 7 to be connected with transducer 3 by motor 9, and the downside controlling transducer 3 second inclined plane 81 in reflective mirror 8 is moved, and then stops when transducer 3 is vertically set on the downside on the second inclined plane 81 in reflective mirror 8.By this kind of project organization, rear lens can be controlled and realize background and take pictures and the effect of making a video recording.

Image model selects assembly 7 to be connected with transducer 3 by motor 9, control the centre position that transducer 3 laterally moves to front camera lens 1 and rear lens 2, and make transducer 3 longitudinally be vertically set on the downside on the first inclined plane 81 and the second inclined plane 82, now, the base angle 83 in reflective mirror 8 is corresponding with transducer 3 center.By this kind of project organization, can control front camera lens and rear lens realize simultaneously prospect take pictures with make a video recording, background takes pictures and the effect of making a video recording.

The foregoing is only preferred embodiment of the present invention, is only illustrative for invention, and nonrestrictive.Those skilled in the art is understood, and can carry out many changes in the spirit and scope that invention claim limits to it, amendment, even equivalence, but all will fall within the scope of protection of the present invention.

Claims (8)

1. novelly two-wayly select camera for one kind, it is characterized in that, comprise front camera lens (1), rear lens (2), transducer (3), analog to digital converter (4), image processor (5), memory (6) and image model and select assembly (7), described transducer (3) is connected with described analog to digital converter (4), described image processor (5) and described memory (6) successively, and described image model selects assembly (7) to be connected with described transducer (3) and/or described image processor (5) respectively;

Described front camera lens (1) and described rear lens (2) are for assembling the reflection ray of subject;

Described transducer (3) is for being converted into analog electrical signal by light signal;

Described analog to digital converter (4) is for being converted into digital signal by analog electrical signal;

Described image processor (5) for digital signal is processed, to form image information;

Described memory (6) is for storing image information;

Described image model selects assembly (7) for carrying out selecting to described image processor (5) and the pattern of described transducer (3) and controlling.

2. according to claim 1ly novelly two-wayly select camera, it is characterized in that, described transducer (3) is arranged in the light path between described front camera lens (1) and described rear lens (2), described transducer (3) is divided into transducer a (31) and transducer b (32), described transducer a (31) is corresponding with described front camera lens (1), and described transducer b (32) is corresponding with described rear lens (2);

Described transducer a (31) selects assembly (7) to be connected with described analog to digital converter (4) and described image model with described transducer b (32) respectively.

3. according to claim 1ly novelly two-wayly select camera, it is characterized in that, also comprise the reflective mirror (8) in the light path that is arranged between described front camera lens (1) and described rear lens (2), described reflective mirror (8) for by described front camera lens (1) and/or described rear lens (2) through light carry out 90 ° of reflections, to be sent on described transducer (3).

4. according to claim 3ly novelly two-wayly select camera, it is characterized in that, described transducer (3) is divided into transducer a (31) and transducer b (32), and described transducer a (31) selects assembly (7) to be connected with described analog to digital converter (4) and described image model with described transducer b (32) respectively;

Described transducer a (31) and described transducer b (32) are vertically set on the downside of the first inclined plane (81) in described reflective mirror (8), the second inclined plane (82) respectively.

5. according to claim 3ly novelly two-wayly select camera, it is characterized in that, described image model selects assembly (7) to be connected with described reflective mirror (8) by motor (9), to control described reflective mirror (8) to the position near described front camera lens (1), to the position near described rear lens (2), or position placed in the middle is moved between described front camera lens (1) and described rear lens (2), with the downside making described transducer (3) be vertically set on the first inclined plane (81) and/or the second inclined plane (82) in described reflective mirror (8).

6. according to claim 5ly novelly two-wayly select camera, it is characterized in that, when described transducer (3) is arranged on the downside of described first inclined plane (81) and the second inclined plane (82), the base angle (83) in described reflective mirror (8) is corresponding with described transducer (3) center.

7. according to claim 3ly novelly two-wayly select camera, it is characterized in that, described image model selects assembly (7) to be connected with described transducer (3) by motor (9) mutually, to control described transducer (3) to the position near described front camera lens (1), to the position near described rear lens (2), or position placed in the middle is moved between described front camera lens (1) and described rear lens (2), with the downside making described transducer (3) be vertically set on the first inclined plane (81) and/or the second inclined plane (82) in described reflective mirror (8).

8. according to claim 7ly novelly two-wayly select camera, it is characterized in that, when described transducer (3) is arranged on the downside of described first inclined plane (81) and the second inclined plane (82), the base angle (83) in described reflective mirror (8) is corresponding with described transducer (3) center.