CN110166608B - Electronic equipment and camera adjusting method - Google Patents

Abstract

The embodiment of the application provides an electronic device and a camera adjusting method, wherein the electronic device comprises: the shell comprises a side edge, and the side edge is provided with a control area; the camera is arranged in the shell; the operating switch is arranged on the inner surface of the control area and is used for receiving a control signal; the processor, the camera, operating switch all with treater electric connection, the treater is used for according to control signal adjusts simultaneously the first parameter and the second parameter of camera. The adjusting method of the camera comprises the following steps: receiving a control signal through the operation switch; and simultaneously adjusting a first parameter and a second parameter of the camera according to the control signal. Two different parameters of the camera can be adjusted simultaneously when photographing, and the efficiency of adjusting photographing parameters is improved.

Description

Electronic equipment and camera adjusting method

Technical Field

The present disclosure relates to electronic technologies, and in particular, to an adjusting method for an electronic device and a camera.

Background

With the development of communication technology, electronic devices such as smart phones are becoming more and more popular. In the use process of the electronic equipment, shooting parameters of the camera can be adjusted through the touch display screen of the electronic equipment, and the camera is inconvenient to adjust different parameters.

Disclosure of Invention

The embodiment of the application provides an electronic device and a camera adjusting method, and the efficiency of adjusting photographing parameters is improved.

An embodiment of the present application provides an electronic device, which includes:

the shell comprises a side edge, and the side edge is provided with a control area;

the camera is arranged in the shell;

the operating switch is arranged on the inner surface of the control area and is used for receiving a control signal;

the processor, the camera, operating switch all with treater electric connection, the treater is used for according to control signal adjusts simultaneously the first parameter and the second parameter of camera.

The embodiment of the application also provides an adjusting method of the camera, which is applied to electronic equipment, wherein the electronic equipment comprises a shell, the camera and an operating switch; the shell comprises a side edge, a control area is arranged on the side edge, the camera is arranged in the shell, the operating switch is arranged on the inner surface of the control area, and the adjusting method of the camera comprises the following steps:

receiving a control signal through the operation switch;

and simultaneously adjusting a first parameter and a second parameter of the camera according to the control signal.

Through the embodiment that this application provided can adjust the parameter of two kinds of differences of camera simultaneously when shooing, need not to adjust the parameter of camera when shooing in proper order, improved the efficiency of adjusting the parameter of shooing

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings used in the description of the embodiments will be briefly introduced below.

Fig. 1 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

FIG. 2 is a cross-sectional view of the electronic device shown in FIG. 1 taken along the direction P2-P2.

Fig. 3 is a schematic diagram of a first structure of an operation switch in the electronic device shown in fig. 2.

Fig. 4 is a schematic diagram of a second structure of the operation switch in the electronic device shown in fig. 2.

Fig. 5 is a schematic diagram of a third structure of the operation switch in the electronic device shown in fig. 2.

Fig. 6 is a schematic diagram of a fourth structure of the operation switch in the electronic device shown in fig. 2.

FIG. 7 is another cross-sectional view of the electronic device shown in FIG. 1 taken along the direction P2-P2.

Fig. 8 is a schematic flowchart of an adjusting method of a camera according to an embodiment of the present application.

Fig. 9 is another schematic flow chart of an adjusting method of a camera provided in the embodiment of the present application.

Detailed Description

Referring to fig. 1, fig. 1 is a schematic structural diagram of an electronic device according to an embodiment of the present disclosure. An electronic device such as electronic device 20 of fig. 1 may include a housing such as housing 200, an operating switch such as operating switch 400, a camera such as camera 600, and a circuit board such as circuit board 800. The circuit board 800, the camera 600, and the operation switch 400 may be provided on the housing.

The electronic device 20 may be a computing device such as a laptop computer, a computer monitor containing an embedded computer, a tablet computer, a cellular telephone, a media player, or other handheld or portable electronic devices, smaller devices (such as a wristwatch device, a hanging device, a headset or earpiece device, a device embedded in eyeglasses, or other device worn on the head of a user, or other wearable or miniature devices), a television, a computer display not containing an embedded computer, a gaming device, a navigation device, an embedded system (such as a system in which an electronic device with a display is installed in a kiosk or automobile), a device that implements the functionality of two or more of these devices, or other electronic devices. In the exemplary configuration of fig. 1, the electronic device 20 is a portable device, such as a cellular telephone, media player, tablet, or other portable computing device. Other configurations may be used for the electronic device 20, if desired. The example of fig. 1 is merely exemplary.

The housing 200 may be formed from plastic, glass, ceramic, fiber composite, metal (e.g., stainless steel, aluminum, etc.), other suitable materials, or a combination of any two or more of these materials. The housing body 200 may be formed using a one-piece configuration in which some or all of the housing body 200 is machined or molded as a single structure, or may be formed using multiple structures (e.g., an inner frame structure, one or more structures that form an outer shell surface, etc.). The case 200 may provide a receiving cavity to receive components of the electronic device 20 such as a battery, a circuit board 800, and the like.

In this embodiment, the electronic device includes a housing 200, a camera 600, an operation switch 400, and a processor 900, where the housing 200 includes a side 222, and the side 222 is provided with a control area 2222; a camera 600 disposed in the housing 600; an operation switch 400 disposed on an inner surface of the control area 2222, the operation switch 600 being configured to receive a control signal; the processor 900 is electrically connected to the camera 600 and the operation switch 400, and the processor 900 is configured to simultaneously adjust a first parameter and a second parameter of the camera 600 according to the control signal.

Referring to fig. 2, fig. 2 is a partial sectional view of the electronic device shown in fig. 1 along a direction P2-P2. The electronic device 20 may also include a display screen such as the display screen 100, and the display screen 100 may be mounted in the housing 200. Display screen 100 may be a touch screen display incorporating conductive capacitive touch sensor electrode layers or other touch sensor components (e.g., resistive touch sensor components, acoustic touch sensor components, force-based touch sensor components, light-based touch sensor components, etc.), or may be a non-touch sensitive display. Capacitive touch screen electrodes may be formed from an array of indium tin oxide pads or other transparent conductive structures.

The display screen 100 may include an array of display pixels formed from Liquid Crystal Display (LCD) components, an array of electrophoretic display pixels, an array of plasma display pixels, an array of organic light emitting diode display pixels, an array of electrowetting display pixels, or display pixels based on other display technologies. A display screen cover layer such as a transparent glass layer, light-transmissive plastic, sapphire, or other transparent dielectric layer may be used to protect the display screen 100. In some embodiments, the display screen 100 may be a flexible screen, i.e., the display screen 100 may be bendable and foldable.

The housing 200 may include a middle frame, such as middle frame 220, and a back cover, such as back cover 240. The middle frame 220 may serve as a carrier for the electronic device 20. For example, the bezel 220 may carry the display screen 100, the circuit board 800, a battery, etc. of the electronic device 20. The middle frame 220 may be made of metal, and may be formed by injection molding or machining.

The rear cover 240 may be disposed on one side of the middle frame 220, such as the rear cover 240 disposed on a non-display side of the middle frame 220. The rear cover 240 and the middle frame 220 are fixedly connected to form a receiving cavity 260 for receiving components of the electronic device 20, such as a battery, a circuit board 800, and the like, so that the rear cover 240 can be covered on the middle frame 220 to cover the battery, the circuit board 800, and the like. It is understood that the display screen 100 and the rear cover 240 are disposed at two opposite sides of the middle frame 220, and the display screen 100 may be disposed at a display surface of the middle frame 220 to display a picture.

In some embodiments, the display screen 100 may also be disposed on the rear cover 240, and the electronic device includes at least two display screens 100, wherein one display screen 100 is disposed on the front surface of the middle frame 220, and the other display screen 100 is disposed on the back surface of the middle frame 220, so as to achieve dual display.

The middle frame 220 may have a plurality of sides 222, and the plurality of sides 222 of the middle frame 220 are all located on the periphery of the base of the middle frame 220. The lengths of the sides 222 of the middle frame 220 may be the same or different. Such as the middle frame 220, may have a long side with a longer length and a short side with a shorter length, i.e., the length of the long side is greater than the length of the short side. Devices of the electronic apparatus 20 such as the operation switch 400 may be disposed on one or more of the sides 222 of the middle frame 220, such as the operation switch 400 of the electronic apparatus 20 disposed on one of the longer sides 222 of the middle frame 220.

The operation switch 400 may be provided on the side 222 having a shorter length. It is understood that when the lengths of the sides 222 are the same, the operation switch 400 may be disposed on any one side 222 or any plurality of sides 222. It will also be appreciated that the operating switch 400 may be disposed at the connecting position of the two connecting sides 222, or at the corner position of the middle frame 220. It will also be appreciated that one of the sides 222 may be provided with one or more operating switches 400. In some embodiments, a control area 2222, or an operation area 2222, may be provided on one of the side edges 222. The operation switch 400 may be provided in the control section 2222 of the side 222 for the user to operate. Of course, it is also possible to arrange the operation switches 400 at all positions of the side 222, i.e., the control section 2222 is the entire side 222.

In some embodiments, a self-luminous material may be disposed at the control area 2222 to allow the user to identify the control area 2222. The color settings at the location of the control area 2222 may be different from the color settings at other locations of the side edge 222. A light emitting lamp may also be provided in the control section 2222.

In some embodiments, the side edge 222 further comprises a feedback area, and the position of the feedback area is provided with a self-luminous material, so that a user can know the adjustment progress when adjusting the camera parameters. The self-luminous material can be a luminous lamp, and when the processor adjusts the first parameter and the second parameter of the camera according to the control signal, different luminous lamps adjust the luminous position according to the corresponding parameter. It can be understood that the light-emitting lamp is equivalent to a progress bar for adjusting camera parameters, and the condition that the progress bar shields a shot picture can be avoided.

In the related art, a plurality of physical keys, such as an on-off key, a volume key, a shortcut key, etc., are disposed on a side of the electronic device. The physical keys generally protrude out of the side edges, and gaps are formed between the physical keys and the side edges of the electronic equipment, so that water leakage and dust entering are easy to occur.

Based on this, in the embodiment of the present application, the operation switch 400 is disposed on the inner surface of the side edge 222, and the user can directly operate the control area 2222 to control the operation switch 400. The integrity of the side 222 is maintained and is waterproof and dustproof.

The side 222 may be provided with a first receiving groove 2224 for receiving the operation switch 400. The first receiving groove 2224 may communicate with the receiving cavity 260. The depth of the first receiving groove 2224 may be much greater than the thickness of the operating switch 400, that is, after the operating switch 400 is placed in the first receiving groove 2224, a hollow cavity is formed at a position where the first receiving groove 2224 is communicated with the receiving cavity 260, so that the control area 2222 at the position of the first receiving groove 2224 is deformed. Such as: the distance between the operation switch 400 and the housing chamber 260 is about 5 mm. The length of the first receiving groove 2224 is the distance of the first receiving groove 2224 along the length direction of the side 222, and the length of the first receiving groove 2224 can be determined according to actual requirements. The width of the first receiving groove 2224 is a distance along the width direction of the side 222, and the width of the first receiving groove 2224 may be between 1.6 mm and 2 mm.

The outer surface of the side 222 may be of various shapes, such as: arc, rectangular, rounded rectangular, etc. The outer surface of the side 222 may also be curved. At least one of the rear cover 240 and the display screen 100 may be arranged in an arc shape and cover at least a portion of the side edge 222.

The operation switch 400 is provided in the control section 2222 and on the inner surface of the side 222. The operation switch 400 may be electrically connected to the circuit board 800 of the electronic device 20. The circuit board 800 of the electronic device 20 may have integrated thereon a processor 900, a memory, etc., which may be used to process various operations of the electronic device 20. Such as: the processor 900 may control the display of the display screen 100 in the electronic device 20, and the operation switch 400 may receive control signals in the control area 2222, where the control signals may be a first control signal and a second control signal for adjusting a first parameter and a second parameter of the camera. The processor adjusts a first parameter of the camera according to the first control signal, and simultaneously adjusts a second parameter of the camera according to the second control signal, wherein the first parameter and the second parameter are any two parameters of a focal length parameter, a sensitivity parameter, an exposure parameter and a white balance parameter. The control signal may also be a signal for controlling the volume of the electronic device 20, and the control signal may also be a signal for controlling the power on/off of the electronic device 20.

In the embodiment of the present application, the operation switch 400 is disposed on the inner surface of the side 222, and the side 222 is not provided with an aperture structure for avoiding the operation switch 400, so that a user can drive the operation switch 400 through the side 222 at the position of the control area 2222 by a control signal to control the electronic device 20, such as controlling the volume of the electronic device 20, controlling the power on/off of the electronic device 20, and adjusting the first parameter and the second parameter of the camera in the electronic device 20 at the same time.

Referring to fig. 3, fig. 3 is a first structural schematic diagram of an operation switch in the electronic device shown in fig. 2. The operation switch may include a pressure sensor 420, and the pressure sensor 420 may include a first flexible circuit board 422 and a pressure detector 424 electrically connected to the first flexible circuit board 422. The first flexible circuit board 422 may be disposed on an inner surface of the side 222, such as by being adhered to the inner surface of the side 222 with glue, double-sided tape, or the like. The width of the first receiving groove 2224 may be about 1.6 mm or about 2 mm.

The pressure detector 424 may include a resistive sensor or a capacitive sensor, among others. It should be noted that when the pressure detector 424 includes a capacitive sensor, no metal is disposed at the position of the pressure detector 424 to ensure the accuracy of the detection of the capacitive sensor. The resistive sensor may be a Micro Electro Mechanical Systems (MEMS) sensor, which requires that the width of the first receiving groove 2224 is 1.6 mm. The resistive sensor is not limited to the MEMS piezoresistive IC, and the resistive sensor may be a strain gauge, and the strain gauge needs to have a width of the first receiving groove 2224 of about 2 mm.

It is understood that the side 222 is thin and can be deformed by the pressing force, and the first flexible circuit board 422 and the pressure detector 424 are disposed together on the inner surface of the side 222. When the side 222 is pressed, the side 222 deforms, and drives the first flexible circuit board 422 and the pressure detector 424 to deform together, and converts the magnitude of the pressure value into an electrical signal to be transmitted to the processor of the circuit board 800, and the processor can control the electronic device 20 according to the pressing operation. The pressing operation may include a press-down, a slide press, a long press, and the like. The long press is that the press duration exceeds the preset duration, the long press pressure detector can detect the same pressure value, the changed pressure value and the position change of the pressure, and a first parameter and a second parameter of the camera are adjusted according to different pressure values and different pressure positions, wherein the first parameter or the second parameter is one of a focal length parameter, a light sensitivity parameter, an exposure parameter and a white balance parameter. The pressing down may be a pressing operation detected a plurality of times within a preset time.

In some embodiments, the pressing operation may be determined as the first control signal, that is, the first parameter or the second parameter of the camera, which may be one of a focal length parameter, a sensitivity parameter, an exposure parameter, and a white balance parameter, may be adjusted when the operation switch 400 receives the pressing operation in the control area 2222. Therefore, a user can adjust one of the camera focal length parameter, the light sensitivity parameter, the exposure parameter and the white balance parameter without touching the display screen 100, power consumption of the touch display screen 100 can be saved, and user operation is facilitated. Especially facilitating one-handed operation for some users. It should be noted that the pressure sensor 420 is not limited to a pressing operation, and may be other operations as well, for adjusting one of the focal length parameter, the sensitivity parameter, the exposure parameter, and the white balance parameter of the camera 600 of the electronic device 20.

In some embodiments, the pressure sensor 420 may also detect other operations, such as a sliding operation, and the like. The pressure sensor 420 may determine a control signal according to a change in the position of the pressed point detected by it. And then the camera is controlled to adjust the first parameter or the second parameter. Such as the pressure sensor 420, determines the position of the pressed point as a second control signal when it is detected that the position is changed, and transmits the second control signal to the processor of the circuit board 800, and the processor may adjust one of the focal length parameter, the sensitivity parameter, the exposure parameter, and the white balance parameter of the camera 600 according to the second control signal.

It will be appreciated that in some embodiments, when the pressure sensor detects both a change in the position of the pressure point caused by a sliding operation and a change in the pressure value caused by a pressing operation, the pressing operation is determined as the first control signal and the sliding operation is determined as the second control signal according to user-defined or system default settings. The processor adjusts a first parameter of the camera according to the first control signal, and simultaneously adjusts a second parameter of the camera according to the second control signal, wherein the first parameter and the second parameter are any two parameters of a focal length parameter, a sensitivity parameter, an exposure parameter and a white balance parameter.

In the actual assembling process, since the first flexible circuit board 422 is made of a soft material, deformation is easily generated, and in order to reduce the deformation of the first flexible circuit board 422 in the assembling process, the thickness of the first flexible circuit board 422 can be increased. Of course, a reinforcing plate may be fixedly connected to the first flexible circuit board 422.

Referring to fig. 4, fig. 4 is a schematic diagram illustrating a second structure of the operation switch of the electronic device shown in fig. 2. The operation switch 400 may further include a reinforcing sheet 426, the reinforcing sheet 426 is fixedly connected to the first flexible circuit board 422, and the reinforcing sheet 426 and the pressure detector 424 are respectively disposed on both sides of the first flexible circuit board 422. The reinforcing sheet 426 is fixedly attached to the inner surface of the side 222 at the location of the control area 2222. The reinforcing sheet 426 may thus increase the overall strength of the pressure sensor 420 for assembly, preventing deformation during assembly that would otherwise be difficult to assemble. It should be noted that the pressure detector 424 and the reinforcing sheet 426 may not be provided on both sides of the first flexible circuit board 426.

Referring to fig. 5, fig. 5 is a schematic diagram illustrating a third structure of the operation switch of the electronic device shown in fig. 2. The reinforcing sheet 426 and the pressure detector 424 may be disposed on the same side of the first flexible circuit board 422, the pressure detector 424 may be disposed within a gap 428 of the reinforcing sheet 426, and the space of the gap 428 is larger than the size of the pressure detector 424. Such as the thickness of the reinforcing sheet 426 is greater than the thickness of the pressure detector 424, the reinforcing sheet 426 and the pressure detector 424 do not touch. Therefore, the pressure detector 424 is ensured not to contact with the reinforcing sheet 426 or the side edge 222 when being deformed by the pressure, so that the accuracy of the pressure detector 424 for detecting the pressing force is affected.

It will be appreciated that in order for the pressure detector 424 to be able to effectively detect pressure, a void 428 may be provided in the reinforcing sheet 426, with the pressure detector 424 being spatially located within the void 428. Therefore, when the side edge 222 of the control area 2222 receives the acting force, the stress of the acting force is applied to the pressure detector 424 at the position of the gap 428 due to the arrangement of the reinforcing sheet 426, so that the signal detected by the pressure sensor 420 can be more accurate. In some embodiments, two reinforcing sheets 426 may be connected to the first flexible circuit board 422 to form the gap 428, or a gap 428 may be opened on one reinforcing sheet 426.

It should be noted that the accuracy of the signal detected by the pressure sensor 420 can be improved without providing the reinforcing sheet 426, such as providing a groove on the side 222 of the control area 2222 to locate the pressure detector 424 in the groove, so that the thickness of the two sides of the groove is larger, and thus the thickness of the pressure detector 424 is smaller, and the deformation is also easy to occur.

Referring to fig. 6, fig. 6 is a fourth structural diagram of the operation switch of the electronic device shown in fig. 2. The operation switch may further include an ultrasonic sensor 440, and the ultrasonic sensor 440 may include a second flexible circuit board 442, a signal transmitting part 444, and a signal receiving part 446. The signal transmitting portion 444 and the signal receiving portion 446 are electrically connected to the second flexible circuit board 442. The signal transmitting portion 444 and the signal receiving portion 446 may be made of a piezoelectric ceramic material. The second flexible circuit board 442 may be disposed on an inner surface of the side 222 of the control area 2222, such as by being adhered to the inner surface of the side 222 with glue, double-sided tape, or the like. The ultrasonic sensor 440 may receive different signals, such as different operating modes, by which control signals may be determined to control various functions of the electronic device 20 in accordance with the control signals.

The ultrasonic sensor 440 can detect the position where the control area 2222 is pressed to achieve positioning. Or ultrasonic sensor 440 may detect a specific location for finger placement in control area 2222 to achieve positioning. When the user's finger performs a sliding operation in the control area, the ultrasonic sensor 440 may receive the sliding operation signal to determine it as a second control signal, and may convert the second control signal into an electrical signal and transmit the electrical signal to the processor of the circuit board 800, and the processor may adjust the parameter of the camera 600. The processor may adjust one of a focal length parameter, a sensitivity parameter, an exposure parameter, and a white balance parameter of the camera 600 according to the second control signal.

It is understood that other operations, such as a tap, may also be detected by the ultrasonic sensor 440. The ultrasonic sensor 440 may also control other functions of the electronic device 20 according to other operations or different sliding operations.

Wherein the sliding direction of the sliding operation is along the length of the side 222.

It is understood that a signal transmitting portion 444 and a signal receiving portion 446 may be disposed at intervals on the ultrasonic sensor 440. A plurality of signal transmitting sections 444 and a plurality of signal receiving sections 446 may be provided at intervals.

It should be noted that the operation switch 400 is not limited to the ultrasonic sensor 440 and the pressure sensor 420. In some embodiments, the operating switch 400 may include a pressure sensor and an ultrasonic sensor. Such as disposing the pressure detector, the ultrasonic-wave signal transmitting section, and the ultrasonic-wave signal receiving section on the same flexible circuit board. For example: a pressure detector is disposed between a signal transmitting portion and a signal receiving portion. Of course, if the pressure detector is plural, each pressure detector is disposed between one signal transmitting portion and one signal receiving portion. The operation switch 400 includes both a pressure detector by which a degree of pressing can be effectively detected and an ultrasonic detector by which a pressed position can be effectively detected. It is understood that in some embodiments, when the pressure sensor detects a pressure value change caused by a pressing operation and the ultrasonic sensor detects a sliding operation of a finger of a user in the control area, the pressing operation is determined as the first control signal and the sliding operation is determined as the second control signal according to user-defined or system default settings. The processor adjusts a first parameter of the camera according to the first control signal, and simultaneously adjusts a second parameter of the camera according to the second control signal, wherein the first parameter and the second parameter are any two parameters of a focal length parameter, a sensitivity parameter, an exposure parameter and a white balance parameter.

Specifically, when the finger of the user slides the operation switch in the control area and the pressure on the operation switch changes during the sliding process, such as continuously increasing or continuously decreasing, the operation switch determines the pressing operation as a first control signal and determines the pressing operation as a second control signal, the processor adjusts a first parameter and a second parameter of the camera according to the first control signal and the second control signal, for example, the first parameter corresponds to a camera focal length parameter, the second parameter corresponds to a camera exposure parameter, and the user can adjust the focal length and the exposure of the camera simultaneously through the sliding operation and the pressure change during the sliding process. Meanwhile, the function of preventing mistaken touch can be realized according to the pressing intensity and the pressing position.

It should also be noted that the electronic device 20 may also be provided with one or more ultrasonic detectors and one or more pressure detectors in different control areas 2222.

Referring to fig. 7, fig. 7 is another partial sectional view of the electronic device shown in fig. 1 along a direction P2-P2. The electronic device 20 may further include a touch sensor 300, and the touch sensor 300 may be disposed between the side 222 and the rear cover 240. The side 222 may further include a detection area 2226, the detection area 2226 may be disposed adjacent to the control area 2222, the control area 2222 may be a middle position of the side 222, and the detection area 2226 may be located outside the middle position. Such as detection zone 2226, is located on a side adjacent to rear cover 240. The touch sensor 300 may be adjacent to the rear cover 240, or may be disposed between the rear cover 240 and the side edge 222, so as to be covered by the rear cover 240 for protection. The operation switch 400 may be located between the touch sensor 300 and the display screen 100.

The touch sensor 300 may be a capacitive detector, and the rear cover 240 may be made of glass. The capacitance detector is an electrode plate with a certain shape, under the condition that no finger touches the surface of the sensor, a certain capacitance (self-capacitance) is formed between the electrode plate and the surrounding electrodes, when the finger touches the surface of the sensor, the conductive property and the large mass of a human body form a grounded conductive layer, so that electric field lines are formed, and the capacitance between the capacitance detector and the ground is changed. By detecting this change in capacitance, it is possible to know whether there is a finger press. Thereby achieving a function of preventing erroneous touch through the touch sensor 300. It should be noted that the capacitive detector can refer to the touch function of the display screen.

The processor on the circuit board 800 of the electronic device 20 may control the electronic device 20 according to the detection result of the touch sensor 300 and the detection result of the pressure sensor 420. Of course, the processor may control the electronic device 20 only according to the detection result of the pressure sensor 420, and may control the electronic device 20 according to the detection result of the touch sensor 300. The detection result of the touch sensor 300 may be a finger pressing operation, and when the finger pressing operation is detected, the pressure sensor and/or the ultrasonic sensor is triggered to detect signals, so as to realize the function of preventing mistaken touch through the touch sensor 300.

It should be noted that, when the touch sensor 300 is adjacent to the rear cover 240, the touch sensor 300 may be covered on the capacitive detector through a touch cover plate, the touch cover plate may be connected to the rear cover 240 in a matching manner, and the touch cover plate may protect the capacitive detector. When the detection area 2226 of the side 222 has an arc-shaped structure, the capacitive detector may be disposed on a third flexible circuit board, and the third flexible circuit board may be disposed on the side 222 at the position of the detection area 2226 of the arc-shaped structure. The corresponding touch cover or the back cover 240 may have an arc shape corresponding to the position of the touch sensor 300 and the arc structure of the side 222. The touch sensor 300 can be directly disposed on the outer surface of the side 222, or a second receiving groove can be formed on the side 222 to receive the touch sensor 300.

Wherein sides such as side 222, pressure sensors such as pressure sensor 420, and touch sensors such as touch sensor 300 may form a housing assembly. In the housing assembly, the pressure sensor 420 is disposed in the control area 2222 of the side 222, and the touch sensor 300 is disposed in the detection area 2226 of the side 222. Whether the control area 2222 has been pressed or not can be detected by the pressure sensor 420, and whether or not there is a touch operation or not can be determined by the touch sensor 300 in the detection area 2226. The touch operation may include a sliding operation, and the like. It should be noted that the housing assembly can be applied to the electronic device 20. The housing assembly may also include an ultrasonic sensor such as ultrasonic sensor 440. The operative position of the side 222 control section 2222 can be detected by the ultrasonic sensor 440.

It will be appreciated that due to the limited width of the side 222, a user's finger pressing on the control area 2222 of the side 222 will tend to press a portion of the finger against the rear cover 240 and possibly the display screen 100. In the embodiment of the present application, a detection area is disposed at a position on one side of the control area 2222 and a position on one side of the rear cover 240 to install the touch sensor 300, so as to determine whether a user presses a finger, thereby implementing the anti-false-touch operation switch 400.

It should be noted that the user often touches the touch operation switch 400 to make the display screen 100 in a bright state, and can also detect whether the display screen 100 has a touch operation according to the display screen 100, and if the display screen 100 has a touch operation, the function of preventing a false touch can be further improved, so as to achieve more accurate control over the operation switch 400.

In order to further describe the functions of the electronic device in the embodiment of the present application, the following is defined from the perspective of an adjustment method of a camera of the electronic device.

Referring to fig. 8, fig. 8 is a schematic flow chart illustrating an adjusting method of a camera according to an embodiment of the present disclosure. The adjusting method of the camera is applied to the electronic device, and the electronic device can refer to the above contents, which are not described herein again. The adjusting method of the camera can comprise the following steps:

101. the control signal is received by operating the switch. The control signals may include a first control signal and a second control signal, the first control signal and the second control signal being different, the first control signal being operable to adjust a first parameter of the camera, the second control signal being operable to adjust a second parameter of the camera. Different control signals can be determined according to different operations received by the operation switch. Such as a first control signal based on a pressing operation received by the operating switch and a second control signal based on a sliding operation received by the operating switch.

102. And simultaneously adjusting a first parameter and a second parameter of the camera according to the control signal.

After receiving the control signal, the operation switch of the electronic device may transmit the control signal to a processor of the electronic device, and the processor of the electronic device may also directly obtain the control signal from the control signal received by the operation switch. The processor adjusts the parameters of the camera according to different control signals. The processor may adjust a first parameter of the camera according to the first control signal, such as the processor adjusting the camera exposure according to a pressing operation. The processor adjusts a second parameter of the camera according to a second control signal, such as the processor adjusting the focal length of the camera according to a sliding operation along the length direction of the side edge. The first parameter and the second parameter are not limited to the exposure parameter and the focal length parameter of the camera, but also can be a white balance parameter sensitivity parameter, and which kind of camera parameters the first parameter and the second parameter correspond to can be defined by a user, and can also be set by default of a system. For example, the user can adjust any two of the focus parameter, the exposure parameter, the white balance parameter, and the sensitivity parameter at the same time by performing an operation on the operation switch provided on the inner surface of the side edge and applying a pressure to the operation switch while performing a sliding operation. Different parameters of the camera do not need to be adjusted in sequence, the shooting efficiency can be improved, the shooting adjusting time is saved, and the scene needing to be shot is avoided being missed.

In some embodiments, taking the sliding operation to adjust the focal length parameter and the pressing operation to adjust the exposure as examples, in order to improve the accuracy of the pressing operation, a pressure threshold is set, a lower pressure threshold may be set at the beginning of the pressing operation, when it is detected that the actual pressure value is greater than the pressure value, the exposure parameter is adjusted according to the pressure value, the exposure parameter may be proportional to the pressure value, that is, the greater the pressure value, the greater the exposure parameter, in order to avoid that the pressure value is reduced to 0 when the user looses his hand and the exposure parameter changes with the pressure value, it may be detected whether the finger leaves the operation switch through the ultrasonic sensor, when it is detected that the finger leaves the operation switch, the adjusted focal length parameter or the exposure parameter is stopped at the moment when the finger leaves the.

Referring to fig. 9, fig. 9 is another schematic flow chart of an adjusting method of a camera according to an embodiment of the present disclosure. The adjusting method of the camera is applied to the electronic device, and the electronic device can refer to the above contents, which are not described herein again. The adjusting method of the camera can comprise the following steps:

the operation switches include a first operation switch and a second operation switch disposed on the same side or different sides 201.

The side of electronic equipment can be the different sides of length, if long side and short side, electronic equipment's side still can be the same side of length, if the appearance is equilateral polygon's electronic equipment, use the appearance to be the electronic equipment of rectangle as an example, electronic equipment includes a pair of long side and a pair of short side, two operating switch can set up in a pair of short side relatively, or set up in a pair of long side relatively, use two operating switch to set up respectively in a pair of long side as an example, first operating switch sets up in first long side, second operating switch sets up in the long side of second, the setting of one hand or both hands to two different position operating switch respectively when can be convenient for the user erects the screen and shoot.

Two operating switches can also set up in same side to set up in long side as the example, first operating switch sets up in the region that long side is close to the electronic equipment top, and second operating switch sets up in the region that long side is close to the electronic equipment bottom, and both hands are to two different position operating switch's control respectively when the user of can being convenient for violently screen shooting.

The two operation switches may also be provided on the long side and the short side, respectively, for example, a first operation switch may be provided on the first long side and a second operation switch may be provided on the first short side. The single-hand control of the two different position operation switches during shooting can be facilitated for a user.

202, when the first operation switch receives a pressing operation or a sliding operation along the length direction of the side edge in the control area, the first operation switch determines the pressing operation or the sliding operation as a first control signal.

The first control signal may be determined as a pressing operation or a sliding operation along the length direction of the side edge received by the first operation switch in the control area according to user-defined or system default settings, for example, if the user sets a first parameter for adjusting the camera by the pressing operation of the first operation switch, the pressing operation of the first operation switch is determined as the first control signal for adjusting the camera parameter.

And 203, meanwhile, the second operation switch receives a pressing operation or a sliding operation along the length direction of the side edge in the control area, and the second operation switch determines the pressing operation or the sliding operation as a second control signal.

The second control signal may be determined by receiving, by user-defined or default setting of the system, a pressing operation or a sliding operation along the length direction of the side edge, which is received by the second operation switch in the control area, that is, receiving an operation performed by the user on the second operation switch while receiving an operation performed by the user on the first operation switch, for example, if the user sets a second parameter for adjusting the camera by using the sliding operation of the second operation switch, the pressing operation of the second operation switch is determined as the second control signal for adjusting the camera parameter.

204, adjusting a first parameter of the camera according to the first control signal, and adjusting a second parameter of the camera according to the second control signal.

The first parameter of the camera is adjusted according to the first control signal, the second parameter of the camera is adjusted according to the second control signal, the first parameter and the second parameter can be any two parameters of a focal length parameter, a light sensitivity parameter, an exposure parameter and a white balance parameter, and the simultaneous adjustment of two different parameters of the camera by a user can be met by setting operation switches at two different positions.

It can be understood that the signals determined by the first operating switch and the second operating switch can be combined in various ways according to user definition or system setting, and the diversified requirements of the user for adjusting different camera parameters in different operating modes at the same time are met.

In some embodiments, the number of the operation switches is not limited to two, and may include three or four, and when the number of the operation switches is more than two, more camera parameters may be adjusted at the same time, so that the shooting efficiency of the camera may be improved to a certain extent.

In some embodiments, the control signal further includes a third control signal, and the camera is controlled to take a picture after the first parameter and the second parameter of the camera are adjusted according to the third control signal. The third control signal may be a pressing frequency of the operation switch within a preset time by the user, when the pressing frequency of the operation switch within the preset time by the user is greater than the preset frequency, the operation switch determines the operation as the third control signal, and the camera takes a picture according to the third control signal, or when the operation switch detects a sliding operation that slides in a direction toward the display screen or the rear cover, the sliding operation is determined as the third control signal by the operation switch, and the camera takes a picture according to the third control signal.

In some embodiments, when the user adjusts different parameters of the camera simultaneously through the operating switch, the corresponding progress bar appears on the display screen, for example, when adjusting the exposure, the exposure progress bar appears, the exposure numerical value can be included on the progress bar, when adjusting the focus, the focus multiple progress bar appears, the focus multiple numerical value can be included on the progress bar, the two progress bars are displayed simultaneously at different positions of the display screen, the user can adjust the different parameters of the camera simultaneously, and the adjustment can be more accurate.

In some embodiments, the side edge is further provided with a feedback area, and the feedback area is used for displaying the adjustment progress when the control signal adjusts the first parameter and the second parameter of the camera. For example, when the user adjusts different parameters of the camera simultaneously through the operating switch, in order to facilitate the user to know the adjustment progress, the camera parameters can be adjusted more accurately, a feedback device is arranged in a feedback area on the side edge, such as an LED lamp, a row of LED lamps are arranged in the feedback area, the number and the positions of the LED lamps are corresponding to the parameters adjusted by the camera in real time, namely, the user can know the progress of adjusting the camera parameters according to the lighting positions or the number of the LED lamps, or guide rails are arranged in different feedback areas, the LED lamps are arranged on the guide rails, the LED lamps can move according to the dynamic change of the camera parameters, namely, the user can know the progress of adjusting the camera parameters according to the lighting positions of the LED lamps. Through being provided with the feedback device in side feedback district, need not to show the progress bar on the display screen, show the sheltering from of progress bar to the shooting picture on the display screen when can avoiding adjusting. It is specific, can set up the LED lamp on a long side and a short side of electronic equipment, the correspondence is provided with operating switch on long side and the short side, operate the operating switch of two different positions simultaneously as the user, when adjusting camera focus parameter and exposure parameter simultaneously, if camera focus parameter is adjusted to operating switch through long side, the exposure parameter of camera is adjusted to operating switch through short side, then at the in-process that the user adjusted, show the progress that camera focus was adjusted through the LED lamp in the feedback area of long side, show the progress that camera exposure was adjusted through the LED in the feedback area of short side. The user can know the progress of adjusting the camera parameters conveniently, and the accuracy of adjusting the camera parameters is improved

It should be noted that the processor may also control the state of the camera according to other control signals, which is not illustrated herein. Of course, the processor may also control other functions of the electronic device in accordance with other control signals.

It should be noted that the adjustment method of the camera is not limited to this. After receiving the control signal by operating the switch, the method may further include:

and detecting whether the display screen has touch operation.

When the display screen receives touch operation, simultaneously adjusting a first parameter and a second parameter of the camera according to a control signal received by the operation switch;

and when the display screen does not receive the touch operation, the operation is not carried out.

According to the embodiment of the application, when the display screen is touched, a user generally uses the electronic equipment. When the display screen has no touch, the user usually does not use the electronic device. The display screen can be multiplexed to realize the false touch prevention operation switch.

Of course, after receiving the control signal by operating the switch, the method may further include:

detecting whether a touch sensor has touch operation or not, wherein the touch sensor is arranged between the side edge and the rear cover;

when the touch sensor receives touch operation, the first parameter and the second parameter of the camera are adjusted simultaneously according to the control signal.

When the touch sensor does not receive the touch operation, the parameters of the camera are not adjusted.

According to the embodiment of the application, when the touch sensor has a touch function, a user generally uses the electronic device. When the touch sensor has no touch, the user usually does not use the electronic device. The false touch prevention operation switch can be realized through the touch sensor.

Of course, whether the display screen and the touch sensor have touch operation can also be detected simultaneously.

When at least one of the touch sensor and the display screen receives touch operation, the first parameter and the second parameter of the camera are adjusted simultaneously according to the control signal.

When the touch sensor and the display screen do not receive touch operation, parameters of the camera are not adjusted.

According to the embodiment of the application, whether the touch operation of the user exists is detected by the display screen and the touch sensor together, so that the purpose of preventing the mistaken touch operation switch is achieved together, and the mistaken touch prevention effect is better.

An embodiment of the present application further provides a storage medium, where a computer program is stored in the storage medium, and when the computer program runs on a computer, the computer executes the method for adjusting a camera according to any one of the above embodiments.

It should be noted that, all or part of the steps in the methods of the above embodiments may be implemented by hardware related to instructions of a computer program, which may be stored in a computer-readable storage medium, which may include, but is not limited to: read Only Memory (ROM), Random Access Memory (RAM), magnetic or optical disks, and the like.

The electronic device and the camera adjusting method provided by the embodiment of the application are described in detail above. The principles and implementations of the present application are described herein using specific examples, which are presented only to aid in understanding the present application. Meanwhile, for those skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (8)

1. An electronic device, comprising:

the shell comprises a side edge, and the side edge is provided with a control area;

the camera is arranged in the shell;

the operating switch is arranged on the inner surface of the control area and used for receiving control signals, the control signals comprise a first control signal and a second control signal, specifically, the operating switch comprises a pressure sensor and an ultrasonic sensor, the pressure sensor and the ultrasonic sensor are adjacently arranged in the shell, the first control signal is determined according to the pressing force degree received by the pressure sensor, and the second control signal is determined according to the pressing position received by the ultrasonic sensor;

the processor is used for respectively and correspondingly adjusting the first parameter and the second parameter of the camera according to the first control signal and the second control signal.

2. The electronic device according to claim 1, wherein the first parameter and the second parameter are any two of a focal length parameter, a sensitivity parameter, an exposure parameter, and a white balance parameter.

3. The electronic device according to claim 2, wherein when the operation switch receives a pressing operation and a sliding operation in the length direction of the side edge at the control area, the processor determines the pressing operation as a first control signal and the processor determines the sliding operation as a second control signal.

4. The electronic device according to claim 3, wherein the housing includes a plurality of sides, and the operation switch includes a first operation switch and a second operation switch, and the first operation switch and the second operation switch are provided on the same side or different sides;

when the first operating switch receives a pressing operation or a sliding operation along the length direction of the side edge in the control area, the first operating switch determines the pressing operation or the sliding operation as a first control signal, and meanwhile, the second operating switch receives a pressing operation or a sliding operation along the length direction of the side edge in the control area, and the second operating switch determines the pressing operation or the sliding operation as a second control signal.

5. The electronic device of claim 1, wherein the control signal further comprises a third control signal, and the processor controls the camera to take a picture after adjusting the first parameter and the second parameter of the camera according to the third control signal.

6. The electronic device of claim 1, wherein the side is further provided with a feedback area for displaying an adjustment progress when the processor adjusts the first parameter and the second parameter of the camera according to the control signal.

7. The camera adjusting method is applied to electronic equipment and is characterized in that the electronic equipment comprises a shell, a camera, an operating switch and a processor; the casing includes the side, the side is provided with the control area, the camera set up in the casing, operating switch sets up the control area internal surface, operating switch is used for receiving control signal, control signal includes first control signal and second control signal, and is specific, operating switch includes pressure sensor and ultrasonic sensor, pressure sensor with ultrasonic sensor is adjacent to be set up in the casing, first control signal confirms according to the pressing force degree that pressure sensor received, the second control signal confirms according to the pressing position that ultrasonic sensor received, camera, operating switch all with treater electric connection, the adjustment method of camera includes:

receiving a first control signal by the pressure sensor and a second control signal by the ultrasonic sensor;

and respectively adjusting a first parameter and a second parameter of the camera according to the first control signal and the second control signal.

8. The method for adjusting the camera according to claim 7, wherein the simultaneously and correspondingly adjusting the first parameter and the second parameter of the camera according to the first control signal and the second control signal comprises:

and adjusting a first parameter of the camera according to the first control signal, and adjusting a second parameter of the camera according to the second control signal, wherein the first parameter and the second parameter are any two parameters of a focal length parameter, a sensitivity parameter, an exposure parameter and a white balance parameter.

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