CN111007978B - Electronic equipment - Google Patents

Abstract

The embodiment of the application provides electronic equipment, which comprises a shell, an operation switch and a processor, wherein the shell comprises side edges positioned at the periphery of the shell; the operation switch is arranged on the side edge and is used for detecting touch operation of the side edge; the processor is electrically connected with the operation switch, and the processor is used for: acquiring touch operation detected by the operation switch at the side edge; and capturing a dynamic picture or a static picture of the video played by the electronic equipment according to the touch operation. The embodiment of the application is convenient for a user to capture the video played by the electronic equipment.

Description

Electronic equipment

Technical Field

The present disclosure relates to the field of electronic technologies, and in particular, to an electronic device.

Background

With the development of communication technology, electronic devices such as smartphones are becoming more popular. In the use process of the electronic equipment, the electronic equipment can control the display screen to display pictures through the main board, the electronic equipment can control the camera to acquire images through the touch display screen, and the electronic equipment can also realize the control of various functions of the electronic equipment through the key switch.

Disclosure of Invention

The embodiment of the application provides electronic equipment, which is convenient for a user to capture the video played by the electronic equipment.

The embodiment of the application discloses electronic equipment, which comprises:

a housing including sides at a periphery of the housing;

the operation switch is arranged on the side edge and is used for detecting touch operation of the side edge; and

the processor is electrically connected with the operation switch and is used for:

acquiring touch operation detected by the operation switch at the side edge;

and capturing a dynamic picture or a static picture of the video played by the electronic equipment according to the touch operation.

In the embodiment of the application, when the operation switch detects that the side edge has touch operation, the processor of the electronic device can intercept a dynamic picture or a static picture of the video played by the electronic device according to the touch operation, so that a user can conveniently capture the video played by the electronic device.

Drawings

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

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

Fig. 2 is a partial schematic view of the electronic device shown in fig. 1.

Fig. 3 is a schematic structural view of an operation switch in the electronic device shown in fig. 1.

Fig. 4 is a laminated structure diagram of the operation switch according to the embodiment of the present application.

Fig. 5 is a partial perspective view of a housing in the electronic device shown in fig. 1.

Fig. 6 is a partial front view of a housing in the electronic device shown in fig. 1.

Fig. 7 is a sectional view of a partial structure of the electronic device shown in fig. 4 along the P-P direction.

Fig. 8 is a block diagram of an electronic device provided in an 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 application. An electronic device such as electronic device 20 of fig. 1 may include a housing such as housing 200 and an operating switch such as operating switch 400, the operating switch 400 may be disposed on the housing 200.

The electronic device 20 may be a computing device such as a laptop computer, a computer monitor including an embedded computer, a tablet computer, a cellular telephone, a media player, or other handheld or portable electronic device, a smaller device (such as a wristwatch device, a hanging device, a headset or earpiece device, a device embedded in glasses or other device worn on the head of a user, or other wearable or miniature device), a television, a computer display not including 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 implementing the functionality of two or more of these devices, or other electronic device. 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 electronic device 20 if desired. The example of fig. 1 is merely exemplary.

The housing 200 may carry a display screen, a circuit board, a battery, etc., of the electronic device 20. The housing 200 may be formed of 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 200 may be formed using a unitary configuration in which some or all of the housing 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 forming an outer housing surface, etc.). The housing 200 may provide a receiving cavity to receive components of the electronic device 20 such as a battery, a circuit board, and the like.

The housing 200 may have a plurality of sides 220, and the plurality of sides 220 of the housing 200 are located at the periphery of the housing 200. The respective lengths of the sides 220 of the housing 200 may or may not be the same. Such as the housing 200 may have a first side edge of longer length and a second side edge of shorter length, i.e., the length of the first side edge is greater than the length of the second side edge. The first side edges may be two, the second side edges may be two, and the two first side edges may be connected between the two second side edges.

Devices of the electronic device 20, such as the operating switch 400, may be disposed on one or more of the sides 220 of the housing 200, such as the one or more operating switches 400 of the electronic device 20 being disposed on one of the longer sides 220 of the housing 200. Of course, one or more operation switches 400 of the electronic device 20 may be provided on one of the lateral sides 220 of the opposite end of the housing 200. For another example: one or more operation switches 400 are provided on each longer side 220 of the housing 200. Of course, one or more operating switches 400 may be provided on each shorter side 220 of the housing 200.

It is understood that the operating switch 400 may be disposed on any one side 220 or any plurality of sides 220 when the lengths of the sides 220 are the same. It is also understood that the operation switch 400 may be disposed at a connection position of the two connected sides 220 or at a corner position of the housing 200. The operation switch 400 may be disposed at a predetermined position of the side 220, or the operation switch 400 may be disposed at a portion of the side 220, or all positions of the side 220 may be arranged with the operation switch 400.

It should be noted that, the operation switch 400 in the embodiment of the present application may be set according to actual requirements.

Referring to fig. 2, fig. 2 is a partial schematic diagram of the electronic device shown in fig. 1. The operation switch 400 may be provided on the side 220 to facilitate user operation. The operation switch 400 may be a sensor switch. Such as the operation switch 400 being provided inside the side 220, the control operation of the operation switch 400 is achieved through the side 220.

Referring to fig. 3, fig. 3 is a schematic structural diagram of an operation switch in the electronic device shown in fig. 1. The operation switch 400 may be connected to the connection part 800, the connection part 800 may also be connected to the connector 300, and the connector 300 may be connected to the circuit board of the electronic device 20. The operation switch 400 can be electrically connected with the circuit board of the electronic device 20 through the connection portion 800 and the connector 300, so as to facilitate signal transmission, and further facilitate the user to control the operation switch 400 to control the functions of the electronic device 20. Such as volume function, power on/off function, off-screen function, on-screen function, photo function, screenshot function, reading interface page-turning function, etc., of the electronic device 20 may be controlled by the operation 400.

Referring to fig. 4, fig. 4 is a laminated structure diagram of an operation switch according to an embodiment of the present application. The operation switch 400 may include a first flexible circuit board 420, a second flexible circuit board 440, a pressure detector 460, and a reinforcement block 280.

The first flexible circuit board 420 and the second flexible circuit board 440 both serve as carriers for the pressure detector 460. The first flexible circuit board 420 and the second flexible circuit board 440 may each arrange the circuits of the pressure detector 460. The first flexible circuit board 420 and the second flexible circuit board 440 are disposed at a distance from each other, one or more reinforcing blocks 480 are disposed between the first flexible circuit board 420 and the second flexible circuit board 440, and the reinforcing blocks 480 may space the first flexible circuit board 420 and the second flexible circuit board 440 apart. When the reinforcing blocks 480 are plural, the plural reinforcing blocks 480 are disposed at intervals from each other, and the adjacent two reinforcing blocks 480 may form the gap 410. The reinforcing block 480 may be made of a metal material, and the reinforcing block 480 may increase the strength of the operation switch 400 so that the operation switch 400 is mounted and fixed on the side 220.

The pressure detector 260 may include a first detection portion 262 and a second detection portion 264, the first detection portion 262 may be disposed on the first flexible circuit board 420, and the second detection portion 264 may be disposed on the second flexible circuit board 440. The pressure detector 260 may be one or more, such as a plurality of first detecting portions 262 spaced apart on the first flexible circuit board 420 and a plurality of second detecting portions 264 spaced apart on the second flexible circuit board 440. One of the first detecting portions 262 and one of the second detecting portions 264 are disposed correspondingly, such as one of the first detecting portions 262 and one of the second detecting portions 264 being disposed on both sides of one of the gaps 210. When the side 220 receives pressure at the position where the operation switch 400 is disposed, the gap 210 facilitates deformation of the first detecting portion 262 and the second detecting portion 264, and thus detection of the pressing operation can be achieved according to the deformation amount, such as the pressing force can be detected, and the single pressing operation, the long pressing operation, the sliding operation, etc. can be determined according to the pressing force. And thus can control the corresponding functions of the electronic device 20 according to different operations.

The operation switch 400 is not limited to the pressure detector, and may include a plurality of ultrasonic detectors. A plurality of ultrasonic detectors may be provided at intervals, and the plurality of ultrasonic detectors may improve the accuracy of detecting a sliding operation by the operation switch 400. Of course, it is also possible to realize detection of the sliding operation according to the ultrasonic detector.

Wherein the connection part 800 may be made of a flexible material, such as the connection part 800 may be integrally provided with the first flexible circuit board 420.

The present embodiment may provide the operation switch 400 on the inner surface of the side 220. However, the electronic device 20 is often provided with various devices inside, such as the electronic device 20 may further include a circuit board 600, and the inner surface of the side 220 may be adjacent to the circuit board 600, and the operation switch 400 may be disposed closer to the devices of the electronic device 20, which is not easy to be mounted, and is easy to be affected by each other. Of course, 600 shown in FIG. 1 may also be a battery of electronic device 20. Therefore, in the embodiment of the present application, a blocking structure such as a blocking plate 228 is further disposed between the operation switch 400 and the interior of the electronic device 20, and the blocking plate 228 can separate the devices inside the electronic device 20 from the operation switch 400, so that not only the devices such as a battery and a circuit board of the electronic device 20 are conveniently mounted in the direction of the inner surface of the side 220, but also the operation switch 400 is conveniently mounted, and the influence between the operation switch 400 and other devices of the electronic device 20 is avoided.

Referring to fig. 5 and 6, fig. 5 is a partial perspective view of a housing in the electronic device shown in fig. 1, and fig. 6 is a partial front view of the housing in the electronic device shown in fig. 1. Fig. 5 and 6 mainly show a partial structure of one of the sides of the case 200. The side 220 may be provided with a receiving groove 226, where the receiving groove 226 is formed along a thickness direction of the electronic device 20, for example, an opening of the receiving groove 226 faces a direction of a display screen of the electronic device 20, and an opening of the receiving groove 226 may face an opposite direction of the display screen of the electronic device 20.

Referring to fig. 7, fig. 7 is a cross-sectional view of a partial structure of the electronic device shown in fig. 4 along the P-P direction. The side 220 may have a baffle 228 and a spacer 224 at the location of the receiving slot 226, the baffle 228 being located on one side of the receiving slot 226, the spacer 224 being located on the other side of the receiving slot 226, the baffle 228 and the spacer 224 being located on opposite sides of the receiving slot 226. The baffle 228 is located on the inner surface of the side 220, or one side of the baffle 228 is a side wall of the receiving slot 226, and the other side of the baffle 228 is a portion of the inner surface of the side 220. The outer surface of the spacer 224 may be a portion of the outer surface of the side edge 220.

The side 220 may be made of plastic or metal. If the side 220 is made of metal, the strength of the side 220 is high, and the side is not easy to deform when receiving the acting force. If the side 220 is made of plastic material, the strength of the side 220 is weak, and the side is easy to deform when receiving the force, and the deformation amount is large. Therefore, if the operation switch 400 is provided on the side 220 of the plastic material, the strength of the side 220 is insufficient, and the side 220 of the plastic material is not protected as a whole from the electronic device 20. If the operation switch 400 is disposed on the side 220 of the metal material, the strength of the side 220 is too high, so that the side 220 is not easy to deform when the user presses the side 220, and the operation switch 400 is affected to receive the signal of pressure operation.

The side 220 of the embodiment of the present application includes two parts fixedly connected to each other, such as a plastic part 221 made of plastic material and a metal part 223 made of metal material. The plastic part 221 may serve as a main structure of the side 220, the metal part 223 may serve as an auxiliary structure of the side 220, and the metal part 223 may be disposed on an outer surface of the plastic part 221. Such as the metal part 223 is disposed on a portion of the outer surface of the plastic part 221 while exposing a portion of the outer surface of the plastic part 221 to the outside to form a step structure 225 between the plastic part 221 and the metal part 223. The step structure 225 may be positioned to place a flexible screen of the electronic device 20. The metal part 223 may be provided with a flange 2232 at an edge position of the step structure 225, and the flange 2232 may play a limiting role on the flexible screen placed at the position of the step structure 225.

Therefore, the plastic portion 221 made of plastic material is used as the main structure of the side 220 in the embodiment of the application, so that the side 220 is convenient to deform when receiving the acting force, and the metal portion 223 made of metal material is used as the auxiliary structure of the side 220 in the embodiment of the application, so that the overall strength of the side 220 can be increased, and a certain protection effect is achieved on the internal devices of the electronic equipment 20. Therefore, the embodiment of the present application also facilitates the deformation of the side 220 when receiving the acting force under the condition that the side 220 is guaranteed to have a certain strength, so as to facilitate the operation of the switch 400 to detect the corresponding signal.

The plastic part 221 and the metal part 223 may be fixed by adhesive bonding, or may be fixedly connected by other manners. A detent structure or a screw structure may be provided between the plastic part 221 and the metal part 223 to fix the two together, or to increase the fixation firmness of the two. Such as plastic portion 221 provided with ribs 2212 and metal portion 223 provided with detents into which ribs 2212 are placed. Wherein the ribs 2212 and the slots may be located at the step structure 225.

Wherein, the receiving groove 226 is formed on the plastic part 221, and the baffle 228 is formed of a plastic material. The spacer 224 may include a portion of the plastic part 221 and a portion of the metal part 223, such as the spacer 224 includes a plastic spacer and a metal spacer with a step structure 225 formed therebetween. The outer surfaces of the spacer 224 include the outer surface of the metal spacer and a portion of the outer surface of the plastic spacer that is not obscured by the metal spacer. The inner surface of the spacer 224 is the inner surface of a plastic spacer. It is also understood that the second wall of the spacer 224 is the inner surface of a plastic spacer.

It should be noted that, if the same material is used for the partition plates 224, such as a plastic material or a metal material, the inner surface of the partition plates 224 is an inner sidewall of the receiving groove 226, and the outer surface of the partition plates 224 may be the outer surface of the side 220.

The operating switch 400 may be provided on the inner surface of the partition plate 224, or on the second wall of the partition plate 224. When the side 220 receives the pressing force at the position of the accommodating groove 226, the partition plate 224 and the operation switch 400 thereon will deform together, and the operation switch 400 can detect the corresponding operation according to the deformation amount, and further transmit the operation signal to the processor of the electronic device 20, and the processor of the electronic device 20 controls the corresponding function of the electronic device 20 according to the received signal.

It should be noted that, in order to maintain the side edge 220 with a certain strength, it is often necessary to maintain the side edge 220 with a certain thickness. But will affect the amount of deformation that occurs when the side 220 receives a force. Based on this, other slot structures may be formed on the side 220 to facilitate deformation of the side 220.

In some embodiments, the side 220 may be provided with a through hole 227 communicating with the receiving groove 226 at the bottom of the receiving groove 226. Thus, the side 220 penetrates the side 220 in the up-down direction of the position of the receiving groove 226, and the deformation of the side 220 at the position of the receiving groove 226 is improved. The length of the through hole 227 may be substantially equal to the length of the receiving groove 226, the length of the through hole 227 is the distance of the through hole 227 along the length direction of the side 220, and the length of the receiving groove 226 is the distance of the receiving groove 226 along the length direction of the side 220.

If the length of the receiving groove 226 is large, that is, if the length of the through hole 227 is large, one or more barrier portions may be provided in the through hole 227 to space the through hole 227 into at least two sub-holes. Such as the present embodiment, one barrier 2276 is disposed within the through hole 227, the barrier 2276 spacing the through hole 227 apart to form two sub-holes, a first sub-hole 2272 and a second sub-hole 2274. The barrier 2276 may be located at an intermediate position of the through hole 227 such that the first and second sub-holes 2272 and 2274 are substantially equal in shape. The barrier 2276 may also increase the strength of the side 220 to some extent in cases where the side 220 is more easily deformed.

In some embodiments, the outer surface of the side 220 is provided with a groove 222, the position of the groove 222 is opposite to the position of the receiving groove 226, the bottom of the groove 222 is one wall of the partition 224, such as a first wall, and the first wall and the second wall of the partition 224 are opposite to each other. The grooves 222 can reduce the thickness of the metal portion 223, so that the metal portion 223 is easily deformed when being subjected to pressure. In addition, the grooves 222 are located on the outer surface of the side 220, and can also serve as a marking function, so that a user can determine the specific position of the operation switch 400, and the user can conveniently control the operation switch.

The length of the groove 222 may be substantially equal to the length of the operation switch 400, and the length of the groove 222 is a distance between the groove 222 along the length direction of the side 220. The width of the groove 222 is smaller than the width of the operation switch 400, and the width of the groove 222 is the distance of the groove 222 along the width direction of the side 222. At least one spacer may be disposed within the groove 222 to space the groove 222 apart to form at least two subslots. Such as one spacer 2226 disposed within the groove 222, the spacer 2226 may space the groove 222 to form two sub-grooves, a first sub-groove 2222 and a second sub-groove 2224. The spacer 2226 may be located at a middle position of the groove 222 such that the shapes of the first sub groove 2222 and the second sub groove 2224 are substantially equal. The spacer 2226 serves to increase the strength of the side 220 to some extent in the event that the side 220 is more readily deformed.

Wherein the outer surface of the spacer 226 may be flush with the outer surface of the side 220.

The operating switch 400 may be adhered to the inner surface of the spacer 224 by the adhesive layer 100. The adhesive layer 100 may be a sensitive adhesive, and the operation switch 400 may be positioned on an assembly jig, assembled into the receiving groove 226, and bonded to a side wall of the receiving groove 226 through the pressure sensitive adhesive 100, and then the jig is pressed to activate the adhesive.

In some embodiments, when the side 220 is formed with the grooves 222 and the through holes 227, the lengths of the grooves 222 and the through holes 227 may be substantially equal. The number of the spacers 2226 and the number of the spacers 2276 may be equal, and the positions of the spacers 2226 and the spacers 2276 may correspond to each other, or the positions of one sub-hole and one sub-slot may correspond to each other.

The baffle 228 may be provided with a notch 2282 in communication with the accommodating groove 226, and a portion of the connecting portion 800 may be disposed in the notch 2282, such as the connecting portion 288 is provided with a bending structure 820, and the bending structure 820 is disposed in the notch 2282, so that the connector 300 disposed at one end of the connecting portion 800 is electrically connected to the circuit board of the electronic device 20.

The processor of the electronic device 20 may be integrated on a circuit board of the electronic device 20, and the processor of the electronic device 20 may acquire a touch operation detected by the operation switch 400 at the groove position, so as to control the functions of the electronic device 20 according to the acquired touch operation.

In order to further describe the function of the present application for controlling the electronic device according to the touch operation detected by the operation switch, the following description is made from the point of view of the control method.

Referring to fig. 8, fig. 8 is a block diagram of an electronic device according to an embodiment of the present application. The electronic device 20 also includes a processor 620, a memory 640, and a display 100.

The memory 640 may be used to store computer programs and data, such as to store data to be transmitted, which may be touch operation data, audio data, address book data, or other data. The memory 640 stores computer programs that include instructions executable in the processor 620. The computer program may constitute various functional modules.

The processor 620 is a control center of the electronic device 20, connects various parts of the entire electronic device 20 using various interfaces and lines, and performs various functions of the electronic device 20 and processes data by running or calling computer programs stored in the memory 640 and calling data stored in the memory 640, thereby performing overall monitoring of the electronic device 20. Such as the processor 620, controls the display 100 of the electronic device 20 to display a picture, such as the processor 620 controlling the operation switch 400 of the electronic device 20 to perform detection of a touch operation.

The display 100 may display a picture, such as text, on a reading interface. The display screen 100 may be a touch screen display that incorporates 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. The capacitive touch screen electrode may be formed from an array of indium tin oxide pads or other transparent conductive structures. Display screen 100 may include a display pixel array formed from Liquid Crystal Display (LCD) components, an electrophoretic display pixel array, a plasma display pixel array, an organic light emitting diode display pixel array, an electrowetting display pixel array, or display pixels based on other display technologies.

The display 100 of the electronic device 20 may activate the operation switch 400 when playing video, so that the operation switch 400 is in an operating state. When the operation switch 400 detects a touch operation at the side 220, the operation switch 400 may transmit the touch operation detected thereto to the processor 620 or be acquired from the operation switch 400 by the processor 620. The processor 620 may intercept a still or moving picture of the video played by the electronic device 20 or the video played by the display 100 according to the touch operation.

The touch operation may be a single click operation, a double click operation, a long press operation, or a slide operation. The single click operation is to operate the switch 400 to detect one pressing operation at the side 220 within a preset time, the double click operation is to operate the switch 400 to detect two pressing operations at the side 220 within a preset time, the long press operation is to operate the switch 400 to detect a continuous pressing operation at the side 220 within a preset time, and the sliding operation may be an operation to operate the switch 400 to detect a change in pressing position at the side 220 within a preset time.

The processor 620 may intercept a still picture or a moving picture of the video played by the display 100 according to a single click operation, the processor 620 may intercept a still picture or a moving picture of the video played by the display 100 according to a double click operation, the processor 620 may intercept a still picture or a moving picture of the video played by the display 100 according to a long press operation, and the processor 620 may intercept a still picture or a moving picture of the video played by the display 100 according to a sliding operation.

In some embodiments, the processor 620 may intercept a still picture of the video played by the display screen 100 according to a single click operation, and the processor 620 may intercept a moving picture of the video played by the display screen 100 according to one of a double click operation, a long press operation, and a sliding operation. In another embodiment, the processor 620 may intercept a still picture of the video played by the display screen 100 according to a double-click operation, and the processor 620 may intercept a moving picture of the video played by the display screen 100 according to one of a single-click operation, a long-press operation, and a sliding operation. In another embodiment, the processor 620 may intercept a still picture of the video played by the display screen 100 according to a long press operation, and the processor 620 may intercept a moving picture of the video played by the display screen 100 according to one of a single click operation, a double click operation, and a sliding operation. In another embodiment, the processor 620 may intercept a still picture of the video played by the display screen 100 according to a sliding operation, and the processor 620 may intercept a moving picture of the video played by the display screen 100 according to one of a single click operation, a double click operation, and a long click operation.

It should be noted that, the processor 620 may also intercept still or moving pictures of the video played by the display screen 100 according to sliding operations in different directions.

The sliding operation may include a sliding operation along a length direction of the side 220, and the processor 620 may intercept a still picture or a moving picture of the display 100 playing the video according to the sliding operation along the length direction of the side 220. Such as the processor 620 intercepting a moving picture of the video played by the display 100 according to a sliding operation along the length of the side 220 and from the first end of the electronic device 20 toward the second end of the electronic device 20; and the processor 620 intercepts a still picture of the video played by the display screen 100 according to a sliding operation along the length of the side 220 and from the second end of the electronic device 20 toward the first end of the electronic device 20. The first end of the electronic device 20 may be disposed opposite the second end of the electronic device 20, such as the first end may be a top end of the electronic device 20 and the second end may be a bottom end of the electronic device 20.

The sliding operation may include a sliding operation along a width direction of the side 220, and the processor 620 may intercept a still picture or a moving picture of the video played by the display screen 100 according to the sliding operation along the width direction of the side 220. Such as the processor 620 intercepting a moving picture of the display screen 100 playing video according to a sliding operation along the width direction of the side 220 and from the display surface of the electronic device 20 toward the non-display surface direction of the electronic device 20; and the processor 620 intercepts a still picture of the video played by the display screen 100 according to a sliding operation along the width direction of the side 220 and from the non-display surface of the electronic device 20 toward the display surface of the electronic device 20. In other embodiments, the processor 620 intercepts a moving picture of the video played by the display 100 according to a sliding operation along the width direction of the side 220 and from the non-display surface of the electronic device 20 toward the display surface of the electronic device 20; and the processor 620 intercepts a still picture of the video played by the display screen 100 according to a sliding operation along the width direction of the side 220 and from the display surface of the electronic device 20 toward the non-display surface direction of the electronic device 20.

The processor 620 may also intercept a moving picture of the video played by the display screen 100 according to a sliding operation along the length direction of the side 220, and the processor 620 intercepts a still picture of the video played by the display screen 100 according to a sliding operation along the width direction of the side 220. The processor 620 may also intercept a moving picture of the video played by the display screen 100 according to a sliding operation along the width direction of the side 220, and the processor 620 intercepts a still picture of the video played by the display screen 100 according to a sliding operation along the length direction of the side 220.

In the embodiment of the present application, after performing a screenshot operation on a video played on the display screen 100 based on a touch operation to obtain a still picture or a moving picture, the still picture or the moving picture may be saved or shared. When the operation switch 400 detects the first touch operation, the processor 620 intercepts a still picture or a moving picture of the video played by the display screen 100 according to the first touch operation; when the operation switch 400 detects the second touch operation, the processor 620 saves or shares the still picture or the moving picture according to the second touch operation. The first touch operation and the second touch operation are different, such as the first touch operation is a sliding operation, and the second touch operation may be one of a single click operation, a double click operation, and a long press operation.

The electronic device provided by the embodiment of the application is described in detail above. Specific examples are set forth herein to illustrate the principles and embodiments of the present application, with the description of the examples given above only to assist in understanding the present application. Meanwhile, those skilled in the art will have variations in the specific embodiments and application scope in light of the ideas of the present application, and the present description should not be construed as limiting the present application in view of the above.

Claims (11)

1. An electronic device, comprising:

a housing including sides at a periphery of the housing;

the operation switch is arranged on the side edge and is used for detecting touch operation of the side edge; wherein the side edge comprises a plastic part and a metal part which are fixedly connected with each other; the metal part is arranged on a part of the outer surface of the plastic part, and a part of the outer surface of the plastic part is exposed to the outside so as to form a step structure between the plastic part and the metal part; the flexible screen of the electronic equipment is placed at the step structure position; the metal part is provided with a convex edge at the edge position of the step structure, and the convex edge plays a limiting role on the flexible screen placed at the position of the step structure; and

the processor is electrically connected with the operation switch and is used for:

acquiring touch operation detected by the operation switch at the side edge;

intercepting a dynamic picture or a static picture of the video played by the electronic equipment according to the touch operation, wherein the method comprises the following steps: intercepting a dynamic picture of the video played by the electronic equipment according to the sliding operation along the length direction of the side edge; and intercepting a still picture of the video played by the electronic equipment according to the sliding operation along the width direction of the side edge.

2. The electronic device of claim 1, wherein the touch operation comprises a sliding operation along the side length direction;

the processor is further configured to:

and capturing a dynamic picture or a static picture of the video played by the electronic equipment according to the sliding operation along the length direction of the side edge.

3. The electronic device of claim 2, wherein the processor is further configured to:

intercepting a dynamic picture of video played by the electronic equipment according to a sliding operation along the length direction of the side edge and from the first end of the electronic equipment to the second end of the electronic equipment;

and intercepting a still picture of the video played by the electronic equipment according to a sliding operation along the length direction of the side edge and from the second end of the electronic equipment to the first end of the electronic equipment.

4. The electronic device according to claim 1, wherein the touch operation includes a sliding operation in the side width direction;

the processor is further configured to:

and capturing a dynamic picture or a static picture of the video played by the electronic equipment according to the sliding operation along the lateral width direction.

5. The electronic device of claim 4, wherein the processor is further configured to:

intercepting a dynamic picture of a video played by the electronic equipment according to a sliding operation along the width direction of the side edge and from the display surface of the electronic equipment to the non-display surface direction of the electronic equipment;

and intercepting a still picture of the video played by the electronic equipment according to a sliding operation along the width direction of the side edge and from the non-display surface of the electronic equipment to the display surface direction of the electronic equipment.

6. The electronic device of claim 1, wherein the touch operation comprises one or both of a single click operation, a double click operation, and a long press operation.

7. The electronic device of claim 1, wherein the processor is further configured to:

intercepting a still picture or a moving picture of the video played by the electronic equipment according to a first touch operation;

and sharing or storing the static picture or the dynamic picture according to the second touch operation.

8. The electronic device of any one of claims 1 to 7, wherein the outer surface of the side edge is provided with a groove, the side edge comprises a partition plate positioned at the bottom of the groove, the partition plate has a first wall and a second wall which are oppositely arranged, the first wall is a bottom wall of the groove, and the operation switch is arranged on the second wall of the partition plate.

9. The electronic device of claim 8, wherein the side edge is provided with a receiving groove, the operation switch is disposed in the receiving groove, the receiving groove and the groove are separated by the partition plate, the side edge includes a baffle plate disposed at one side of the receiving groove, the baffle plate and the partition plate are disposed opposite to each other, and the baffle plate is disposed at an inner surface of the side edge.

10. The electronic device of claim 9, wherein the side edge is provided with a through hole communicating with the receiving groove at a bottom of the receiving groove.

11. The electronic device of claim 9, wherein the side edge comprises a metal portion and a plastic portion fixedly connected to each other, the recess is provided in the metal portion, the receiving groove is provided in the plastic portion, and the metal portion is provided outside the plastic portion.