CN104883500A - Camera shooting device and control method thereof - Google Patents

Abstract

The invention discloses a camera shooting device and a control method thereof and relates to camera shooting field. The camera shooting device may solve a problem of a poor night shooting effect in the prior art and improves the night shooting effect while shooting under visible light is not influenced. The control method comprises: the camera shooting device generates a first control signaling if satisfying a first preset condition or generates a second control signaling if satisfying a second preset condition; the camera shooting device controls a first lens to be opened according to the first control signaling and controls a second lens to be opened according to the second control signaling, wherein the first control signaling is used for indicating the opening of the first lens, the second control signaling is used for indicating the opening of the second lens, and the first lens is an infrared lens. The control method is used for camera shooting.

Description

A kind of camera head and control method thereof

Technical field

The present invention relates to field of photography, particularly relate to a kind of camera head and control method thereof.

Background technology

Along with the development of science and technology, for meeting the demand of user, increasing electronic product all possesses camera function, such as: mobile phone, panel computer, digital camera etc., facilitate user to take.

But, when user needs when taking night, because light is too dark, cannot to find a view shooting, therefore, in prior art, equipment arranges photoflash lamp, to solve the problem that night, light too secretly cannot be found a view, but the range of exposures of photoflash lamp is extremely limited, generally be no more than 3 meters, and easily cause scenery overexposure nearby, and scenery is as dark as a stack of black cats at a distance, makes shooting at night weak effect.

Summary of the invention

Embodiments of the invention provide a kind of camera head and control method thereof, can solve the problem of shooting at night weak effect in prior art.

For achieving the above object, embodiments of the invention adopt following technical scheme:

First aspect, the embodiment of the present invention provides a kind of camera head, comprise: processor, the first camera lens, the first sensitive chip, the second camera lens and the second sensitive chip, described processor is connected with described first camera lens, described first sensitive chip, described second camera lens and described second sensitive chip respectively;

Wherein, described first camera lens is infrared lens, and described first camera lens is for making infrared ray enter and imaging on described first sensitive chip, and described first sensitive chip can respond to infrared imaging;

Described second camera lens, enter for making luminous ray and imaging on described second sensitive chip, described second sensitive chip can respond to luminous ray imaging;

Described processor, for generating the first control signal when meeting first and being pre-conditioned, or, the second control signal is generated when meeting second and being pre-conditioned, and control described first camera lens unlatching according to described first control signal, control described second camera lens according to described second control signal to open, described first control signal is used to indicate opens described first camera lens, and described second control signal is used to indicate opens described second camera lens.

Second aspect, the embodiment of the present invention provides the control method of camera head, is applied to camera head, comprising:

When meeting first and being pre-conditioned, described camera head generates the first control signal, or, when meeting second and being pre-conditioned, described camera head generates the second control signal, described first control signal is used to indicate unlatching first camera lens, described second control signal is used to indicate unlatching second camera lens, described first camera lens is infrared lens, enter for making infrared ray and imaging on the first sensitive chip, described first sensitive chip can respond to infrared imaging, described second camera lens is for making luminous ray enter and imaging on the second sensitive chip, described second sensitive chip can respond to luminous ray imaging,

Described camera head controls described first camera lens according to described first control signal and opens, and controls described second camera lens open according to described second control signal.

A kind of camera head that the embodiment of the present invention provides and control method thereof, when meeting first and being pre-conditioned, camera head generates the first control signal, or, when meeting second and being pre-conditioned, camera head generates the second control signal, and control the first camera lens unlatching according to the first control signal, control the second camera lens according to the second control signal to open, first control signal is used to indicate unlatching first camera lens, second control signal is used to indicate unlatching second camera lens, because, first camera lens is infrared lens, can be taken by induction infrared ray when night, visible ray was poor, solve the problem of shooting at night weak effect in prior art, can while not affecting and taking under luminous ray, improve shooting at night effect.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme of the embodiment of the present invention, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

A kind of camera device structure schematic diagram that Fig. 1 provides for the embodiment of the present invention;

One first camera lens that Fig. 2 provides for the embodiment of the present invention and infrarede emitting diode position view;

The control method schematic flow sheet of a kind of camera head that Fig. 3 provides for the embodiment of the present invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

The embodiment of the present invention provides a kind of camera head, and this camera head is the device with camera function, certainly further can also have camera function.Optionally, this camera head can be the electronic equipments such as mobile phone, panel computer, digital camera.With reference to shown in Fig. 1, this camera head 10 comprises processor 101, first camera lens 102, second camera lens 103, first sensitive chip 104 and the second sensitive chip 105, and this processor 101 is connected with the second sensitive chip 105 respectively at the first camera lens 102, second camera lens 103, first sensitive chip 104.

Wherein, the first camera lens 102 is infrared lens, and enter for making infrared ray and imaging on the first sensitive chip 104, the first sensitive chip 104 can respond to infrared imaging.

First camera lens 102 is except catching except luminous ray, also the sightless infrared ray of naked eyes can be caught, preferably, first camera lens 102 does not filter infrared ray, infrared ray can be made through eyeglass, first sensitive chip forms infrared image, this makes it possible to photograph at night send infrared ray or by the object of infrared radiation.

Second camera lens 103, enter for making luminous ray and imaging on the second sensitive chip 105, the second sensitive chip 105 can respond to luminous ray imaging.

Because the first camera lens 102 is infrared lens, more infrared ray can be sensed than common lens, so in the environment of normal brightness, the image quality formed by the first camera lens 102 is partially red partially warm, can affect shooting effect.In the normal situation of light, can be taken by the second camera lens 103, so neither affect normal photographing, can take at night again, and because the first camera lens is infrared lens, reasonable shooting effect can be had.

Processor 101, for generating the first control signal when meeting first and being pre-conditioned, or, the second control signal is generated when meeting second and being pre-conditioned, and control the first camera lens 102 according to the first control signal and open, control the second camera lens 103 according to the second control signal to open, the first control signal is used to indicate unlatching first camera lens 102, second control signal and is used to indicate unlatching second camera lens 103.

Optionally, user can control the first camera lens 102 voluntarily and whether the second camera lens 103 is opened, for touch-screen mobile phone, when user enters mobile phone shooting interface, can select whether to open the first camera lens 102 and the second camera lens 103 by contact action by setting options, when user selects unlatching the first camera lens 102, processor 101 generates the first control signal according to the contact action of user, when user selects unlatching the second camera lens 103, processor 101 generates the second control signal according to the contact action of user.Certainly, just illustrate herein, do not represent the present invention and be confined to this.

What deserves to be explained is, first camera lens 102 and the second camera lens 103 can be AF (AutoFocus, auto-focusing) camera lens or FF (Fixed Focus, focus) camera lens, first camera lens 102 and the second camera lens 103 can be opened simultaneously, now, the first camera lens and the second camera lens are found a view simultaneously, and accepted or rejected by the picture that processor calculating is caught two camera lenses, the process such as fusion.First camera lens and the second camera lens can adopt different focal, different visual angles, realize 2 Zoom Lens by the switching of finding a view of two camera lenses.It should be noted that, at such as mobile phone, on the electronic equipments such as panel computer, because device thickness is little, can not focus, can only Digital Zoom be realized, and image is just become large by Digital Zoom, and image definition can not be improved, the present invention can make these equipment that can not carry out optical zoom realize two Zoom Lens.Also the effects such as optical ranging (such as range of triangle), rapid focus can be carried out by two camera lenses.

Two camera lenses open simultaneously take time, in the environment of normal brightness, because the first camera lens 102 senses that more infrared ray causes image quality partially red, partially warm, can be regulated by the picture color, colour temperature etc. of the second camera lens 103 to the first camera lens 102, image quality effect can not be affected.In the environment of dark, at such as night, the first camera lens 102 and the second camera lens 103 are opened simultaneously and camera head 10 also can be made at the more light of unit interval IT, improve picture brightness, reduce image noise, improve image quality.

Optionally, in a kind of application scenarios,

Processor 101, also for when ambient brightness is less than or equal to first threshold, generates the first control signal; When ambient brightness is greater than first threshold, generate the second control signal, the brightness of ambient brightness environment residing for camera head.Like this, just environmentally brightness can automatically control the first camera lens 102 and whether the second camera lens 103 is opened, avoid the operation that user is loaded down with trivial details.

Or processor 101, also for when user performs the first operation, generates the first control signal; When user performs the second operation, generate the second control signal.Like this, user can control the first camera lens 102 and whether the second camera lens 103 is opened voluntarily as required.Preferably, camera head can be touch-screen mobile phone, and camera head can detect the contact action of user, when the first operation being detected, generates the first control signal, when the second operation being detected, generates the second control signal.Certainly, just illustrate, do not represent the present invention and be confined to this, user also can be controlled by physical button herein.

Optionally, in another kind of application scenarios,

Camera head also comprises at least one infrarede emitting diode 106.

Processor 101, also opens for controlling at least one infrarede emitting diode 106 or cuts out.

Further alternative, processor 101, also for when ambient brightness is less than or equal to Second Threshold, controls at least one infrarede emitting diode 106 and opens, and when ambient brightness is greater than Second Threshold, controls at least one infrarede emitting diode 106 and closes.

Optionally, this at least one infrarede emitting diode 106 can be distributed in the first camera lens 102 around, with reference to shown in Fig. 2, for mobile phone in Fig. 2, show several possible position relationship between at least one infrarede emitting diode 106 and first camera lens 102, certainly, Fig. 2 is exemplary signal, do not represent the present invention and be confined to this, preferably, distance between each infrarede emitting diode 106 and the first camera lens 102 can be 5 centimetres, infrarede emitting diode 106 can carry out infrared light filling when insufficient light to subject, it should be noted that, this infrarede emitting diode 106 can be controlled to open by user, also can by camera head 10 environmentally brightness automatically control open.Certainly, this camera head 10 also can comprise common light-emitting diode, carries out light filling when use the second camera lens 103.

Camera head also comprises optical pickocff 107, and optical pickocff 107 is connected with processor 101.

Optical pickocff 107, for testing environment brightness.

Processor 101, also for obtaining the ambient brightness that optical pickocff 107 detects.

, it should be noted that, the function of processor 101 can be realized by software program herein, if using the form of SFU software functional unit realize and as independently production marketing or use time, software program can be stored in a storage medium.Based on such understanding, the part of the part that technical scheme of the present invention contributes to prior art in essence in other words or this technical scheme can embody with the form of software product, this software product is stored in a storage medium, comprises all or part of step of some instructions in order to make an equipment perform method described in each embodiment of the present invention.And aforesaid storage medium comprises: USB flash disk, portable hard drive, read-only memory (ROM, Read-Only Memory), random access memory (RAM, Random AccessMemory), magnetic disc or CD etc. various can be program code stored medium.

The camera head that the embodiment of the present invention provides, comprise the first camera lens, second camera lens and processor, processor generates the first control signal when meeting first and being pre-conditioned, or, the second control signal is generated when meeting second and being pre-conditioned, and control the first camera lens unlatching according to the first control signal, control the second camera lens according to the second control signal to open, first control signal is used to indicate unlatching first camera lens, second control signal is used to indicate unlatching second camera lens, because, first camera lens is infrared lens, can be taken by induction infrared ray when night, visible ray was poor, solve the problem of shooting at night weak effect in prior art, can while not affecting and taking under luminous ray, improve shooting at night effect.

Based on the embodiment that above-mentioned Fig. 1 is corresponding, the embodiment of the present invention provides a kind of control method of camera head, is applied to the camera head described in embodiment corresponding to Fig. 1, with reference to shown in Fig. 3, comprises the following steps:

301, when meeting first and being pre-conditioned, camera head generates the first control signal, or camera head generates the second control signal when meeting second and being pre-conditioned.

First control signal is used to indicate unlatching first camera lens, second control signal is used to indicate unlatching second camera lens, first camera lens is infrared lens, enter for making infrared ray and imaging on the first sensitive chip, first sensitive chip can respond to infrared imaging, second camera lens is for making luminous ray enter and imaging on the second sensitive chip, and the second sensitive chip can respond to luminous ray imaging.

Preferably, when ambient brightness is less than or equal to first threshold, camera head generates the first control signal; When ambient brightness is greater than first threshold, camera head generates the second control signal.

Or optionally, user manual operation can control the first camera lens and whether the second camera lens is opened, and when user performs the first operation, camera head generates the first control signal; When user performs the second operation, camera head generates the second control signal.

302, camera head controls the first camera lens unlatching according to the first control signal, controls the second camera lens open according to the second control signal.

Optionally, camera head can also open or cut out at least one infrarede emitting diode, further alternative, and when ambient brightness is less than or equal to Second Threshold, at least one infrarede emitting diode opened by camera head; When ambient brightness is greater than Second Threshold, camera head cuts out at least one infrarede emitting diode.

In addition, optionally, camera head can also testing environment brightness.Generate the first control signal or the second control signal according to the ambient brightness detected, can also open according to the ambient brightness detected or close at least one infrarede emitting diode.

The camera head that the embodiment of the present invention provides, the first control signal is generated when meeting first and being pre-conditioned, or, the second control signal is generated when meeting second and being pre-conditioned, and control the first camera lens unlatching according to the first control signal, control the second camera lens according to the second control signal to open, first control signal is used to indicate unlatching first camera lens, second control signal is used to indicate unlatching second camera lens, because, first camera lens is infrared lens, can be taken by induction infrared ray when night, visible ray was poor, solve the problem of shooting at night weak effect in prior art, can while not affecting and taking under luminous ray, improve shooting at night effect.

In several embodiments that the application provides, should be understood that disclosed apparatus and method can realize by another way, device embodiment described above is only schematic.

Last it is noted that above embodiment is only in order to illustrate technical scheme of the present invention, be not intended to limit; Although with reference to previous embodiment to invention has been detailed description, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of various embodiments of the present invention technical scheme.

Claims (11)

1. a camera head, it is characterized in that, comprise: processor, the first camera lens, the second camera lens, the first sensitive chip and the second sensitive chip, described processor is connected with described first camera lens, described second camera lens, described first sensitive chip and described second sensitive chip respectively;

Wherein, described first camera lens is infrared lens, and enter for making infrared ray and imaging on described first sensitive chip, described first sensitive chip can respond to infrared imaging;

Described second camera lens, enter for making luminous ray and imaging on described second sensitive chip, described second sensitive chip can respond to luminous ray imaging;

Described processor, for generating the first control signal when meeting first and being pre-conditioned, or, the second control signal is generated when meeting second and being pre-conditioned, and control described first camera lens unlatching according to described first control signal, control described second camera lens according to described second control signal to open, described first control signal is used to indicate opens described first camera lens, and described second control signal is used to indicate opens described second camera lens.

2. device according to claim 1, is characterized in that,

Described processor, also for when ambient brightness is less than or equal to first threshold, generates described first control signal; When described ambient brightness is greater than described first threshold, generate described second control signal, the brightness of described ambient brightness environment residing for described camera head.

3. device according to claim 1, is characterized in that,

Described processor, also for when user performs the first operation, generates described first control signal; When user performs the second operation, generate described second control signal.

4. the device according to any one of claim 1-3, is characterized in that, described camera head also comprises at least one infrarede emitting diode;

Described processor, also opens for controlling at least one infrarede emitting diode described or cuts out.

5. device according to claim 4, is characterized in that,

Described processor, also for when ambient brightness is less than or equal to Second Threshold, controls at least one infrarede emitting diode described and opens, and when described ambient brightness is greater than described Second Threshold, controls at least one infrarede emitting diode described and closes.

6. device according to claim 1, is characterized in that, described camera head also comprises optical pickocff, and described optical pickocff is connected with described processor;

Described optical pickocff, for detecting described ambient brightness;

Described processor, also for obtaining the described ambient brightness that described optical pickocff detects.

7. a control method for camera head, is characterized in that, is applied to camera head, comprising:

When meeting first and being pre-conditioned, described camera head generates the first control signal, or, when meeting second and being pre-conditioned, described camera head generates the second control signal, described first control signal is used to indicate unlatching first camera lens, described second control signal is used to indicate unlatching second camera lens, described first camera lens is infrared lens, enter for making infrared ray and imaging on the first sensitive chip, described first sensitive chip can respond to infrared imaging, described second camera lens is for making luminous ray enter and imaging on the second sensitive chip, described second sensitive chip can respond to luminous ray imaging,

Described camera head controls described first camera lens according to described first control signal and opens, and controls described second camera lens open according to described second control signal.

8. method according to claim 7, is characterized in that, described when meet first pre-conditioned time described camera head generate the first control signal, or, when meet second pre-conditioned time described camera head generate the second control signal, comprising:

When ambient brightness is less than or equal to first threshold, described camera head generates described first control signal;

When described ambient brightness is greater than described first threshold, described camera head generates described second control signal.

9. method according to claim 7, is characterized in that, described when meet first pre-conditioned time described camera head generate the first control signal, or, when meet second pre-conditioned time described camera head generate the second control signal, comprising:

When user performs the first operation, described camera head generates described first control signal;

When user performs the second operation, described camera head generates described second control signal.

10. the method according to any one of claim 7-9, is characterized in that, described method also comprises:

Described camera head opens or cuts out at least one infrarede emitting diode.

11. methods according to claim 10, is characterized in that, described camera head opens or cuts out at least one infrarede emitting diode, comprising:

When ambient brightness is less than or equal to Second Threshold, at least one infrarede emitting diode described opened by described camera head;

When described ambient brightness is greater than described Second Threshold, described camera head cuts out at least one infrarede emitting diode described.