CN111356386B - Intelligent photo frame and intelligent photo frame display method - Google Patents

Abstract

The application discloses intelligence photo holder frame, including framework, the variable apron of control module and definition, be provided with opening and portion of acceping in the framework, the variable apron of definition sets up in the portion of acceping and show outward through the opening, the portion of acceping is located the variable apron of definition deviates from one side of opening is used for acceping a stamp-printed photo, control module with the variable apron electric connection of definition, control module control is applyed the voltage of the variable apron of definition, in order to control the definition of the variable apron of definition, and the change is followed the opening is watched the visual effect of stamp-printed photo. The application also discloses an intelligent photo frame display method. This application passes through control module control changes and is applyed the voltage of the variable apron of definition is in order to control the definition of the variable apron of definition to the change sees through the variable apron of definition the visual effect of photographic print, user experience is better.

Description

Intelligent photo frame and intelligent photo frame display method

Technical Field

The application relates to the field of electronic frames, in particular to an intelligent photo frame and an intelligent photo frame display method.

Background

In the prior art, a digital frame is provided with an electronic display screen, and a photo is displayed in a self-storage function, an external memory or a mobile phone wireless transmission mode and the like. The traditional frame body is made of wood, metal or plastic and is used for placing a developing photo. However, the precision of the digital frame is far less than that of the traditional photo-printing, and the traditional frame cannot bring interactive operation to the user and cannot bring better experience to the user compared with the digital frame.

Disclosure of Invention

The embodiment of the application discloses an intelligent photo frame and an intelligent photo frame display method, and aims to solve the problems.

The embodiment of the application discloses intelligence photo holder frame, including framework, control module and the variable apron of definition, be provided with opening and portion of acceping in the framework, the variable apron of definition sets up expose outside in the portion of acceping and through the opening, the portion of acceping is located the variable apron of definition deviates from one side of opening is used for acceping a stamp photo, control module with the variable apron electric connection of definition, control module control is applyed the voltage of the variable apron of definition, in order to control the definition of the variable apron of definition, and the change is followed the opening is watched the visual effect of stamp photo.

The embodiment of the application discloses an intelligent photo frame display method, which is applied to an intelligent photo frame, wherein the intelligent photo frame comprises a frame body and a variable definition cover plate, the variable definition cover plate is arranged in the frame body, and the intelligent photo frame display method comprises the following steps: controlling a voltage applied to the variable-definition cover plate to control a definition of the variable-definition cover plate, thereby changing a visual effect of viewing a print photograph mounted on the frame through the variable-definition cover plate.

The application passes through control module control changes and is applyed the voltage of the variable apron of definition is in order to control the definition of the variable apron of definition to and the change sees through the variable apron of definition watches the visual effect of photographic printing has better user experience.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic block diagram of an intelligent photo frame in a first embodiment of the present application.

Fig. 2 is a schematic structural diagram of an intelligent photo frame in the first embodiment of the present application.

Fig. 3 is a schematic view of the smart photo frame shown in fig. 2 disassembled in a direction in the first embodiment of the present application.

Fig. 4 is a schematic view of a display effect of the smart photo frame shown in fig. 2 according to an embodiment of the present application.

Fig. 5 is a schematic block diagram of an intelligent photo frame in a second embodiment of the present application.

Fig. 6 is a schematic block diagram of an intelligent photo frame in a third embodiment of the present application.

Fig. 7 is a flowchart illustrating a method for displaying an intelligent photo frame in a fourth embodiment of the present application.

Fig. 8 is a flowchart illustrating a method for displaying an intelligent photo frame in a fifth embodiment of the present application.

Fig. 9 is a flowchart illustrating a method for displaying an intelligent photo frame in a sixth embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1, fig. 2 and fig. 3, fig. 1 is a schematic block diagram of an intelligent photo frame 100 in a first embodiment of the present application, fig. 2 is a schematic structural diagram of the intelligent photo frame 100 in the first embodiment of the present application, and fig. 3 is a schematic disassembly diagram of the intelligent photo frame 100 shown in fig. 2 in a direction in the first embodiment of the present application. The smart photo frame 100 includes a frame body 10, a power source 40, a control module 50, a memory 60, and a variable-definition cover 70. The frame body 10 is a frame body of a conventional photo frame, and may be made of wood, metal material, or the like. The frame 10 is provided with an opening 11 and a housing portion 13. The opening 11 and the housing 13 are provided to communicate with each other. The size of the opening 11 is smaller than the size of the housing 13. The storage portion 13 is approximately the same size as the print 30 stored in the storage portion 13. The size of the housing portion 13 is also substantially equal to the size of the variable-definition cover 70. The variable-sharpness cover 70 is electrochromic glass, privacy glass, or other cover having an electro-transparency function. The variable-resolution cover 70 is provided in the housing portion 13 and exposed to the outside through the opening 11. The receiving portion 13 is located on a side of the variable-resolution cover 70 away from the opening 11 and can receive a print 30. The power supply 40 supplies power to the smart photo frame 100. The power source 40 is electrically connected to the control module 50. The control module 50 may be a circuit board including a microcontroller circuit, and may be disposed at any feasible location of the frame 10. The control module 50 is electrically connected to the memory 60 and the variable-resolution cover 70, respectively. The control module 50 controls the voltage applied to the variable-definition cover 70 to control the definition of the variable-definition cover 70 and to change the visual effect of viewing the developed photograph 30 from the opening 11.

Optionally, in an embodiment, the photo 30 is also snap-fitted by a snap structure provided on a side of the frame 10 facing away from the opening 11.

Alternatively, the control module 50 gradually decreases the voltage applied to the variable-definition cover 70 over time when no operation is received to decrease the definition of the variable-definition cover 70.

Further, after the variable-definition cover 70 is displayed at the highest or higher definition for the preset time period T1, the control module 50 will control the voltage applied to the variable-definition cover 70 to be gradually decreased until it is decreased to the lowest level, so as to gradually decrease the definition of the variable-definition cover 70 until it is decreased to the lowest level, for example, as shown in fig. 4, since the definition of the variable-definition cover 70 has been decreased, the person on the print 30 cannot be clearly seen through the variable-definition cover 70.

Alternatively, in this embodiment, "step-down" refers to decreasing the resolution by one level every time a preset time elapses, and the preset time may be 1 minute, 10 minutes, 1 hour, and the like, which is not limited herein. It is understood that in another embodiment, "step-down" refers to a linear decrease in sharpness over time.

In one embodiment, when the resolution of the resolution-changeable cover 70 is decreased, the resolution of the resolution-changeable cover 70 will be maximized when the smart photo frame 100 is awakened by pressing a display power key (not shown) of the smart photo frame 100.

It is understood that in another embodiment, when the power source 40 of the smart photo frame 100 is turned off and the power source 40 of the smart photo frame 100 is turned on again, the sharpness of the sharpness variable cover 70 may be maximized.

In the first embodiment of the present application, the control module 50 controls and changes the voltage applied to the variable-definition cover plate 70 to control the definition of the variable-definition cover plate 70, and changes the visual effect of watching the print photo 30 through the variable-definition cover plate 70, so as to have better user experience.

Referring to fig. 5, fig. 5 is a block diagram of an intelligent photo frame 100a in a second embodiment of the present application. In the second embodiment, the smart photo frame 100a is similar to the smart photo frame 100 of the first embodiment, except that the smart photo frame 100a further includes a touch panel 90. The touch panel 70 may specifically be a flexible touch panel including a flexible sensor, and is configured to detect a touch operation signal input by a user; other types of flexible or rigid touch sensors are also possible, such as infrared touch sensors, ultrasonic touch sensors, and the like. The touch panel 90 and the variable-resolution cover 70 may be substantially equal in size or unequal in size, as long as the size of the touch panel 90 is larger than the size of the opening 11. The touch panel 90 is electrically connected to the control module 50. The touch panel 90 is disposed in the accommodating portion 13 and adjacent to the opening 11. The variable-definition cover 70 is provided in the accommodating portion 13 and on a side of the touch panel 90 away from the opening portion 11. The print photo 30 is disposed in the storage portion 13 and on a side of the variable-resolution cover 70 facing away from the touch panel 90. The control module 50 also changes the sharpness of the sharpness variable cover 70 in response to a user's touch operation on the touch panel 90.

Alternatively, when the touch panel 90 does not receive any touch operation within the preset time period T1 in which the variable-definition cover 70 is displayed with the highest or higher definition, the control module 50 controls to gradually decrease the voltage applied to the variable-definition cover 70 to decrease the definition of the variable-definition cover 70. For example, when the touch panel 90 does not receive any touch operation for a preset time period T1, for example, 1 minute, the control module 50 controls to gradually decrease the voltage applied to the variable-definition cover 70 and thus decrease the definition of the variable-definition cover 70, for example, to 80%.

Alternatively, the touch panel 90 controls the voltage applied to the variable-definition cover 70 to be minimized by the control module 50 to minimize the definition of the variable-definition cover 70 if no touch operation is received within the preset time period T2 during the process of gradually decreasing the voltage applied to the variable-definition cover 70. Specifically, for example, if the control module 50 stops applying the voltage to the variable-definition cover 70 when the duration of time during which no touch operation is received reaches the preset time period T2, for example, 10 minutes, during the process of gradually decreasing the voltage applied to the variable-definition cover 70 by the touch panel 90, the definition of the variable-definition cover 70 is decreased to the minimum, for example, 20%.

Alternatively, when the resolution of the variable-resolution cover 70 is reduced, the touch panel 90 receives an external touch operation, and the control module 50 responds to the touch operation to increase the voltage applied to the variable-resolution cover 70, thereby improving the resolution of the variable-resolution cover 70. The touch operations 90 include, but are not limited to, clicking, sliding, and wiping back and forth on the touch panel 90. The "slide" refers to an operation in which a touch slide trajectory on the touch panel 90 does not overlap. "wipe back and forth" means that the trace of the touch slide on the touch panel 90 is repeated with a motion of folding back.

Alternatively, the control module 50 responds to one touch operation at a certain position of the touch panel 90 within a preset time period T3 to improve the definition of the variable-definition cover 70 at the corresponding position.

Alternatively, the control module 50 adjusts the resolution of the entire resolution variable cover 70 to the resolution corresponding to the number of touch operations in response to at least two touch operations within the preset time period T3 at the same position of the touch panel 90. For example, when the control module 50 responds to two touch operations within the preset time period T3 at the same position of the touch panel 90, the definition of the entire variable-definition cover 70 is adjusted to a definition corresponding to the two touch operations, such as 70%. The control module 50 adjusts the resolution of the entire resolution-variable cover 70 to the resolution corresponding to the three-touch operation, such as 100%, when the three-touch operation is performed at the same position of the touch panel 90 within the preset time period T3. It can be understood that the memory 60 stores the correspondence between the number of touch operations at the same position and the definition.

Alternatively, when the definition of the variable-definition cover 70 is not minimized, and the touch panel 90 receives at least two touch operations at the same position within the preset time period T3, the control module 50 calculates the number of touch operations required to adjust the current definition of the variable-definition cover 70 to the maximum definition according to the current definition of the variable-definition cover 70, and correspondingly adjusts the definition of the variable-definition cover 70 according to the number of touch operations actually received within the preset time period T3. For example, when the resolution of the resolution variable cover 70 is 40%, the number of touch operations required to adjust the current resolution of the resolution variable cover 70 to the highest resolution is calculated to be 3 times. When the resolution of the variable-resolution cover 70 is 60%, the number of touch operations required to adjust the current resolution of the variable-resolution cover 70 to the highest resolution is calculated to be 2. The adjustment of the variable-definition cover plate 70 under different definition conditions is realized by dynamically calculating the number of touch operations required to adjust the definition of the variable-definition cover plate 70 to the maximum.

Alternatively, when the definition of the variable-definition cover 70 is low, for example, lower than 30%, the control module 50 controls the touch panel 90 to respond to each touch operation by a larger amplitude of the corresponding definition adjustment when the touch panel 90 receives the touch operation within the preset time period T3.

Alternatively, when the definition of the variable-definition cover 70 is higher, for example, higher than 70%, the control module 50 controls the touch panel 90 to respond to each touch operation by a smaller amplitude of the definition adjustment when the touch panel 90 receives the touch operation within the preset time period T3.

Alternatively, the touch panel 90 senses a motion trace of the touch operation applied thereon, and the control module 50 adjusts the definition of the position of the corresponding motion trace of the variable-definition cover 70 according to the motion trace of the touch operation.

In the second embodiment of the present application, when the smart photo frame 100 is left for a period of time without any touch operation, the control module 50 controls the variable-definition cover plate 70 to gradually reduce the definition thereof over time, and the display effect of the developed photo 30 gradually becomes blurred. When the user sees that the print photos 30 in the smart photo frame 100 at home are blurred, the user takes the smart photo frame 100 and slides and wipes the smart photo frame with hands to clearly display the print photos 30. For example, the photo 30 is a photo of a group photo, and when the photo is blurred, a position is correspondingly made clear by rubbing the photo at a certain position. For another example, if the touch operation is continuously performed on any position of the photo for multiple times, the whole photo is clear, and better user experience is achieved.

Referring to fig. 6, fig. 6 is a schematic block diagram of an intelligent photo frame 100b in a third embodiment of the present application. In the third embodiment, the smart photo frame 100b is similar to the smart photo frame 100a of the second embodiment, except that the smart photo frame 100a further includes a pressure sensor 80. The pressure sensor 80 is disposed between the touch panel 90 and the variable-definition cover 70, and the pressure sensor 80 senses a pressure applied to the touch panel 90 and adjusts the definition of the variable-definition cover 70 according to the sensed pressure value. It is understood that the pressure sensor 80 is not limited to be disposed between the touch panel 90 and the variable-definition cover 70, and may be disposed at other positions where the pressure sensor senses the external pressure applied to the variable-definition cover 70. Specifically, the larger the touch pressure is, the larger the increase range of the sharpness of the variable-sharpness cover 70 is, and the smaller the touch pressure is, the smaller the increase range of the sharpness of the variable-sharpness cover 70 is.

Alternatively, the greater the pressure sensor 80 senses that the pressure is applied to a certain position of the touch panel 90, the greater the control module 50 controls to increase the definition of the variable-definition cover 70 at the corresponding position.

Alternatively, the control module 50 controls the sharpness of the entire sharpness variable cover 70 to be increased more largely when the pressure sensor 80 senses that the pressure applied to a certain position of the touch panel 90 is larger than the preset threshold.

In the third embodiment of the present application, the smart photo frame 100 senses the touch pressure on the touch panel 90 through the pressure sensor 80, and controls and adjusts the range of the definition of the variable-definition cover plate 70 according to the touch pressure, so as to provide better user experience for the user.

Referring to fig. 7, fig. 7 is a flowchart illustrating a method for displaying an intelligent photo frame according to a fourth embodiment of the present application. The smart photo frame display method is applied to the smart photo frame 100, and the execution sequence is not limited to the sequence shown in FIG. 7. The intelligent photo frame display method comprises the following steps:

step 710, providing an intelligent photo frame 100, wherein the intelligent photo frame 100 includes a frame body 10 and a variable-definition cover plate 70, and the variable-definition cover plate 70 is disposed in the frame body 10.

Step 720, the voltage applied to the variable-resolution cover plate 70 is controlled to control the resolution of the variable-resolution cover plate 70, so as to change the visual effect of viewing the print 30 mounted on the frame 10 through the variable-resolution cover plate 70.

Specifically, when no operation is received, the voltage applied to the variable-definition cover 70 is gradually decreased over time to decrease the definition of the variable-definition cover 70.

Alternatively, after a preset time period T1 in which the variable-definition cover 70 is displayed at the highest or higher definition, control gradually decreases the voltage applied to the variable-definition cover 70 until it is minimized to decrease the definition of the variable-definition cover 70 until it is minimized.

Alternatively, when the resolution of the resolution-changeable cover 70 is decreased, the resolution of the resolution-changeable cover 70 will be maximized when the smart photo frame 100 is awakened by pressing a display power key (not shown) of the smart photo frame 100.

Alternatively, when the power source 40 of the smart photo frame 100 is turned off and the power source 40 of the smart photo frame 100 is turned on again, the sharpness of the sharpness variable cover 70 may be maximized.

In the fourth embodiment of the present application, the sharpness of the variable-sharpness cover plate 70 is controlled by controlling and changing the voltage applied to the variable-sharpness cover plate 70, and the visual effect of viewing the print photo 30 through the variable-sharpness cover plate 70 is changed, so that better user experience is achieved.

Referring to fig. 8, fig. 8 is a flowchart illustrating a method for displaying an intelligent photo frame according to a fifth embodiment of the present application. The smart frame display method is applied to the smart frame 100a, and the execution sequence is not limited to the sequence shown in FIG. 8. The intelligent photo frame display method comprises the following steps:

step 810, providing an intelligent photo frame 100, wherein the intelligent photo frame 100 comprises a frame body 10, a variable-definition cover plate 70 and a touch panel 90, and the variable-definition cover plate 70 and the touch panel 90 are stacked in the frame body 10.

In step 820, the voltage applied to the variable-resolution cover plate 70 is controlled to control the resolution of the variable-resolution cover plate 70, so as to change the visual effect of viewing the print 30 mounted on the frame 10 through the variable-resolution cover plate 70.

In step 830, the definition of the variable-definition cover 70 is changed in response to the user's touch operation on the touch panel 90.

Alternatively, when no touch operation is received within the preset time period T1 in which the variable-definition cover 70 is displayed at the highest or higher definition, the voltage applied to the variable-definition cover 70 is gradually decreased to decrease the overall definition of the variable-definition cover 70.

Alternatively, when no touch operation is received for more than a predetermined time period T2 during the gradual decrease of the voltage applied to the variable-definition cover 70, the control minimizes the voltage applied to the variable-definition cover 70 to minimize the definition of the variable-definition cover 70.

Alternatively, when the resolution of the variable-resolution cover 70 is decreased, the resolution of the variable-resolution cover 70 is increased in response to the touch operation on the touch panel 90.

Alternatively, the resolution of the corresponding position of the resolution-variable cover 70 is increased in response to one touch operation at a position of the touch panel 90 within a preset time period T3.

Alternatively, in response to at least two touch operations within the preset time period T3 at the same position of the touch panel 90, the resolution of the entire resolution-variable cover 70 is adjusted to the resolution corresponding to the number of touch operations.

Alternatively, when the resolution of the variable-resolution cover 70 is not minimized, the touch panel 90 calculates the number of touch operations required to adjust the current resolution of the variable-resolution cover 70 to the maximum resolution according to the current resolution of the variable-resolution cover 70 when receiving at least two touch operations, and adjusts the resolution of the variable-resolution cover 70 according to the number of touch operations actually received within the preset time period T3.

Alternatively, when the definition of the variable-definition cover 70 is low, for example, lower than 30%, the touch panel 90 receives a touch operation within the preset time period T3, and the magnitude of the definition adjustment corresponding to each touch operation is larger.

Alternatively, when the definition of the variable-definition cover 70 is higher, for example, higher than 70%, when the touch panel 90 receives a touch operation within the preset time period T3, the smaller the magnitude of the definition adjustment corresponding to each touch operation.

Alternatively, the touch panel 90 senses a movement trace of the touch operation applied thereto, and adjusts the resolution of the variable-resolution cover 70 at a position corresponding to the movement trace according to the movement trace of the touch operation.

In the fifth embodiment of the present application, when the smart photo frame 100 is left for a period of time without any touch operation, the variable-definition cover plate 70 is controlled to gradually reduce the definition thereof with the passage of time, and the display effect of the print photo 30 gradually becomes blurred. When the user sees that the print photos 30 in the intelligent photo frame 100 at home are blurred, the user takes the intelligent photo frame 100 up, slides and wipes the smart photo frame with hands, the display effect of the print photos 30 becomes clear, and the user experience is better.

Please refer to fig. 9, which is a flowchart illustrating a method for displaying an intelligent photo frame according to a sixth embodiment of the present application. The smart photo frame display method is applied to the smart photo frame 100b, and the execution sequence is not limited to the sequence shown in FIG. 9. The intelligent photo frame display method comprises the following steps:

step 910, providing an intelligent photo frame 100, where the intelligent photo frame 100 includes a frame 10, a variable-definition cover plate 70, a pressure sensor 80, and a touch panel 90, the variable-definition cover plate 70 is disposed in the frame 10, the touch panel 90 is disposed on the variable-definition cover plate 70, and the pressure sensor 80 is disposed between the touch panel 90 and the variable-definition cover plate 70.

Step 920, controlling the voltage applied to the variable-resolution cover plate 70 and thus the resolution of the variable-resolution cover plate 70 to change the visual effect of viewing the print 30 mounted on the frame 10 through the variable-resolution cover plate 70.

In step 930, the pressure sensor 80 senses the pressure applied to the touch panel 90, and adjusts the resolution of the variable-resolution cover 70 according to the sensed pressure value. Specifically, the larger the touch pressure is, the larger the increase range of the sharpness of the variable-sharpness cover 70 is, and the smaller the touch pressure is, the smaller the increase range of the sharpness of the variable-sharpness cover 70 is.

Alternatively, the greater the sensed pressure applied to a certain position of the touch panel 90, the greater the magnitude of the control for increasing the definition of the variable-definition cover 70 at the corresponding position.

Alternatively, the greater the sensed pressure applied to a certain position of the touch panel 90 is, the greater the magnitude of the control for increasing the sharpness of the entire sharpness variable cover 70 is.

In the sixth embodiment of the present application, the smart photo frame 100 senses the touch pressure on the touch panel 90 through the pressure sensor 80, and controls and adjusts the range of the definition of the variable-definition cover plate 70 according to the touch pressure, so as to provide better user experience for the user.

The foregoing is a preferred embodiment of the present application and it should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present application, and such improvements and modifications are also considered as the scope of the present application.

Claims (17)

1. An intelligent photo frame comprises a frame body, wherein an opening part and an accommodating part are arranged on the frame body, and the intelligent photo frame is characterized by further comprising a control module and a variable definition cover plate, the variable definition cover plate is arranged in the accommodating part and is exposed outside through the opening part, the accommodating part is positioned on one side of the variable definition cover plate, which is far away from the opening part, and is used for accommodating a stamped photo, the control module is electrically connected with the variable definition cover plate, and the control module controls voltage applied to the variable definition cover plate so as to control definition of the variable definition cover plate and change visual effect of watching the stamped photo from the opening part; the intelligent photo frame further comprises a touch panel; the touch panel senses a motion track of touch operation applied to the touch panel, and the control module adjusts definition of a position, corresponding to the motion track, of the variable-definition cover plate according to the motion track of the touch operation.

2. The smart picture frame of claim 1, wherein the control module gradually decreases the voltage applied to the variable-definition cover plate to decrease the definition of the variable-definition cover plate when no operation is received.

3. The intelligent photo frame of claim 1, wherein the touch panel is disposed in the receiving portion and located on a side of the variable-definition cover plate close to the opening portion.

4. The intelligent photo frame of claim 3, wherein when the touch panel does not receive any touch operation within a first preset time period, the control module controls to gradually decrease the voltage applied to the variable-definition cover plate so as to decrease the definition of the variable-definition cover plate; when the touch panel does not receive any touch operation within a second preset time period in the process of gradually reducing the voltage applied to the definition variable cover plate, the control module controls the voltage applied to the definition variable cover plate to be reduced to the minimum so as to reduce the definition of the definition variable cover plate to the minimum.

5. The smart photo frame of any one of claims 3 and 4, wherein when the resolution of the variable-resolution cover panel is reduced, the control module responds to a touch operation on the touch panel to increase a voltage applied to the variable-resolution cover panel, thereby improving the resolution of the variable-resolution cover panel.

6. The intelligent photo frame of claim 3, wherein the control module responds to one touch operation at a certain position of the touch panel within a third preset time period to increase the definition at the corresponding position of the variable-definition cover plate; when the touch panel receives at least two touch operations at the same position within the third preset time period, the control module adjusts the definition of the variable-definition cover plate to the definition corresponding to the number of the touch operations.

7. The intelligent photo frame of claim 6, wherein when the touch panel receives at least two touch operations, the control module calculates the number of touch operations required to adjust the resolution of the resolution-variable cover plate to the maximum according to the current resolution of the resolution-variable cover plate, and adjusts the resolution of the resolution-variable cover plate correspondingly according to the number of touch operations actually received within the third preset time period.

8. The intelligent photo frame of claim 3, further comprising a pressure sensor disposed between the touch panel and the variable-definition cover plate, wherein the pressure sensor senses a pressure applied to the touch panel and adjusts the definition of the variable-definition cover plate according to the sensed pressure value.

9. The intelligent photo frame of claim 8, wherein the greater the pressure sensor senses the pressure applied to a position of the touch panel, the greater the control module controls the resolution of the variable resolution cover plate to be increased; when the pressure sensor senses that the pressure applied to the same position of the touch panel is larger and larger than a preset threshold value, the control module controls the whole definition of the definition-variable cover plate to be improved to be larger in amplitude.

10. The intelligent photo frame display method is applied to an intelligent photo frame, the intelligent photo frame comprises a frame body, a variable definition cover plate and a touch panel arranged on the frame body, the variable definition cover plate is arranged in the frame body, and the intelligent photo frame display method comprises the following steps:

controlling a voltage applied to the variable-definition cover plate to control a definition of the variable-definition cover plate, thereby changing a visual effect of viewing a print photograph mounted on the frame through the variable-definition cover plate;

the intelligent photo frame display method further comprises the following steps: and sensing a motion track of the touch operation applied to the variable-definition cover plate, and adjusting the definition of the position of the variable-definition cover plate corresponding to the motion track according to the motion track of the touch operation.

11. The intelligent photo frame display method of claim 10, wherein the intelligent photo frame display method comprises:

and when no operation is received, gradually reducing the voltage applied to the definition variable cover plate to reduce the definition of the definition variable cover plate.

12. The intelligent photo frame display method of claim 10, further comprising:

gradually reducing the voltage applied to the variable-definition cover plate when no touch operation is received within a first preset time period so as to reduce the definition of the variable-definition cover plate;

when no touch operation is received within a second preset time period in the process of gradually reducing the voltage applied to the definition variable cover plate, controlling the voltage applied to the definition variable cover plate to be reduced to the minimum so as to reduce the definition of the definition variable cover plate to the minimum.

13. The smart photo frame display method as claimed in any one of claims 10 and 12, further comprising: and when the definition of the variable-definition cover plate is reduced, responding to the touch operation on the touch panel to increase the voltage applied to the variable-definition cover plate, so that the definition of the variable-definition cover plate is improved.

14. The intelligent photo frame display method of claim 10, further comprising:

responding to one touch operation in a third preset time period at a certain position of the touch panel to increase the definition of the variable-definition cover plate at the corresponding position;

and when at least two touch operations within a third preset time period at the same position of the touch panel are responded, the definition of the variable-definition cover plate is adjusted to the definition corresponding to the number of the touch operations.

15. The intelligent photo frame display method of claim 14, further comprising: when at least two touch operations are received, calculating the number of touch operations required when the definition of the variable-definition cover plate is adjusted to the highest definition according to the current definition of the variable-definition cover plate, and correspondingly adjusting the definition of the variable-definition cover plate according to the number of touch operations actually received in a preset time period.

16. The intelligent photo frame display method of claim 10, wherein the intelligent photo frame comprises a pressure sensor, the intelligent photo frame display method further comprising: the pressure sensor senses the pressure applied on the touch panel and adjusts the definition of the variable-definition cover plate in real time according to the sensed pressure value.

17. The intelligent photo frame display method of claim 16, further comprising: the larger the pressure applied to a certain position is sensed to be, the larger the amplitude of the definition of the corresponding position of the definition variable cover plate is controlled to be increased; when the larger the pressure applied to the same position is sensed to be and larger than a preset threshold value, the larger the range of controlling and improving the definition of the whole definition variable cover plate is.

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