CN104639818B - Novel two-way optional camera - Google Patents

Abstract

The present invention provides a kind of novel two-way optional camera, component is selected including preceding camera lens, rear lens, sensor, analog-digital converter, image processor, memory and image model, sensor is connected successively with analog-digital converter, image processor and memory, and image model selection component is connected respectively with sensor and/or image processor.Preceding camera lens is used to assemble the reflection light of subject with rear lens；Sensor is used to convert optical signal into analog electrical signal；Analog-digital converter is used to analog electrical signal being converted into digital signal；Image processor is for digital signal to be handled, to form image information；Memory is used to store image information；Image model selection component is used to that the pattern of image processor and sensor to be selected and controlled.Prospect, background can be achieved by the present invention or front and rear scape is taken pictures simultaneously or camera function, and passes through image processor to realize the fusion of front and rear scape image.

Description

Novel two-way optional camera

Technical field

The present invention relates to camera field, especially a kind of novel two-way optional camera.

Background technology

At present, existing camera can only realize prospect shooting or background shooting function, can not realize prospect and background It shoots and the syncretizing effect of front and rear scape image simultaneously.

Based on the above problem, it is badly in need of a camera that can effectively solve the problem that the above problem.

Invention content

Shortcoming present in regarding to the issue above, the present invention provide it is a kind of by switching can be achieved prospect, background or Front and rear scape is taken pictures simultaneously or camera function, and can realize the novel two-way optional camera of front and rear scape image co-registration.

To achieve the above object, the present invention provides a kind of novel two-way optional camera, including preceding camera lens (1), rear mirror Head (2), sensor (3), analog-digital converter (4), image processor (5), memory (6) and image model selection component (7), institute Sensor (3) is stated successively with the analog-digital converter (4), described image processor (5) and the memory (6) to be connected, Described image model selection component (7) is connected respectively with the sensor (3) and/or described image processor (5)；

The preceding camera lens (1) is assembled with reflection light of the rear lens (2) for subject；

The sensor (3) is for converting optical signal into analog electrical signal；

The analog-digital converter (4) by analog electrical signal for being converted into digital signal；

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

The memory (6) is for storing image information；

Described image model selection component (7) for the pattern to described image processor (5) and the sensor (3) into Row selection and control.

Above-mentioned novel two-way optional camera, wherein, the sensor (3) is arranged on the preceding camera lens (1) and institute It states in the light path between rear lens (2), the sensor (3) is divided into sensor a (31) and sensor b (32), the sensor a (31) corresponding with the preceding camera lens (1), the sensor b (32) is corresponding with the rear lens (2)；

The sensor a (31) and the sensor b (32) respectively with the analog-digital converter (4) and described image mould Formula selection component (7) is connected.

Above-mentioned novel two-way optional camera, wherein, it further includes and is arranged on the preceding camera lens (1) and the rear lens (2) reflective mirror (8) in the light path between, the reflective mirror (8) is for by the preceding camera lens (1) and/or the rear lens (2) The light of transmission carries out 90 ° of reflections, to be sent on the sensor (3).

Above-mentioned novel two-way optional camera, wherein, the sensor (3) is divided into sensor a (31) and sensor b (32), the sensor a (31) and the sensor b (32) respectively with the analog-digital converter (4) and described image pattern Selection component (7) is connected；

The sensor a (31) is vertically disposed on the first inclination in the reflective mirror (8) with the sensor b (32) Face (81), the downside of the second inclined surface (82).

Above-mentioned novel two-way optional camera, wherein, described image model selection component (7) by motor (9) with The reflective mirror (8) is connected, with control the reflective mirror (8) to close to the position of the preceding camera lens (1), to after described Centered position moves between the position of camera lens (2) or the preceding camera lens (1) and the rear lens (2), so that the sensor (3) it is vertically set on the downside of the first inclined surface (81) and/or the second inclined surface (82) in the reflective mirror (8).

Above-mentioned novel two-way optional camera, wherein, when the sensor (3) is arranged on first inclined surface (81) and during the downside of the second inclined surface (82), the base angle (83) in the reflective mirror (8) and the sensor (3) center It is corresponding.

Above-mentioned novel two-way optional camera, wherein, described image model selection component (7) mutually passes through motor (9) Be connected with the sensor (3), with control the sensor (3) to close to the position of the preceding camera lens (1), to close to described Centered position moves between the position of rear lens (2) or the preceding camera lens (1) and the rear lens (2), so that the sensing Device (3) is vertically set on the downside of the first inclined surface (81) and/or the second inclined surface (82) in the reflective mirror (8).

Above-mentioned novel two-way optional camera, wherein, when the sensor (3) is arranged on first inclined surface (81) and during the downside of the second inclined surface (82), the base angle (83) in the reflective mirror (8) and the sensor (3) center It is corresponding.

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

The present invention selects component and/or reflective mirror by increasing image model on the basis of existing camera principle, Prospect, background can be achieved or front and rear scape is taken pictures simultaneously or camera function, and passes through image processor to realize front and rear scape image Fusion.

Description of the drawings

Fig. 1 is the structure diagram of first embodiment of the invention；

Fig. 2 is the structure diagram of second embodiment of the invention；

Fig. 3 is the first usage state diagram of third embodiment of the invention；

Fig. 4 is second of usage state diagram of third embodiment of the invention；

Fig. 5 is the third usage state diagram of third embodiment of the invention；

Fig. 6 is the first usage state diagram of fourth embodiment of the invention；

Fig. 7 is second of usage state diagram of fourth embodiment of the invention；

Fig. 8 is the third usage state diagram of fourth embodiment of the invention.

Critical piece is described as follows：

Camera lens before 1-；2- rear lens；3- sensors；31- sensors a；32- sensors b；4- analog-digital converters；5- images Processor；6- memories；7- image models select component；8- reflective mirrors；The first inclined surface of 81-；The second inclined surface of 82-；83- bottoms Angle；9- motors

Specific embodiment

As shown in Figure 1, the present embodiment includes preceding camera lens 1, rear lens 2, sensor 3, analog-digital converter 4, image processor 5th, memory 6 and image model select component 7, sensor 3 successively with analog-digital converter 4, image processor 5 and memory 6 It is connected, image model selection component 7 is connected respectively with sensor 3 and image processor 5.

Preceding camera lens 1 is used to assemble the reflection light of subject with rear lens 2.

CCD or CMOS can be used in sensor 3, for converting optical signal into analog electrical signal.

Analog-digital converter 4 is used to analog electrical signal being converted into digital signal.

Image processor 5 is for digital signal to be handled, to form image information.When modulus is set as front and rear mirror When head is taken pictures or imaged simultaneously, the signal that front and rear camera lens obtains can be carried out image integration by image processor.

Memory 6 is used to store image information or video information.

Image model selection component 7 is used to that the pattern of image processor 5 and sensor 3 to be selected and controlled.In addition, Camera lens is taken pictures before image model selection component is also an option that, the camera shooting of preceding camera lens, rear lens are taken pictures, rear lens image, front and rear mirror Head is taken pictures and is integrated simultaneously, front and rear camera lens is imaged and integrated simultaneously.

In the present embodiment, sensor 3 divides for sensor a31 and sensor b32, camera lens 1 before sensor a31 is arranged on Rear side, position is corresponding with preceding camera lens 1, so that preceding camera lens 1 is set with sensor a31 same light paths.Sensor b32 is arranged on The rear side of rear lens 2, position is corresponding with rear lens 2, so that rear lens 2 are set with sensor b32 same light paths.

Wherein, sensor a31 and sensor b32 is connected respectively with analog-digital converter 4 and image model selection component 7 It connects.

As shown in Fig. 2, the present embodiment includes preceding camera lens 1, rear lens 2, sensor 3, analog-digital converter 4, image processor 5th, memory 6, image model selection component 7 and reflective mirror 8, sensor 3 successively with analog-digital converter 4, image processor 5 and Memory 6 is connected, and image model selection component 7 is connected respectively with sensor 3 and image processor 5.Reflective mirror is arranged on Position between preceding camera lens and rear mirror light.

Preceding camera lens 1 is used to assemble the reflection light of subject with rear lens 2.

CCD or CMOS can be used in sensor 3, for converting optical signal into analog electrical signal.

Analog-digital converter 4 is used to analog electrical signal being converted into digital signal.

Image processor 5 is for digital signal to be handled, to form image information.When modulus is set as front and rear mirror When head is taken pictures or imaged simultaneously, the signal that front and rear camera lens obtains can be carried out image integration by image processor.

Memory 6 is used to store image information or video information.

Image model selection component 7 is used to that the pattern of image processor 5 and sensor 3 to be selected and controlled.In addition, Camera lens is taken pictures before image model selection component is also an option that, the camera shooting of preceding camera lens, rear lens are taken pictures, rear lens image, front and rear mirror Head is taken pictures and is integrated simultaneously, front and rear camera lens is imaged and integrated simultaneously.

Reflective mirror 8 is the equilateral triangle structure stood upside down, and the light for preceding camera lens 1 and rear lens 2 to be penetrated carries out 90 ° Reflection, to be sent on sensor 3.

In the present embodiment, sensor 3 divides for sensor a31 and sensor b32, camera lens 1 before sensor a31 is arranged on Rear side, position is corresponding with preceding camera lens 1, so that preceding camera lens 1 is set with sensor a31 same light paths.Sensor b32 is arranged on The rear side of rear lens 2, position is corresponding with rear lens 2, so that rear lens 2 are set with sensor b32 same light paths.

Sensor a31 and sensor b32 is vertically disposed on the first inclined surface 81 in reflective mirror 8, the second inclined surface 82 Downside.

Wherein, sensor a31 and sensor b32 is connected respectively with analog-digital converter 4 and image model selection component 7 It connects.

As shown in figure 3, the present embodiment includes preceding camera lens 1, rear lens 2, sensor 3, analog-digital converter 4, image processor 5th, memory 6, image model selection component 7 and reflective mirror 8, sensor 3 successively with analog-digital converter 4, image processor 5 and Memory 6 is connected, and image model selection component 7 is connected respectively with sensor 3 and image processor 5.Reflective mirror is arranged on Position between preceding camera lens and rear mirror light.

Preceding camera lens 1 is used to assemble the reflection light of subject with rear lens 2.

CCD or CMOS can be used in sensor 3, for converting optical signal into analog electrical signal.

Analog-digital converter 4 is used to analog electrical signal being converted into digital signal.

Image processor 5 is for digital signal to be handled, to form image information.When modulus is set as front and rear mirror When head is taken pictures or imaged simultaneously, the signal that front and rear camera lens obtains can be carried out image integration by image processor.

Memory 6 is used to store image information or video information.

Image model selection component 7 is used to that the pattern of image processor 5 and sensor 3 to be selected and controlled.In addition, Camera lens is taken pictures before image model selection component is also an option that, the camera shooting of preceding camera lens, rear lens are taken pictures, rear lens image, front and rear mirror Head is taken pictures and is integrated simultaneously, front and rear camera lens is imaged and integrated simultaneously.

Reflective mirror 8 is the equilateral triangle structure stood upside down, and the light for preceding camera lens 1 and rear lens 2 to be penetrated carries out 90 ° Reflection, to be sent on sensor 3.

Image model selection component 7 is connected by motor 9 with reflective mirror 8, and control reflective mirror 8 is laterally moved to by nearby The position of camera lens 1, and sensor 3 is made to be vertically set on the downside of the first inclined surface 81 in reflective mirror 8.It is tied by such design Structure, controllable preceding camera lens realize the effect that prospect is taken pictures with camera shooting.

As shown in figure 4, the present embodiment includes preceding camera lens 1, rear lens 2, sensor 3, analog-digital converter 4, image processor 5th, memory 6, image model selection component 7 and reflective mirror 8, sensor 3 successively with analog-digital converter 4, image processor 5 and Memory 6 is connected, and image model selection component 7 is connected respectively with sensor 3 and image processor 5.Reflective mirror is arranged on Position between preceding camera lens and rear mirror light.

Preceding camera lens 1 is used to assemble the reflection light of subject with rear lens 2.

CCD or CMOS can be used in sensor 3, for converting optical signal into analog electrical signal.

Analog-digital converter 4 is used to analog electrical signal being converted into digital signal.

Image processor 5 is for digital signal to be handled, to form image information.When modulus is set as front and rear mirror When head is taken pictures or imaged simultaneously, the signal that front and rear camera lens obtains can be carried out image integration by image processor.

Memory 6 is used to store image information or video information.

Image model selection component 7 is used to that the pattern of image processor 5 and sensor 3 to be selected and controlled.In addition, Camera lens is taken pictures before image model selection component is also an option that, the camera shooting of preceding camera lens, rear lens are taken pictures, rear lens image, front and rear mirror Head is taken pictures and is integrated simultaneously, front and rear camera lens is imaged and integrated simultaneously.

Reflective mirror 8 is the equilateral triangle structure stood upside down, and the light for preceding camera lens 1 and rear lens 2 to be penetrated carries out 90 ° Reflection, to be sent on sensor 3.

Image model selection component 7 is connected by motor 9 with reflective mirror 8, and control reflective mirror 8 is laterally moved to after The position of camera lens 2, and sensor 3 is made to be vertically set on the downside of the second inclined surface 82 in reflective mirror 8.It is tied by such design Structure, controllable rear lens realize the effect that background is taken pictures with camera shooting.

As shown in figure 5, the present embodiment includes preceding camera lens 1, rear lens 2, sensor 3, analog-digital converter 4, image processor 5th, memory 6, image model selection component 7 and reflective mirror 8, sensor 3 successively with analog-digital converter 4, image processor 5 and Memory 6 is connected, and image model selection component 7 is connected respectively with sensor 3 and image processor 5.Reflective mirror is arranged on Position between preceding camera lens and rear mirror light.

Preceding camera lens 1 is used to assemble the reflection light of subject with rear lens 2.

CCD or CMOS can be used in sensor 3, for converting optical signal into analog electrical signal.

Analog-digital converter 4 is used to analog electrical signal being converted into digital signal.

Image processor 5 is for digital signal to be handled, to form image information.When modulus is set as front and rear mirror When head is taken pictures or imaged simultaneously, the signal that front and rear camera lens obtains can be carried out image integration by image processor.

Memory 6 is used to store image information or video information.

Image model selection component 7 is used to that the pattern of image processor 5 and sensor 3 to be selected and controlled.In addition, Camera lens is taken pictures before image model selection component is also an option that, the camera shooting of preceding camera lens, rear lens are taken pictures, rear lens image, front and rear mirror Head is taken pictures and is integrated simultaneously, front and rear camera lens is imaged and integrated simultaneously.

Reflective mirror 8 is the equilateral triangle structure stood upside down, and the light for preceding camera lens 1 and rear lens 2 to be penetrated carries out 90 ° Reflection, to be sent on sensor 3.

Image model selection component 7 is connected by motor 9 with reflective mirror 8, and control reflective mirror 8 laterally moves to preceding camera lens 1 and the centre position of rear lens 2, and make sensor 3 is longitudinally perpendicular to be arranged under the first inclined surface 81 and the second inclined surface 82 Side, at this point, the base angle 83 in reflective mirror 8 is corresponding with 3 center of sensor.By such design structure, mirror before can control Head realizes the effect that prospect is taken pictures and imaged, background is taken pictures with camera shooting with rear lens simultaneously.

As shown in fig. 6, the present embodiment includes preceding camera lens 1, rear lens 2, sensor 3, analog-digital converter 4, image processor 5th, memory 6, image model selection component 7 and reflective mirror 8, sensor 3 successively with analog-digital converter 4, image processor 5 and Memory 6 is connected, and image model selection component 7 is connected respectively with sensor 3 and image processor 5.Reflective mirror is arranged on Position between preceding camera lens and rear mirror light.

Preceding camera lens 1 is used to assemble the reflection light of subject with rear lens 2.

CCD or CMOS can be used in sensor 3, for converting optical signal into analog electrical signal.

Analog-digital converter 4 is used to analog electrical signal being converted into digital signal.

Image processor 5 is for digital signal to be handled, to form image information.When modulus is set as front and rear mirror When head is taken pictures or imaged simultaneously, the signal that front and rear camera lens obtains can be carried out image integration by image processor.

Memory 6 is used to store image information or video information.

Image model selection component 7 is used to that the pattern of image processor 5 and sensor 3 to be selected and controlled.In addition, Camera lens is taken pictures before image model selection component is also an option that, the camera shooting of preceding camera lens, rear lens are taken pictures, rear lens image, front and rear mirror Head is taken pictures and is integrated simultaneously, front and rear camera lens is imaged and integrated simultaneously.

Reflective mirror 8 is the equilateral triangle structure stood upside down, and the light for preceding camera lens 1 and rear lens 2 to be penetrated carries out 90 ° Reflection, to be sent on sensor 3.

Image model selection component 7 is connected by motor 9 with sensor 3, and control sensor 3 is into reflective mirror 8 first The downside movement of inclined surface 81, then stops when sensor 3 is vertically set on the downside of the first inclined surface 81 in reflective mirror 8.It is logical Such design structure is crossed, controllable preceding camera lens realizes the effect that prospect is taken pictures with camera shooting.

As shown in fig. 7, the present embodiment includes preceding camera lens 1, rear lens 2, sensor 3, analog-digital converter 4, image processor 5th, memory 6, image model selection component 7 and reflective mirror 8, sensor 3 successively with analog-digital converter 4, image processor 5 and Memory 6 is connected, and image model selection component 7 is connected respectively with sensor 3 and image processor 5.Reflective mirror is arranged on Position between preceding camera lens and rear mirror light.

Preceding camera lens 1 is used to assemble the reflection light of subject with rear lens 2.

CCD or CMOS can be used in sensor 3, for converting optical signal into analog electrical signal.

Analog-digital converter 4 is used to analog electrical signal being converted into digital signal.

Image processor 5 is for digital signal to be handled, to form image information.When modulus is set as front and rear mirror When head is taken pictures or imaged simultaneously, the signal that front and rear camera lens obtains can be carried out image integration by image processor.

Memory 6 is used to store image information or video information.

Image model selection component 7 is used to that the pattern of image processor 5 and sensor 3 to be selected and controlled.In addition, Camera lens is taken pictures before image model selection component is also an option that, the camera shooting of preceding camera lens, rear lens are taken pictures, rear lens image, front and rear mirror Head is taken pictures and is integrated simultaneously, front and rear camera lens is imaged and integrated simultaneously.

Reflective mirror 8 is the equilateral triangle structure stood upside down, and the light for preceding camera lens 1 and rear lens 2 to be penetrated carries out 90 ° Reflection, to be sent on sensor 3.

Image model selection component 7 is connected by motor 9 with sensor 3, and control sensor 3 is into reflective mirror 8 second The downside movement of inclined surface 81, then stops when sensor 3 is vertically set on the downside of the second inclined surface 81 in reflective mirror 8.It is logical Such design structure is crossed, controllable rear lens realize the effect that background is taken pictures with camera shooting.

As shown in figure 8, the present embodiment includes preceding camera lens 1, rear lens 2, sensor 3, analog-digital converter 4, image processor 5th, memory 6, image model selection component 7 and reflective mirror 8, sensor 3 successively with analog-digital converter 4, image processor 5 and Memory 6 is connected, and image model selection component 7 is connected respectively with sensor 3 and image processor 5.Reflective mirror is arranged on Position between preceding camera lens and rear mirror light.

Preceding camera lens 1 is used to assemble the reflection light of subject with rear lens 2.

CCD or CMOS can be used in sensor 3, for converting optical signal into analog electrical signal.

Analog-digital converter 4 is used to analog electrical signal being converted into digital signal.

Image processor 5 is for digital signal to be handled, to form image information.When modulus is set as front and rear mirror When head is taken pictures or imaged simultaneously, the signal that front and rear camera lens obtains can be carried out image integration by image processor.

Memory 6 is used to store image information or video information.

Image model selection component 7 is used to that the pattern of image processor 5 and sensor 3 to be selected and controlled.In addition, Camera lens is taken pictures before image model selection component is also an option that, the camera shooting of preceding camera lens, rear lens are taken pictures, rear lens image, front and rear mirror Head is taken pictures and is integrated simultaneously, front and rear camera lens is imaged and integrated simultaneously.

Reflective mirror 8 is the equilateral triangle structure stood upside down, and the light for preceding camera lens 1 and rear lens 2 to be penetrated carries out 90 ° Reflection, to be sent on sensor 3.

Image model selection component 7 is connected by motor 9 with sensor 3, and control sensor 3 is into reflective mirror 8 second The downside movement of inclined surface 81, then stops when sensor 3 is vertically set on the downside of the second inclined surface 81 in reflective mirror 8.It is logical Such design structure is crossed, controllable rear lens realize the effect that background is taken pictures with camera shooting.

Image model selection component 7 is connected by motor 9 with sensor 3, and control sensor 3 laterally moves to preceding camera lens 1 and the centre position of rear lens 2, and make sensor 3 is longitudinally perpendicular to be arranged under the first inclined surface 81 and the second inclined surface 82 Side, at this point, the base angle 83 in reflective mirror 8 is corresponding with 3 center of sensor.By such design structure, mirror before can control Head realizes the effect that prospect is taken pictures and imaged, background is taken pictures with camera shooting with rear lens simultaneously.

The foregoing is merely presently preferred embodiments of the present invention, is merely illustrative for invention, and not restrictive. Those skilled in the art understands, many changes can be carried out to it in the spirit and scope limited in invention claim, changes, It is even equivalent, but fall in protection scope of the present invention.

Claims (4)

1. a kind of novel two-way optional camera, which is characterized in that including preceding camera lens (1), rear lens (2), sensor (3), Analog-digital converter (4), image processor (5), memory (6) and image model selection component (7), the sensor (3) is successively It is connected with the analog-digital converter (4), described image processor (5) and the memory (6), described image model selection Component (7) is connected respectively with the sensor (3) and/or described image processor (5)；

The preceding camera lens (1) is assembled with reflection light of the rear lens (2) for subject；The sensor (3) for converting optical signal into analog electrical signal；

The analog-digital converter (4) by analog electrical signal for being converted into digital signal；Described image processor (5) will be for will count Word signal is handled, to form image information；

The memory (6) is for storing image information；

Described image model selection component (7) is for selecting described image processor (5) and the pattern of the sensor (3) It selects and controls；

The reflective mirror (8) in the light path being arranged between the preceding camera lens (1) and the rear lens (2) is further included, it is described reflective Mirror (8) is the equilateral triangle structure stood upside down, for the light that penetrates the preceding camera lens (1) and/or the rear lens (2) into 90 ° of reflections of row, to be sent on the sensor (3)；

Described image model selection component (7) is connected by motor (9) with the reflective mirror (8), to control the reflective mirror (8) to close to the preceding camera lens (1) position, to close to the rear lens (2) position or the preceding camera lens (1) with it is described Centered position moves between rear lens (2), inclines so that the sensor (3) is vertically set in the reflective mirror (8) first Inclined-plane (81) and/or the downside of the second inclined surface (82)；

Alternatively, described image model selection component (7) is mutually connected by motor (9) with the sensor (3), with described in control Sensor (3) to close to the position of the preceding camera lens (1), to close to the position of the rear lens (2) or the preceding camera lens (1) Centered position moves between the rear lens (2), so that the sensor (3) is vertically set in the reflective mirror (8) First inclined surface (81) and/or the downside of the second inclined surface (82).

2. novel two-way optional camera according to claim 1, which is characterized in that the sensor (3) is arranged on In light path between the preceding camera lens (1) and the rear lens (2), the sensor (3) is divided into sensor a (31) and sensor B (32), the sensor a (31) is corresponding with the preceding camera lens (1), and the sensor b (32) is opposite with the rear lens (2) It should；

The sensor a (31) and the sensor b (32) are selected respectively with the analog-digital converter (4) and described image pattern Component (7) is selected to be connected.

3. novel two-way optional camera according to claim 1, which is characterized in that the sensor (3) is divided into biography Sensor a (31) and sensor b (32), the sensor a (31) and the sensor b (32) respectively with the analog-digital converter (4) and described image model selection component (7) is connected；

The sensor a (31) is vertically disposed on the first inclined surface in the reflective mirror (8) with the sensor b (32) (81), the downside of the second inclined surface (82).

4. novel two-way optional camera according to claim 1, which is characterized in that when the sensor (3) is set At the downside of first inclined surface (81) and the second inclined surface (82), base angle (83) in the reflective mirror (8) with it is described Sensor (3) center is corresponding.