CN103297669A - Image acquisition method and device and electronic equipment - Google Patents

Abstract

The invention provides an image acquisition method and device and electronic equipment. The electronic equipment comprises an image acquisition unit, a display unit, a storage unit and a non-contact sensor. The method includes the steps of triggering the image acquisition unit to collect an image when a first operation command is received, and displaying the image in the display unit; obtaining a first input signal detected by the non-contact sensor; judging whether the first input signal meets a preset condition to obtain a first judgment result; when the first judgment result indicates that the first input signal meets the preset condition, storing the image collected by the image acquisition unit in the storage unit. According to the image acquisition method and device and the electric equipment, the problem that the electronic equipment shakes due to the fact that the electronic equipment is directly contacted in image storage is avoided, and quality of the image after storage is thereby improved.

Description

A kind of image-pickup method, device and electronic equipment

Technical field

The present invention relates to technical field of image processing, relate to a kind of image-pickup method, device and electronic equipment in particular.

Background technology

Along with multimedia technology and development of electronic technology, various image picking-up apparatus have appearred to adapt to user's multiple demand, for example, commonly used camera, video camera, and the electronic equipments such as mobile phone, panel computer, notebook with image camera function all can carry out IMAQ and be stored as picture.

Based on existing image picking-up apparatus, when the camera function of starting device carries out IMAQ, after the selected good scene that needs to gather, normally by pressing the shooting push button on the equipment of being arranged on, the image taking of the current preview of equipment also can be preserved.

But, because image acquisition process comes control appliance to carry out by the user, the user is in the process of touching shooting push button, may cause equipment phenomenons such as shake to occur, thereby make the image of the current collection of equipment change, causing the image of final storage is not the good scene of chosen in advance, perhaps makes image blurringly etc., therefore will influence the quality of image.

Summary of the invention

In view of this, the invention provides a kind of image-pickup method, device and electronic equipment, in order to solve the relatively poor technical problem of picture quality of gathering in the prior art.

For achieving the above object, the invention provides following technical scheme:

A kind of image-pickup method is applied in the electronic equipment, and described electronic equipment comprises image acquisition units, display unit, memory cell and noncontacting proximity sensor, and described method comprises:

When receiving first operational order, trigger described image acquisition units and gather image, and in described display unit, show described image;

Obtain detected first input signal of described noncontacting proximity sensor;

Judge that whether described first input signal satisfies predetermined condition, obtains first judged result;

When described first judged result shows that described first input signal satisfies described predetermined condition, the described image that the described image acquisition units of storage is gathered in described memory cell.

Preferably, described noncontacting proximity sensor has pickup area, and described first input signal is specially described noncontacting proximity sensor and detects operating body and enter described pickup area and trigger generation.

Preferably, describedly judge whether described first input signal satisfies predetermined condition and be specially:

Judge that whether described first input signal is that described operating body enters predetermined pickup area and triggers generation, wherein, described predetermined pickup area is contained in the described pickup area.

Preferably, describedly judge whether described first input signal satisfies predetermined condition and be specially:

Judge whether described first input signal is that described operating body enters predetermined pickup area, and stop to satisfy for first scheduled time and trigger generation that wherein, described predetermined pickup area is contained in the described pickup area.

Preferably, described first input signal is specially distance signal, judges then whether described first input signal satisfies predetermined condition specifically is whether the variation of judging described distance signal satisfies first rule change.

Preferably, described first input signal is specially light intensity signal, judges whether described first input signal satisfies predetermined condition specifically is whether the variation of judging described light intensity signal satisfies second rule change.

A kind of image collecting device is applied in the electronic equipment, and described electronic equipment comprises image acquisition units, display unit, memory cell and noncontacting proximity sensor, and described device comprises:

Trigger module when being used for receiving first operational order, triggering described image acquisition units and gathers image, and show described image at described display unit;

Acquisition module is used for obtaining detected first input signal of described noncontacting proximity sensor;

Judge module is used for judging whether described first input signal satisfies predetermined condition;

Acquisition module, be used for when described judge module result when being, in described memory cell, store the described image of described image acquisition units collection.

Preferably, described noncontacting proximity sensor has pickup area, and described first input signal is specially described noncontacting proximity sensor and detects operating body and enter described pickup area and trigger generation.

Preferably, described judge module is used for specifically judging that whether described first input signal is that described operating body enters and is scheduled to pickup area and triggers generation, and wherein, described predetermined pickup area is contained in the described pickup area.

Preferably, described judge module specifically is used for judging whether described first input signal is that described operating body enters predetermined pickup area, and stopped at least the first scheduled time and trigger generation, wherein, described predetermined pickup area is contained in the described pickup area.

Preferably, described first input signal is specially distance signal, and then described judge module is used for specifically judging whether the variation of described distance signal satisfies first rule change.

Preferably, described input signal is specially light intensity signal, and then described judge module is used for specifically judging whether described first input signal satisfies predetermined condition specifically is whether the variation of judging described light intensity signal satisfies second rule change.

A kind of electronic equipment comprises image acquisition units, display unit, memory cell, noncontacting proximity sensor and the processing unit that links to each other with described image acquisition units, display unit, memory cell and noncontacting proximity sensor respectively;

Described image acquisition units is used for gathering image;

Described display unit is used for the image that shows that described image acquisition units is gathered;

Described memory cell is used for memory image;

Described noncontacting proximity sensor is for detection of whether first input signal is arranged;

Described processing unit when being used for receiving first operational order, triggering described image acquisition units and gathers image, and described image is transferred to display unit shows; Obtain detected first input signal of described noncontacting proximity sensor; Judge that whether described first input signal satisfies predetermined condition, obtains first judged result; When described first judged result shows that described first input signal satisfies described predetermined condition, the described image that the described image acquisition units of storage is gathered in described memory cell.

Via above-mentioned technical scheme as can be known, compared with prior art, the invention provides a kind of image-pickup method, device and electronic equipment, described electronic equipment comprises image acquisition units, display unit, memory cell and noncontacting proximity sensor, when receiving first operational order, trigger described image acquisition units collection figure, and obtain first input signal that noncontacting proximity sensor detects, it is judged, after first input signal satisfies predetermined condition, can store the image of the current collection of described image acquisition units.By judging that noncontacting proximity sensor detects first input signal and determines whether to carry out the image taking storage, need not the user and directly touch shooting push button, thereby avoided the problem of equipment effect of jitter picture quality, improved the quality of the image that absorbs.

Description of drawings

In order to be illustrated more clearly in the embodiment of the invention or technical scheme of the prior art, to do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art below, apparently, accompanying drawing in describing below only is embodiments of the invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to the accompanying drawing that provides.

Fig. 1 is the flow chart of a kind of image-pickup method embodiment 1 of the present invention;

Fig. 2 is the flow chart of a kind of image-pickup method embodiment 2 of the present invention;

Fig. 3 is the flow chart of a kind of image-pickup method embodiment 3 of the present invention;

Fig. 4 is the structural representation of a kind of image collecting device embodiment 1 of the present invention;

Fig. 5 is the structural representation of a kind of electronic equipment embodiment 1 of the present invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the invention, the technical scheme in the embodiment of the invention is clearly and completely described, obviously, described embodiment only is the present invention's part embodiment, rather than whole embodiment.Based on the embodiment among the present invention, those of ordinary skills belong to the scope of protection of the invention not making the every other embodiment that obtains under the creative work prerequisite.

The embodiment of the invention discloses a kind of image-pickup method, device and electronic equipment, described electronic equipment comprises image acquisition units, display unit, memory cell and noncontacting proximity sensor, when receiving first operational order, trigger described image acquisition units collection figure, by obtaining first input signal that noncontacting proximity sensor detects, and it is judged, determine whether operating body has the intention of shooting, thereby need not operating body and directly touch shooting push button, can realize the shooting storage of image, thereby avoided the problem of equipment effect of jitter picture quality, improved the quality of the image that absorbs.

Referring to Fig. 1, show the flow chart of a kind of image-pickup method embodiment 1 of the present invention, described method specifically is applied in the electronic equipment, and described electronic equipment comprises image acquisition units, display unit, memory cell and noncontacting proximity sensor, and described method can comprise:

Step 101: when receiving first operational order, trigger described image acquisition units and gather image, and in described display unit, show described image.

Electronic equipment described in the present embodiment can refer to that mobile phone, notebook computer or panel computer etc. have the equipment of camera, and image acquisition units is used for gathering image, and imaging in display unit, so that the user carries out preview.

Respective keys or the switch of described first operational order in can user's operating electronic equipment generates, to start described image acquisition units.Image acquisition units can be gathered the image in forward view, and shows described image in display unit.

Step 102: obtain detected first input signal of described noncontacting proximity sensor.

Described noncontacting proximity sensor refers to that operating body directly is not in contact with it, and can detect the existence of operating body, when for example operating body is near noncontacting proximity sensor, can cause that namely its signal changes.

Noncontacting proximity sensor has pickup area, and described first input signal can be that described noncontacting proximity sensor detects operating body and enters described pickup area and trigger generation.But described pickup area namely is the detection range of described transducer, also is that transducer namely can generate first input signal after operating body entered this pickup area.

For example, described noncontacting proximity sensor can refer to proximity transducer, and is namely far and near for detection of the distance of operating body, when operating body enters the pickup area of proximity transducer, namely can generate first input signal, and along with the distance of sensor distance, signal magnitude can change also.

And for example, described noncontacting proximity sensor can refer to photoelectric sensor, namely can generate detection signal according to ambient light intensity after the startup, and first input signal can refer to detection signal.Also can be to enter pickup area at operating body, transducer be owing to the detection signal after being blocked by operating body.

Step 103: judge that whether described first input signal satisfies predetermined condition, obtains first judged result.

Describedly judge whether described first input signal satisfies predetermined condition multiple mode can be arranged.

A kind of possible mode: judge that whether described first input signal is that described operating body enters predetermined pickup area and triggers generation, wherein, described predetermined pickup area is contained in the described pickup area.

When transducer has detected operating body, namely can generate detection signal.In this case, because the pickup area of noncontacting proximity sensor may be very big, or unlimited (namely can generate detection signal after namely starting), the described predetermined pickup area part that can be described pickup area then, even when operating body enters this predetermined pickup area, just can produce first input signal.No matter be the signal that detection signal or first input signal are the generation of transducer, just signal magnitude is different under different condition.

Certainly described predetermined pickup area also can namely refer to described pickup area.

Another kind of possible mode is: judge whether described first input signal is that described operating body enters predetermined pickup area, and stop and satisfied for first scheduled time and trigger generation.

After operating body enters predetermined pickup area, trigger generating first input signal, under this situation, also need the decision operation body in predetermined pickup area, whether to stop and satisfied for first scheduled time, as, stopped at least 2 seconds, perhaps can not surpass 5 seconds, perhaps the time of staying is between 2 seconds～5 seconds etc.Operating body stops whether satisfied first scheduled time can be determined according to the variation of first input signal, for example in first scheduled time first input signal if do not change or the variable quantity of first input signal in allowed band, determine that then operating body still rests in the predetermined pickup area.

Whether the decision operation body enters predetermined pickup area can change to judge according to sensor signal, for example signal grow out of nothing, from becomeing greater to a certain numerical value for a short time or from being varied down to a certain numerical value etc. greatly.Also different according to the different sensors deterministic process, can introduce in detail among the embodiment below.

In actual applications, when utilizing electronic equipment to take pictures, operating body namely can refer to user or user finger.Therefore, close at operating body, and can generate first input signal when not contacting this noncontacting proximity sensor.

Step 104: when described first judged result shows that described first input signal satisfies described predetermined condition, the described image that the described image acquisition units of storage is gathered in described memory cell.

When first input signal satisfies predetermined condition, namely can in described memory cell, store the described image that described image acquisition units is gathered, that is to say image shoot process.

In the present embodiment, can determine whether to take the image of current collection by detected first input signal of noncontacting proximity sensor, therefore need not to touch electronic equipment and can realize the IMAQ shooting, the picture quality of having avoided direct touching electronic equipment to cause electronic equipment shake and influence to be gathered.

In actual applications, the user can operate the pickup area that thing enters noncontacting proximity sensor by finger or other, and need not contact pickup, can realize the collection of image according to first input signal that generates, avoided the shake of the electronic equipment that touching causes and make the image fault of gathering, fuzzy, the quality of image is gathered in influence.

Referring to Fig. 2, show the flow chart of a kind of image-pickup method embodiment 2 of invention, in the concrete applying electronic equipment of described method, described electronic equipment comprises image acquisition units, display unit, memory cell and noncontacting proximity sensor, and described method can comprise:

Step 201: when receiving first operational order, trigger described image acquisition units and gather image, and in described display unit, show described image.

Step 202:: obtain the detected distance signal of described noncontacting proximity sensor.

In the present embodiment, described noncontacting proximity sensor is for detection of distance signal.Described noncontacting proximity sensor can be proximity transducer, and it can detect in the noncontact mode.

Described distance signal can be that operating body enters to detect after the pickup area of noncontacting proximity sensor and generates.But also be noncontacting proximity sensor when detecting operation questions and enter its detection range, begin to generate distance signal.This distance signal can refer to signals such as electric current, voltage, resistance, infrared ray, according to the classification of the noncontacting proximity sensor of selecting for use and difference.

Step 203: whether the variation of judging described distance signal satisfies first rule change, if, then enter step 304, if not, then continue to detect to judge.

Step 204: the described image that the described image acquisition units of storage is gathered in described memory cell.

Be to satisfy first rule change by the variation of judging distance signal to determine that first input signal satisfies predetermined condition in the present embodiment.

The detected distance signal of noncontacting proximity sensor changes, and it can be owing to the distance of operating body near the distance of operating body varies in size.

Described first rule change is a kind of may situation to be: described distance signal is more than or equal to first threshold, that is to say whether the variation of narrating distance signal is satisfied first rule change and whether be specially the value judged after the described distance signal variation more than or equal to first threshold.

Because for the noncontacting proximity sensor that is used for measuring distance, operating body is more approaching, the distance signal of its generation can be more big.Therefore set first threshold accordingly, described first threshold namely is according to operating body during near the noncontacting proximity sensor preset distance, the detected signal value of transducer and definite.Described preset distance can be selected according to actual conditions, for example can be 1 centimetre, 2 centimetres etc.

In actual applications, be example with the handset starting camera function, when the user wants to store the image of gathering, approach the region that is arranged on the noncontacting proximity sensor in the mobile phone by pointing, this changes near the detected distance signal of noncontacting proximity sensor in the process, in the time of in finger enters a certain distance range, makes detected distance signal more than or equal to first threshold, can carry out automatic camera, with the image storage of gathering.

Another kind of possible situation is: described distance signal is more than or equal to described first threshold, after the very first time smaller or equal to described first threshold.

The variation of also namely judging described distance signal whether satisfy first rule change can be specially judge that described distance signal is more than or equal to first threshold after, and after changing through the very first time whether smaller or equal to described first threshold.。

That is to say and refer to that operating body is near the region of noncontacting proximity sensor, after arriving the region certain distance of a certain position apart from noncontacting proximity sensor, distance signal begins to be greater than or equal to described first threshold, and at the fixed time, operating body makes distance signal be less than or equal to described first threshold owing to the region away from noncontacting proximity sensor.This process has represented noncontacting proximity sensor and has namely detected distance signal and change from small to big earlier, more from large to small.

Specifically in actual applications, be example with the handset starting camera function still, this distance signal change procedure namely is because finger near the region of noncontacting proximity sensor, arrives not reaccees behind a certain position produces away from this noncontacting proximity sensor again.Also namely above the noncontacting proximity sensor region, finger is carried out an action of leaving after falling, but need not to contact mobile phone, and mobile phone namely can get off the image taking of current collection to store.The described very first time can specifically be set according to actual conditions.

Described first rule change can also refer to distance signal more than or equal to first threshold, and remains unchanged within a certain period of time.Certainly can also be other can judge the rule change that operating body is carried out take pictures intention or behavior.

Whether the judging distance signal satisfies first rule change is applied in the concrete environment, namely is whether the executable operations of operating body can produce the distance signal that satisfies first rule change.When satisfying first rule change, can determine the operating body intention of taking pictures, therefore need not the corresponding button of the direct contacting electronic equipments of operating body, can carry out the action of taking pictures, the image of gathering is stored, avoided the shake that direct contacting electronic equipments causes and influence picture quality.

Above-described embodiment 2 is that first input signal is that distance signal is that example is come the decision operation body intention of whether taking pictures, certain first input signal can also be other detection signal, for example owing to detecting the signal that air flows and produces, in practical application, can be that operating body moves quickly into the another location along a direction from a position above the noncontacting proximity sensor region, brandish as hand, and the air that causes flows.

The embodiment of the invention is whether to satisfy predetermined condition by the signal of judging the noncontacting proximity sensor detection to determine whether operating body has the intention of pickup image, by the noncontacting proximity sensor in the electronic equipment, need not to touch the related key of electronic equipment, can realize the IMAQ storage, guarantee the quality of image.

Referring to Fig. 3, show the flow chart of a kind of image-pickup method embodiment 2 of the present invention, in the concrete applying electronic equipment of described method, described electronic equipment comprises image acquisition units, display unit, memory cell and noncontacting proximity sensor, and described method can comprise:

Step 301: when receiving first operational order, trigger described image acquisition units and gather image, and in described display unit, show described image.

Step 302:: obtain the detected light intensity signal of described noncontacting proximity sensor.

In the present embodiment, described first input signal is specially light intensity signal, and described noncontacting proximity sensor can refer to photoelectric sensor.

Step 303: whether the variation of judging described light intensity signal satisfies second rule change, if, then enter step 304, if not, then continue to detect to judge.

Step 304: the described image that the described image acquisition units of storage is gathered in described memory cell.

Described second rule change is a kind of may situation to be: described light intensity signal is smaller or equal to second threshold value.

Whether the variation of also namely judging described light intensity signal satisfies second rule change specifically is to judge whether the value after the light intensity signal variation is less than or equal to second threshold value.

For photoelectric sensor, when light intensity was more strong, its light intensity signal was more big, and when light intensity was more weak, its light intensity signal was more little.

Light intensity signal change to be to cause a little less than making the luminous intensity that enters owing to described photoelectric sensor is blocked.Specifically being applied in fact, can be when wanting to store the image of gathering, to block this photoelectric sensor by operating body, and photoelectric sensor has certain pickup area, therefore need not to contact photoelectric sensor, and transducer namely can detect signal and change.If the signal that changes, namely can be carried out the step of the image that storage gathers smaller or equal to second threshold value.

This second threshold value can wait according to the photosensitivity of actual conditions and transducer to determine.

The another kind of situation of described second rule change may for: light intensity signal smaller or equal to described second threshold value, after second time more than or equal to described second threshold value etc.

Whether the variation of also namely judging described light intensity signal satisfies second rule change specifically is after judging that described light intensity signal is more than or equal to first threshold, and after changing through second time whether smaller or equal to described first threshold.

Specifically be applied in the reality, that is to say that operating body blocks described photoelectric sensor earlier, the light intensity signal that makes photoelectric sensor detect reduces, and then leaves occlusion area, makes light intensity signal become big again.After photoelectric sensor detects this variation, namely can store the image of gathering.

Certainly described second rule change is not limited to above-mentioned two kinds of situations.

Among above-described embodiment 2 and the embodiment 3, all be to determine whether to absorb the image that storage is gathered by the variation that detects first input signal.No matter operating body is carried out near operation still blocks operation, all need not contacting electronic equipments, thereby has avoided the shake of electronic equipment in the memory image process, has improved the picture quality of gathering.

Referring to Fig. 4, show the structural representation of a kind of image collecting device embodiment 1 of the present invention, in the concrete applying electronic equipment of described device, this electronic equipment comprises image acquisition units, display unit, memory cell and noncontacting proximity sensor, and described device can comprise:

Trigger module 401 when being used for receiving first operational order, triggering described image acquisition units and gathers image, and show described image at described display unit.

Acquisition module 402 is used for obtaining detected first input signal of described noncontacting proximity sensor.

Noncontacting proximity sensor has pickup area, and described first input signal is specially described noncontacting proximity sensor and detects operating body and enter described pickup area and trigger generation.

Judge module 403 is used for judging whether described first input signal satisfies predetermined condition.

Wherein, as another embodiment, described judge module is used for specifically judging that whether described first input signal is that described operating body enters and is scheduled to pickup area and triggers generation, and wherein, described predetermined pickup area is contained in the described pickup area.

As another embodiment, described judge module specifically is used for judging whether described first input signal is that described operating body enters predetermined pickup area, and stopped at least the first scheduled time and trigger generation, wherein, described predetermined pickup area is contained in the described pickup area.

When described first input signal was distance signal, described judge module can be used for specifically judging whether the variation of described distance signal satisfies first rule change.

Wherein, described first rule change can refer to described distance signal more than or equal to first threshold, and namely described judge module can be specifically be used for judging that whether value after the described distance signal variation is more than or equal to first threshold.

Perhaps described first rule change is that described distance signal is more than or equal to first threshold, at the fixed time afterwards smaller or equal to described first threshold.Be after described judge module can be specifically be used for judging that described distance signal is more than or equal to first threshold, and after changing through the very first time whether smaller or equal to described first threshold.。

When described first input signal was light intensity signal, described judge module was used for specifically judging whether the variation of described light intensity signal satisfies second rule change.

Wherein, described second rule change can refer to described light intensity signal smaller or equal to second threshold value, and therefore described judge module can be used for specifically judging whether the value after light intensity signal changes is less than or equal to second threshold value.

Perhaps described second rule change can refer to light intensity signal smaller or equal to described second threshold value, after second time more than or equal to described second threshold value etc.Therefore after described judge module can be used for specifically judging that described light intensity signal is more than or equal to first threshold, and after changing through second time whether smaller or equal to described first threshold.

Acquisition module 404, be used for when described judge module result when being, in described memory cell, store the described image of described image acquisition units collection.

In the present embodiment, by obtaining detected first input signal of noncontacting proximity sensor, when satisfying predetermined condition, stores described first input signal image of gathering, described first input signal can be that the not direct contacting electronic equipments of operating body can generate, therefore need not to touch electronic equipment and can realize the IMAQ storage, avoided the electronic equipment shake and picture quality that influence is gathered.

Referring to Fig. 5, the present invention also provides the structural representation of a kind of electronic equipment embodiment 1, and described electronic equipment can comprise image acquisition units 501, display unit 502, memory cell 503, noncontacting proximity sensor 504 and the processing unit 505 that links to each other with described picture collecting unit 501, display unit 502, memory cell 503 and noncontacting proximity sensor 504 respectively.

Described image acquisition units 501 is used for gathering image.

Described display unit 502 is used for the image that shows that described image acquisition units 501 is gathered.

Described memory cell 503 is used for the image that the described image acquisition units 501 of storage is gathered.

Described noncontacting proximity sensor 504 is for detection of whether first input signal is arranged.

Described noncontacting proximity sensor can refer to proximity transducer, and described first input signal is distance signal.Described proximity transducer can be selected for use dissimilar, for example transducers such as condenser type, inductance type, ultrasonic type.

Described noncontacting proximity sensor can also refer to photoelectric sensor, and described first input signal is light intensity signal.

Described processing unit 505 when being used for receiving first operational order, triggering described image acquisition units 501 and gathers images, and described image is transferred to display unit 502 shows; Obtain described noncontacting proximity sensor 504 detected first input signals; Judge that whether described first input signal satisfies predetermined condition, obtains first judged result; When described first judged result shows that described first input signal satisfies described predetermined condition, the described image that the described image acquisition units 501 of storage is gathered in described memory cell 503.

In actual applications, described image acquisition units can be that the camera of electronic equipment, display, the memory cell that display unit is electronic equipment are the memory of electronic equipment, and described processing unit is the processor in the electronic equipment.

Can improve the quality of image taking by the described electronic equipment of present embodiment, avoid owing to electronic equipment shake in the shooting process influences the problem of picture quality.

Each embodiment adopts the mode of going forward one by one to describe in this specification, and what each embodiment stressed is and the difference of other embodiment that identical similar part is mutually referring to getting final product between each embodiment.For the disclosed device of embodiment, because it is corresponding with the embodiment disclosed method, so description is fairly simple, relevant part partly illustrates referring to method and gets final product.

To the above-mentioned explanation of the disclosed embodiments, make this area professional and technical personnel can realize or use the present invention.Multiple modification to these embodiment will be apparent concerning those skilled in the art, and defined General Principle can realize under the situation that does not break away from the spirit or scope of the present invention in other embodiments herein.Therefore, the present invention will can not be restricted to these embodiment shown in this article, but will meet the wideest scope consistent with principle disclosed herein and features of novelty.

Claims (13)

1. an image-pickup method is characterized in that, is applied in the electronic equipment, and described electronic equipment comprises image acquisition units, display unit, memory cell and noncontacting proximity sensor, and described method comprises:

When receiving first operational order, trigger described image acquisition units and gather image, and in described display unit, show described image;

Obtain detected first input signal of described noncontacting proximity sensor;

Judge that whether described first input signal satisfies predetermined condition, obtains first judged result;

When described first judged result shows that described first input signal satisfies described predetermined condition, the described image that the described image acquisition units of storage is gathered in described memory cell.

2. method according to claim 1 is characterized in that, described noncontacting proximity sensor has pickup area, and described first input signal is specially described noncontacting proximity sensor and detects operating body and enter described pickup area and trigger generation.

3. method according to claim 2 is characterized in that, describedly judges whether described first input signal satisfies predetermined condition and be specially:

Judge that whether described first input signal is that described operating body enters predetermined pickup area and triggers generation, wherein, described predetermined pickup area is contained in the described pickup area.

4. method according to claim 2 is characterized in that, describedly judges whether described first input signal satisfies predetermined condition and be specially:

Judge whether described first input signal is that described operating body enters predetermined pickup area, and stop to satisfy for first scheduled time and trigger generation that wherein, described predetermined pickup area is contained in the described pickup area.

5. method according to claim 1 is characterized in that, described first input signal is specially distance signal, judges then whether described first input signal satisfies predetermined condition specifically is whether the variation of judging described distance signal satisfies first rule change.

6. method according to claim 1 is characterized in that, described first input signal is specially light intensity signal, judges whether described first input signal satisfies predetermined condition specifically is whether the variation of judging described light intensity signal satisfies second rule change.

7. an image collecting device is characterized in that, is applied in the electronic equipment, and described electronic equipment comprises image acquisition units, display unit, memory cell and noncontacting proximity sensor, and described device comprises:

Trigger module when being used for receiving first operational order, triggering described image acquisition units and gathers image, and show described image at described display unit;

Acquisition module is used for obtaining detected first input signal of described noncontacting proximity sensor;

Judge module is used for judging whether described first input signal satisfies predetermined condition;

Acquisition module, be used for when described judge module result when being, in described memory cell, store the described image of described image acquisition units collection.

8. device according to claim 7 is characterized in that, described noncontacting proximity sensor has pickup area, and described first input signal is specially described noncontacting proximity sensor and detects operating body and enter described pickup area and trigger generation.

9. device according to claim 8, it is characterized in that, described judge module is used for specifically judging that whether described first input signal is that described operating body enters and is scheduled to pickup area and triggers generation, and wherein, described predetermined pickup area is contained in the described pickup area.

10. device according to claim 8, it is characterized in that, described judge module specifically is used for judging whether described first input signal is that described operating body enters predetermined pickup area, and stopped at least the first scheduled time and trigger generation, wherein, described predetermined pickup area is contained in the described pickup area.

11. device according to claim 7 is characterized in that, described first input signal is specially distance signal, and then described judge module is used for specifically judging whether the variation of described distance signal satisfies first rule change.

12. device according to claim 7, it is characterized in that, described input signal is specially light intensity signal, and then described judge module is used for specifically judging whether described first input signal satisfies predetermined condition specifically is whether the variation of judging described light intensity signal satisfies second rule change.

13. an electronic equipment is characterized in that, comprises image acquisition units, display unit, memory cell, noncontacting proximity sensor and the processing unit that links to each other with described image acquisition units, display unit, memory cell and noncontacting proximity sensor respectively;

Described image acquisition units is used for gathering image;

Described display unit is used for the image that shows that described image acquisition units is gathered;

Described memory cell is used for memory image;

Described noncontacting proximity sensor is for detection of whether first input signal is arranged;

Described processing unit when being used for receiving first operational order, triggering described image acquisition units and gathers image, and described image is transferred to display unit shows; Obtain detected first input signal of described noncontacting proximity sensor; Judge that whether described first input signal satisfies predetermined condition, obtains first judged result; When described first judged result shows that described first input signal satisfies described predetermined condition, the described image that the described image acquisition units of storage is gathered in described memory cell.

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