WO2017197706A1

WO2017197706A1 - Touch photographing device and photographing method, and mobile terminal

Info

Publication number: WO2017197706A1
Application number: PCT/CN2016/086929
Authority: WO
Inventors: 张晓亮; 刘辉; 冯磊; 孙卫山
Original assignee: 中兴通讯股份有限公司
Priority date: 2016-05-17
Filing date: 2016-06-23
Publication date: 2017-11-23
Also published as: CN107395951A

Abstract

A touch photographing device and photographing method, and a mobile terminal. The device comprises: a pressure acquisition module and a pressure determination module configured to obtain a pressure determination result of a pressure borne by a screen of a terminal; a touch data acquisition module and a touch data determination module configured to obtain a touch time determination result of the surface of the screen; a photographing module configured to take, according to the pressure determination result and the touch time determination result, a single photograph or multiple continuous photographs and store the single photograph or the multiple continuous photographs; a dynamic picture generating module configured to generate, according to the pressure determination result and the touch time determination result, dynamic pictures from the multiple continuous photographs taken and store the dynamic pictures.

Description

Touch photographing device, photographing method and mobile terminal

Technical field

This application relates to, but is not limited to, the field of communication technology.

Background technique

In the related art mobile terminal product, when taking a normal photo, it is necessary to enter the normal photo shooting mode, and if a dynamic photo is to be taken, it is necessary to exit the normal photo shooting mode and enter the dynamic photo shooting mode.

When the scheme in the related art switches between the normal photo shooting mode and the dynamic photo shooting mode, the switching process is not too smooth, and the switching mode is not smart, thereby causing the user experience to be not particularly good.

Therefore, a technical solution is needed, and when taking a photo, it is possible to switch between the normal photo shooting mode and the dynamic photo shooting mode at any time, so as to improve the intelligence of the shooting switching mode, thereby improving the user experience.

Summary of the invention

The following is an overview of the topics detailed in this document. This Summary is not intended to limit the scope of the claims.

The invention provides a touch photographing device, a photographing method and a mobile terminal, so as to solve the technical problem that the common photo shooting and dynamic photo shooting switching in the related art are not intelligent enough.

A touch photographing device comprises: a pressure collecting module, a pressure judging module, a touch data collecting module, a touch data judging module, a photographing module and a dynamic picture generating module;

The pressure collecting module is configured to: collect a pressure value received by the terminal screen;

The pressure judging module is configured to: compare the pressure value collected by the pressure collecting module with a preset plurality of different pressure intervals, and obtain a pressure judgment result that the pressure value falls within the pressure interval;

The touch data collection module is configured to: collect touch operation data of a screen surface;

The touch data judging module is configured to: compare the touch operation data collected by the touch data collection module with a preset plurality of different time intervals, and obtain a touch time of the touch operation data falling into a time interval. critical result;

The photographing module is configured to: take a single photo or take a plurality of consecutive photos according to the pressure determination result obtained by the pressure determination module and the touch time determination result obtained by the touch data acquisition module, and store Photo taken;

The dynamic picture generating module is configured to: according to the pressure determination result obtained by the pressure determination module and the touch time determination result obtained by the touch data collection module, the continuous shooting of the camera module The photo generates a dynamic picture and stores the dynamic picture.

Optionally, the predetermined plurality of different pressure interval division manners are: taking k1 and k2 as pressure limits, and dividing the pressure interval into the following three segments, (0, k1), [k1, k2], (k2) , +∞).

Optionally, the k1 is 50 grams of pressure and the k2 is 500 grams of pressure, wherein the 50 grams of pressure is a pressure of 50 grams of weight pressed against the surface of the terminal screen.

Optionally, the preset multiple different time interval division manners are: taking t1 as a time limit, and dividing the time interval into two segments, (0, t1), [t1, +∞).

Optionally, the t1 is 0.5 seconds.

Optionally, the touch time determination result obtained by the touch data determination module is located in a time interval (0, t1), and the pressure determination result obtained by the pressure determination module is located in a pressure interval (0, k1) While inside, the camera module takes a single photo and stores the single photo taken.

Optionally, the touch time determination result obtained by the touch data determination module is located in a time interval [t1, +∞), and the pressure determination result obtained by the pressure determination module is located in a pressure interval (0, k1) The camera module captures a plurality of consecutive photos and stores a plurality of consecutive photos taken.

Optionally, the touch time determination result obtained by the touch data determination module is located in a time interval [t1, +∞), and the pressure determination result obtained by the pressure determination module is located in a pressure interval [k1, k2 The photographing module captures a plurality of consecutive photographs and stores the plurality of consecutive photographs, and the dynamic image generating module generates a dynamic image by successively taking a plurality of photographs taken by the photographing module. The dynamic picture is stored.

A touch photographing method, comprising:

Collecting the pressure value of the terminal screen;

Comparing the pressure value with a preset plurality of different pressure intervals to obtain a pressure judgment result that the pressure value falls within the pressure interval;

Collecting touch operation data of the screen surface;

Comparing the touch operation data with a preset plurality of different time intervals to obtain a touch time determination result that the touch operation data falls within a time interval;

Taking a single photo or taking a plurality of consecutive photos according to the pressure determination result and the touch time determination result, and storing the taken photo;

And generating the dynamic picture and storing the dynamic picture according to the pressure determination result and the touch time determination result.

Optionally, the k1 is 50 grams of pressure and the k2 is 500 grams of pressure, wherein the 50 grams of pressure is a pressure of 50 grams of weight on the surface of the terminal screen.

Optionally, the t1 is 0.5 seconds.

Optionally, when the touch time determination result is located in the time interval (0, t1), and the pressure determination result is located in the pressure interval (0, k1), taking a single photo and storing the taken single photo .

Optionally, when the touch time determination result is located in the time interval [t1, +∞), and the pressure determination result is located in the pressure interval (0, k1), the continuous multiple photos are taken and the captured continuous images are stored. Multiple photos.

Optionally, when the touch time determination result is located in the time interval [t1, +∞), and the pressure determination result is located in the pressure interval [k1, k2], shooting a plurality of consecutive photos and storing the continuous multiple Taking a picture and generating a dynamic picture for the consecutive plurality of pictures taken and storing the dynamic picture.

A mobile terminal, comprising: a picture playing module, and the touch photographing device according to any one of the above;

The picture playing module is configured to: display a single photo, a plurality of consecutive photos, and a dynamic picture stored in the touch photo device.

Optionally, the picture playing module is further configured to: play the consecutive multiple photos to form a dynamic display effect.

Optionally, the mobile terminal further includes:

The display module is configured to: display a photo or a dynamic picture played by the picture playing module.

The touch photographing device, the photographing method and the mobile terminal provided by the embodiment of the invention obtain the pressure judgment result of the pressure of the terminal screen through the pressure collecting module and the pressure judging module, and obtain the touch time of the screen surface through the touch data collecting module and the touch data judging module. Judging the result, the photographing module can take a single photo or take a plurality of consecutive photographs and store the photographed photograph according to the pressure judgment result and the touch time judgment result, and the dynamic image generation module can further determine the result and the touch time according to the above pressure. The result of the determination generates a dynamic picture and stores the consecutive multiple photos taken; the embodiment of the invention realizes the automatic switching of the shooting mode by the obtained pressure judgment result and the touch time judgment result, and solves the common photo shooting and dynamic photos in the related art. The technical problem of switching the switching is not smart enough to realize the intelligent switching of the photographing mode to enhance the user experience.

Other aspects will be apparent upon reading and understanding the drawings and detailed description.

BRIEF abstract

FIG. 1 is a schematic structural diagram of a touch photographing apparatus according to an embodiment of the present invention;

2 is a schematic structural diagram of a mobile terminal according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a plurality of photos taken by a picture playing module continuously calling a touch photographing device in a mobile terminal according to an embodiment of the present invention; FIG.

FIG. 4 is a flowchart of a method for taking a touch according to an embodiment of the present invention.

Embodiments of the invention

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. It should be noted that, in the case of no conflict, the features in the embodiments and the embodiments herein may be arbitrarily combined with each other.

The steps illustrated in the flowchart of the figures may be executed in a computer system in accordance with a set of computer executable instructions. Also, although logical sequences are shown in the flowcharts, in some cases the steps shown or described may be performed in a different order than the ones described herein.

Dynamic photos are very popular in social software, and users also have the need to take dynamic photos. If you can quickly take out dynamic photos when taking photos, it will enhance the user experience of mobile terminals, such as smart phones, tablets, etc. .

With the use of a pressure module on a new generation of mobile terminals, more and more applications can be judged by the screen in the mobile terminal, and different operational effects can be achieved without applying pressure and pressure to the screen.

The embodiment of the present invention provides a touch photographing device, as shown in FIG. 1 , which is a structure of a touch photographing device according to an embodiment of the present invention, in accordance with the requirements of the related art and the application of the pressure module on the mobile terminal. schematic diagram. The touch photographing device provided in this embodiment includes: a pressure collecting module 1, a pressure judging module 2, a touch data collecting module 3, a touch data judging module 4, a photographing module 5, and a dynamic image generating module 6.

The pressure collecting module 1 is configured to: collect the pressure value received by the terminal screen;

The pressure judging module 2 is configured to: compare the pressure value collected by the pressure collecting module 1 with a preset plurality of different pressure intervals, and obtain a pressure judging result that the pressure value falls within the pressure interval;

The touch data acquisition module 3 is configured to: collect touch operation data of the screen surface;

The touch data judging module 4 is configured to: compare the touch operation data collected by the touch data acquisition module 3 with a preset plurality of different time intervals, to obtain a touch time determination result that the touch operation data falls within a time interval;

The photographing module 5 is configured to: take a single photo or take a plurality of consecutive photographs according to the pressure judgment result obtained by the pressure judging module 2 and the touch time judgment result obtained by the touch data acquisition module 4, and store the photographed photograph;

The dynamic picture generating module 6 is configured to: determine the pressure judgment result obtained by the pressure determining module 2 And the touch time judgment result obtained by the touch data acquisition module 4, the continuous plurality of photos taken by the photographing module 5 generate a dynamic picture and store the dynamic picture.

Optionally, the camera module 5 in the embodiment of the present invention includes, for example, a lens, an image sensor, an analog-to-digital converter, a microprocessor, and a storage unit; wherein the lens, the image sensor, the analog-to-digital converter, the microprocessor, and the storage unit Connect in order. Moreover, a single photo taken by the photographing module 5 or a plurality of consecutive photographs taken, and a dynamic photograph generated by the dynamic image generating module 6 are all stored in the storage unit.

The touch photographing device provided by the embodiment obtains the pressure judgment result of the pressure of the terminal screen through the pressure collecting module and the pressure judging module, and obtains the touch time judgment result of the screen surface by the touch data collecting module and the touch data judging module, so that the photographing module can According to the above-mentioned pressure determination result and the touch time determination result, a single photo is taken or a plurality of consecutive photos are taken and the captured photo is stored, and the dynamic picture generation module can further record the continuous shooting according to the pressure determination result and the touch time determination result. The plurality of photos generate a dynamic picture and store it; the embodiment automatically realizes the automatic switching of the photographing mode by the obtained pressure judgment result and the touch time judgment result, and solves the technical problem that the common photo shooting and the dynamic photo shooting switching are not intelligent enough in the related art. Thereby, intelligent switching of the photographing mode is realized to enhance the user experience.

Optionally, in an embodiment of the present invention, the plurality of different pressure interval division manners preset in the pressure determination module 2 is, for example, taking k1 and k2 as pressure limits, and dividing the pressure interval into the following three segments, ( 0, k1), [k1, k2], (k2, +∞). Wherein k1 is 50 g (g) pressure, k2 is 500 g pressure, and 50 g pressure is a pressure of 50 g weight on the surface of the terminal screen. The judgment form of the pressure judging module 2 is, for example, a pressure value of 50 g or less judged as a pressure value at which the user performs a normal touch operation, and a pressure between 50 g and 500 g is judged as a pressure interval in which the pressure participates in the switching application, when the pressure of the user's finger on the touch screen When sliding in the pressure interval, the application calling module of the terminal is activated, and the pressure of 500 g or more is judged to be a non-safe pressure state. When the pressure value is within the pressure interval, the terminal issues a pressure exceeding alarm, and the alarm includes motor vibration and display. The screen color changes, the speaker makes a sound, and so on.

Optionally, in an embodiment of the present invention, the multiple different time interval division manners preset in the touch data collection module 3 are, for example, taking t1 as a time limit, and dividing the time interval into the following two segments, (0) , t1), [t1, +∞). Where t1 can be 0.5 seconds.

In practical applications, the touch data acquisition module 3 can collect finger operation data on the screen surface. The click data and the long data information are generated; the touch data collection module 3 can also collect the finger click and press data of the display camera button area, so that the touch data judgment module 4 determines the user's photographing intention. For example, when the touch time determination result of the touch data judging module 4 is less than 0.5 seconds, and the pressure judgment result of the pressure judging module 2 is less than 50 g, the terminal considers that the user's operation on the screen is click touch operation data.

Optionally, in an application scenario of the embodiment of the present invention, the touch time determination result obtained by the touch data determining module 4 is located in the time interval (0, t1), that is, the touch duration is less than 0.5 seconds, and the pressure determining module 2 When the obtained pressure judgment result is within the pressure section (0, k1), that is, the pressure value does not reach 50 g, the photographing module 5 takes a single photograph and stores the photographed single photograph.

Optionally, in another application scenario of the embodiment of the present invention, the touch time determination result obtained by the touch data determining module 4 is located in the time interval [t1, +∞), that is, the touch time exceeds 0.5 seconds, and the pressure judgment module 2 When the obtained pressure judgment result is located in the pressure section (0, k1), that is, the pressure value does not reach 50 g, the photographing module 5 takes a plurality of consecutive photographs and stores the successive photographs taken.

Optionally, in another application scenario of the present invention, the touch time judgment result obtained by the touch data judging module 4 is located in the time interval [t1, +∞), that is, the touch time exceeds 0.5 seconds, and the pressure judging module 2 When the obtained pressure judgment result is located in the pressure interval [k1, k2], that is, the pressure value is between 50g and 500g, the photographing module 5 takes a plurality of consecutive photographs and stores a plurality of consecutive photographs, and the dynamic picture generating module 6 takes the photograph. A plurality of consecutive photos taken by module 5 generate a dynamic picture and store the dynamic picture.

The above embodiment of the present invention introduces a pressure collecting module, a pressure judging module, a touch data collecting module, and a touch data judging module, so that the photographing module can automatically switch the photographing mode according to the pressure judgment result and the touch time judgment result, when the pressure is judged. The result is in different preset pressure intervals, and the touch time judgment result is in different preset time intervals, and the terminal can automatically switch to different photographing modes, thereby realizing intelligent switching of the photographing mode to improve the user experience.

The present invention further provides a mobile terminal, as shown in FIG. 2, which is a schematic structural diagram of a mobile terminal according to an embodiment of the present invention. The mobile terminal in this embodiment includes a picture playing module 21, a display module 22, the touch photographing device 23 described in any of the above embodiments, and a central processing unit 24 conventionally disposed in the mobile terminal.

The picture playing module 21 is configured to: call the photo data of the storage area of the touch photographing device 23, This indicates that a single photo, a plurality of consecutive photos, and a dynamic picture stored by the touch photographing device 23 are called. When the user's finger presses the screen of the mobile terminal within a range of consecutive plurality of photo regions, the pressure value reaches a set threshold interval, and when the pressure ranges from 50 grams to 500 grams, the picture playing device 21 continuously calls the photo of the touch photographing device 23. The module 5 takes a continuous number of photos to form a dynamic display effect. The central processing unit 24 is arranged to transmit the display content data to the display module 22, the display module 22 being arranged to display the data on the display screen of the mobile terminal.

As shown in FIG. 3, in a mobile terminal provided by the embodiment of the present invention, a picture playing module continuously invokes a schematic diagram of multiple photos taken by a touch photographing device, and the implementation manner of forming a dynamic display effect may be as follows:

In the preview state, the first photo 302 of the continuous group photo of the storage area of the touch photographing device 23 is called by the picture playing module 21 to be displayed on the display screen 301 of the mobile terminal, when the user's finger presses the screen in consecutive multiple photo areas. When the pressure value reaches the set threshold interval, for example, when the pressure reaches a pressure range of 50 gram to 500 gram, the picture playing module 21 continuously calls the camera module 5 of the touch camera device 23 to take multiple photos of the heat, in practical application. In the middle, the first sub-photo 302, the second sub-photo 303, and the third sub-photo 304 may be continuously called at a certain time interval to form a dynamic display effect.

The mobile terminal provided by the present invention realizes automatic switching between ordinary photos and continuous multiple photo shooting and dynamic image generation through the set touch photographing device 23, and realizes the acquisition of ordinary photos, consecutive multiple photos and dynamic pictures, and combined with picture playing. Module 21 implements dynamic display of pictures. Thereby, intelligent switching of the photographing mode is realized to enhance the user experience.

FIG. 4 is a flowchart of a method for taking a touch according to an embodiment of the present invention. The touch photographing method provided in this embodiment may be performed by the touch photographing apparatus in any of the above embodiments, and the method includes the following steps, namely, S1 to S6:

S1, collecting the pressure value of the screen of the terminal;

S2, comparing the pressure value with a preset plurality of different pressure intervals, and obtaining a pressure determination result that the pressure value falls within the pressure interval;

S3. Collect touch operation data on the surface of the screen;

S4. Comparing the touch operation data with a preset plurality of different time intervals to obtain the The touch time judgment result in which the touch operation data falls within the time interval;

S5. Taking a single photo or a plurality of consecutive photos according to the pressure judgment result and the touch time judgment result, and storing the taken photo;

S6. Generate a dynamic picture and store the dynamic picture according to the pressure determination result and the touch time determination result.

The touch photographing method provided by the embodiment obtains the pressure judgment result of the pressure on the screen of the terminal and the touch time judgment result of the screen surface, so that a single photo or a continuous shooting can be taken according to the above-mentioned pressure judgment result and the touch time judgment result. The photo is taken and the photograph taken is stored, and the continuous plurality of photographs are also generated and stored according to the pressure judgment result and the touch time judgment result; the pressure judgment result and the touch time judgment result obtained by the embodiment The automatic switching of the photographing mode is realized, and the technical problem that the common photo shooting and the dynamic photo shooting switching are not intelligent enough in the related art is solved, thereby realizing the intelligent switching of the photographing mode to improve the user experience.

Optionally, in an embodiment of the present invention, the preset multiple different pressure interval division manners are, for example, taking k1 and k2 as pressure limits, and dividing the pressure interval into the following three segments, (0, k1), [k1,k2], (k2, +∞). Among them, k1 is a pressure of 50g, k2 is a pressure of 500g, and a pressure of 50g is a pressure of 50g of pressure on the surface of the terminal screen. The execution pressure judgment form is, for example, a pressure of 50 g or less judged as a pressure value at which the user performs a normal touch operation, and a pressure between 50 g and 500 g is judged as a pressure interval in which the pressure participates in the switching application, and when the pressure of the user's finger on the touch screen is in the pressure interval When sliding inside, the application calling module of the starting terminal, the pressure of 500g or more is judged as the non-safe pressure state, when the pressure value is within the pressure interval, the terminal issues a pressure over-standard alarm, the alarm includes motor vibration, the display color changes, The horn sounds and so on.

Optionally, in an embodiment of the present invention, the preset multiple different time interval division manners are, for example, taking t1 as a time limit, and dividing the time interval into two segments, (0, t1), [t1 , +∞). Where t1 can be 0.5 seconds.

In practical applications, the terminal can collect finger operation data on the screen surface to generate click and long data information; the terminal can also collect finger click and press data in the display camera button area to determine the user's photo intent. For example, when the touch time judgment result is less than 0.5 seconds and the pressure judgment result is less than 50 g, the terminal considers that the user's operation on the screen is click touch operation data.

Optionally, in an application scenario of the embodiment of the present invention, the touch time determination result is located in the time interval (0, t1), that is, the touch duration is less than 0.5 seconds, and the pressure judgment result is located in the pressure interval (0, k1). When inside, that is, the pressure value does not reach 50g, take a single photo and store the single photo taken.

Optionally, in another application scenario of the present invention, the touch time determination result is located in the time interval [t1, +∞), that is, the touch exceeds 0.5 seconds, and the pressure determination result is located in the pressure interval (0, k1). When it is inside, that is, the pressure value is less than 50g, multiple consecutive photos are taken and a plurality of consecutive photos taken are stored.

Optionally, in another application scenario of the present invention, the touch time judgment result is located in the time interval [t1, +∞), that is, the touch exceeds 0.5 seconds, and the pressure judgment result is located in the pressure interval [k1, k2] When the pressure value is between 50g and 500g, a plurality of consecutive photos are taken and a plurality of consecutive photos are stored, and a plurality of consecutive photographs are taken to generate a dynamic picture and the dynamic picture is stored.

According to the touch photographing method provided by the embodiment of the present invention, the photographing mode is automatically switched according to the pressure judgment result and the touch touch time judgment result, when the pressure judgment result is in different preset pressure intervals, and the touch time judgment result is in different presets. In the time interval, the terminal can automatically switch to different camera modes to implement intelligent switching of the camera mode to enhance the user experience.

One of ordinary skill in the art will appreciate that all or a portion of the steps of the above-described embodiments can be implemented using a computer program flow, which can be stored in a computer readable storage medium on a corresponding hardware platform (according to The system, device, device, device, etc. are executed, and when executed, include one or a combination of the steps of the method embodiments.

Alternatively, all or part of the steps of the above embodiments may also be implemented by using an integrated circuit. These steps may be separately fabricated into individual integrated circuit modules, or multiple modules or steps may be fabricated into a single integrated circuit module. achieve.

The devices/function modules/functional units in the above embodiments may be implemented by a general-purpose computing device, which may be centralized on a single computing device or distributed over a network of multiple computing devices.

When the device/function module/functional unit in the above embodiment is implemented in the form of a software function module and sold or used as a stand-alone product, it can be stored in a computer readable storage medium. The above mentioned computer readable storage medium may be a read only memory, a magnetic disk or an optical disk or the like.

Industrial applicability

The pressure judging module and the pressure judging module obtain the pressure judgment result of the pressure on the screen of the terminal, and obtain the touch time judgment result of the screen surface through the touch data acquisition module and the touch data judging module, so that the photographing module can judge the result according to the above pressure. And touching the time judgment result, taking a single photo or taking a plurality of consecutive photos and storing the taken photo, and the dynamic picture generation module may further generate the dynamic multiple photos taken according to the pressure determination result and the touch time determination result. The image is stored and stored; the embodiment of the present invention realizes the automatic switching of the photographing mode by the obtained pressure judgment result and the touch time judgment result, and solves the technical problem that the common photo shooting and the dynamic photo shooting switching are not intelligent enough in the related art, and when the pressure is judged The result is in different preset pressure intervals, and the touch time judgment result is in different preset time intervals, and the terminal can automatically switch to different photographing modes, thereby realizing intelligent switching of the photographing mode, thereby realizing the photographing mode. Intelligent switching to improve the user experience.

Claims

A touch photographing device comprises: a pressure collecting module, a pressure judging module, a touch data collecting module, a touch data judging module, a photographing module and a dynamic picture generating module;

The pressure collecting module is configured to: collect a pressure value received by the terminal screen;

The pressure judging module is configured to: compare the pressure value collected by the pressure collecting module with a preset plurality of different pressure intervals, and obtain a pressure judgment result that the pressure value falls within the pressure interval;

The touch data collection module is configured to: collect touch operation data of a screen surface;

The touch data judging module is configured to: compare the touch operation data collected by the touch data collection module with a preset plurality of different time intervals, and obtain a touch time of the touch operation data falling into a time interval. critical result;

The photographing module is configured to: take a single photo or take a plurality of consecutive photos according to the pressure determination result obtained by the pressure determination module and the touch time determination result obtained by the touch data acquisition module, and store Photo taken;

The dynamic picture generating module is configured to: according to the pressure determination result obtained by the pressure determination module and the touch time determination result obtained by the touch data collection module, the continuous shooting of the camera module The photo generates a dynamic picture and stores the dynamic picture.
The touch photographing apparatus according to claim 1, wherein the predetermined plurality of different pressure interval division manners are: taking k1 and k2 as pressure limits, and dividing the pressure interval into the following three segments, (0, k1) , [k1, k2], (k2, +∞).
The touch photographing apparatus according to claim 2, wherein said k1 is a pressure of 50 gram, and said k2 is a pressure of 500 gram, wherein said 50 gram pressure is a pressure of 50 gram of pressure on a surface of said terminal screen .
The touch photographing apparatus according to claim 2, wherein the predetermined plurality of different time interval division manners are: dividing time interval into two segments by using t1 as a time limit, (0, t1), [ T1, +∞).
The touch photographing apparatus according to claim 4, wherein said t1 is 0.5 second.
The touch photographing apparatus according to claim 4, wherein the touch time determination result obtained by the touch data judging module is located in a time interval (0, t1), and the pressure judgment obtained by the pressure judging module When the result is within the pressure interval (0, k1), the camera module takes a single photo and stores the single photo taken.
The touch photographing apparatus according to claim 4, wherein the touch time determination result obtained by the touch data judging module is located in a time interval [t1, +∞), and the pressure obtained by the pressure judging module When the judgment result is within the pressure interval (0, k1), the photographing module takes a plurality of consecutive photographs and stores the photographed consecutive photographs.
The touch photographing apparatus according to claim 4, wherein the touch time determination result obtained by the touch data judging module is located in a time interval [t1, +∞), and the pressure obtained by the pressure judging module When the determination result is located in the pressure interval [k1, k2], the photographing module captures a plurality of consecutive photos and stores the consecutive plurality of photos, and the dynamic picture generating module generates dynamic photos of consecutive photos taken by the photographing module. The picture and the stored dynamic picture.
A touch photographing method, comprising:

Collecting the pressure value of the terminal screen;

Comparing the pressure value with a preset plurality of different pressure intervals to obtain a pressure judgment result that the pressure value falls within the pressure interval;

Collecting touch operation data of the screen surface;

Comparing the touch operation data with a preset plurality of different time intervals to obtain a touch time determination result that the touch operation data falls within a time interval;

Taking a single photo or taking a plurality of consecutive photos according to the pressure determination result and the touch time determination result, and storing the taken photo;

And generating the dynamic picture and storing the dynamic picture according to the pressure determination result and the touch time determination result.
The method according to claim 9, wherein the predetermined plurality of different pressure interval division manners are: taking k1 and k2 as pressure limits, and dividing the pressure interval into the following three segments, (0, k1), [ K1,k2], (k2, +∞).
The method of claim 10 wherein said k1 is 50 grams of pressure and said k2 is A pressure of 500 grams, wherein the 50 grams of pressure is a pressure of 50 grams of weight pressed against the surface of the terminal screen.
The method according to claim 10, wherein the predetermined plurality of different time interval division manners are: dividing time interval into two segments by using t1 as a time limit, (0, t1), [t1, +∞).
The method of claim 12 wherein said t1 is 0.5 seconds.
The method according to claim 12, wherein when the touch time determination result is within the time interval (0, t1) and the pressure determination result is within the pressure interval (0, k1), a single photo is taken and Store a single photo taken.
The method according to claim 12, wherein when the touch time determination result is within the time interval [t1, +∞) and the pressure determination result is within the pressure interval (0, k1), the continuous shooting is performed The photo also stores a number of consecutive photos taken.
The method according to claim 12, wherein when the touch time determination result is within the time interval [t1, +∞) and the pressure determination result is located within the pressure interval [k1, k2], a plurality of consecutive shots are taken The photo stores the consecutive plurality of photos, generates a dynamic picture of the consecutive plurality of photos taken, and stores the dynamic picture.
A mobile terminal, comprising: a picture playing module, and the touch photographing device according to any one of claims 1 to 8;

The picture playing module is configured to: display a single photo, a plurality of consecutive photos, and a dynamic picture stored in the touch photo device.
The mobile terminal of claim 17, wherein the picture playing module is further configured to: play the consecutive plurality of photos to form a dynamic display effect.
The mobile terminal of claim 17, further comprising:

The display module is configured to: display a photo or a dynamic picture played by the picture playing module.