CN109003570B - Electronic device and control method thereof - Google Patents

Abstract

The application provides an electronic equipment and control method thereof, electronic equipment includes display screen module, casing subassembly and light source subassembly, the display screen module includes the display screen, the casing subassembly is including being fixed in the leaded light ring of week side of display screen, the leaded light ring be equipped with the light-emitting portion of the same orientation of display screen, the light source subassembly with leaded light ring relatively fixed, the light of light source subassembly incides to in the leaded light ring to the warp light-emitting portion jets out. The electronic equipment realizes that the whole circle around the display screen module emits light, so that the electronic equipment can utilize the halo to present the effects of a breathing lamp or a prompt lamp and the like, and the appearance performance of the electronic equipment is improved.

Description

Electronic device and control method thereof

Technical Field

The present disclosure relates to the field of electronic devices, and more particularly, to an electronic device and a control method thereof.

Background

At present, a prompt lamp is arranged on a shell of electronic equipment, but the appearance and the effect of the existing prompt lamp are single, so that the user experience is influenced.

Disclosure of Invention

The application provides an electronic equipment, electronic equipment includes display screen module, casing subassembly and light source subassembly, the display screen module includes the display screen, the casing subassembly is including being fixed in the leaded light ring of week side of display screen, the leaded light ring be equipped with the light-emitting portion of the same orientation of display screen, the light source subassembly with leaded light ring relatively fixed, the light of light source subassembly incides extremely in the leaded light ring, and the warp light-emitting portion jets out.

The application still provides an electronic equipment, electronic equipment includes casing subassembly, light source subassembly and instruction receiver to and the controller, the casing subassembly is including the leaded light ring, the leaded light ring is equipped with out light portion, the light source subassembly with leaded light ring relatively fixed, the light source subassembly with the instruction receiver electricity is connected the controller, through the instruction receiver acquires luminous instruction, the controller basis luminous instruction send electrical signal extremely the light source subassembly, the light source subassembly court the leaded light ring emission light.

The application also provides a control method of the electronic equipment, the electronic equipment comprises a display screen module, a shell component, a light source component and a light sensor, the display screen module comprises a display screen, the shell component comprises a light guide ring fixed on the periphery of the display screen, the light guide ring is provided with a light outlet part, the light source component and the light sensor are both fixedly connected with the shell component,

the control method of the electronic device comprises the following steps:

obtaining the ambient light intensity through the light sensor;

obtaining backlight brightness through the display screen;

detecting whether the difference value between the backlight brightness of the display screen and the ambient light intensity meets a preset threshold value,

if the light supplement instruction is detected to be yes, detecting a light supplement instruction;

and controlling the light source assembly to emit light towards the light guide ring according to the light supplementing instruction so as to enable the light of the light source assembly to be emitted out through the light emitting part.

The application also provides a control method of the electronic equipment, which is characterized in that the electronic equipment comprises a display screen module, a shell component, a light source component and a functional component, wherein the display screen module comprises a display screen, the shell component comprises a light guide ring fixed on the peripheral side of the display screen, the light guide ring is provided with a light outlet part, the functional component comprises a light sensor and a front camera, the light source component, the light sensor and the front camera are all fixedly connected with the shell component,

the control method of the electronic device comprises the following steps:

receiving a control instruction, and starting the front camera according to the control instruction;

obtaining the ambient light intensity through the light sensor;

detecting whether the intensity of the ambient light is less than a preset light intensity value,

if the light supplement instruction is detected to be yes, detecting a light supplement instruction;

controlling the light source component to emit light rays towards the light guide ring according to the light supplementing instruction so as to enable the light rays of the light source component to be emitted out through the light emitting part;

and detecting a shooting instruction, and controlling the front camera to shoot images according to the shooting instruction.

The application also provides a control method of the electronic equipment, the electronic equipment comprises a display screen module, a shell component, a light source component and a functional component, the display screen module comprises a display screen, the shell component comprises a light guide ring fixed on the peripheral side of the display screen, the light guide ring is provided with a light outlet part, the light source component comprises a first light source and a second light source, the functional component comprises a light sensor and a front camera, the first light source, the second light source, the light sensor and the front camera are all fixedly connected with the shell component,

the control method of the electronic device comprises the following steps:

receiving a control instruction, and starting the front camera according to the control instruction;

obtaining a color temperature value through the display screen;

detecting whether the color temperature value of the display screen meets a first preset threshold value or not, and if so, detecting a first light supplement instruction; controlling the first light source to emit light rays towards the light guide ring according to the first light supplementing instruction so as to enable the light rays of the first light source to be emitted out through the light emitting part;

detecting whether the color temperature value of the display screen meets a second preset threshold value or not, and if so, detecting a second light supplement instruction; controlling the second light source to emit light rays towards the light guide ring according to the second light supplementing instruction so as to enable the light rays of the second light source to be emitted out through the light emitting part;

and detecting a shooting instruction, and controlling the front camera to shoot images according to the shooting instruction.

The application provides an electronic equipment and control method thereof, through the light ring is fixed in the periphery side of display screen module, and the light ring has with the light-emitting portion of the same orientation of display screen module, the rethread the light of light source subassembly incides to in the light ring, and the warp light-emitting portion jets out, thereby realizes that whole circle is luminous around the display screen module, makes electronic equipment can utilize above-mentioned light ring to present effects such as breathing lamp or warning light, has improved electronic equipment's appearance quality.

Drawings

In order to more clearly illustrate the technical solutions of 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 based on these drawings without creative efforts.

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

fig. 2 is a schematic structural diagram of an electronic device according to a first embodiment of the present application;

FIG. 3 is an enlarged view A of FIG. 2;

FIG. 4 is an enlarged schematic view of FIG. 2 at A;

fig. 5 is a schematic structural diagram three of an electronic device according to a first embodiment of the present application;

FIG. 6 is an enlarged schematic view of FIG. 2 at A;

fig. 7 is a schematic structural diagram of an electronic device according to a first embodiment of the present application;

FIG. 8 is an enlarged schematic view of FIG. 2 at A;

fig. 9 is a schematic structural diagram of an electronic device according to a first embodiment of the present application;

fig. 10 is a schematic structural diagram six of an electronic device according to a first embodiment of the present application;

fig. 11 is a schematic structural diagram of an electronic device according to a second embodiment of the present application;

fig. 12 is a schematic structural diagram of an electronic device according to an embodiment of the present application;

fig. 13 is a flowchart illustrating a control method for an electronic device according to an embodiment of the present application;

fig. 14 is a flowchart illustrating a control method for an electronic device according to an embodiment of the present application;

fig. 15 is a flowchart illustrating a control method for an electronic device according to an embodiment of the present application;

fig. 16 is a flowchart illustrating a control method for an electronic device according to an embodiment of the present application;

fig. 17 is a flowchart illustrating a control method for an electronic device according to an embodiment of the present application;

fig. 18 is a flowchart illustrating a control method for an electronic device according to an embodiment of the present disclosure;

fig. 19 is a flowchart illustrating a control method of an electronic device according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely 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.

In addition, the following description of the various embodiments refers to the accompanying drawings, which are included to illustrate specific embodiments that can be used to practice the present application. Directional phrases used in this application, such as, for example, "top," "bottom," "upper," "lower," "front," "rear," "left," "right," "inner," "outer," "side," and the like, refer only to the orientation of the appended drawings and are, therefore, used for better and clearer illustration and understanding of the present application and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the present application.

The numerical range represented by "to" in the present specification means a range including numerical values before and after "to" as a minimum value and a maximum value, respectively. In the drawings, structures that are similar or identical are denoted by the same reference numerals.

Example one

Referring to fig. 1, the present embodiment provides an electronic apparatus 100, where the electronic apparatus 100 includes a display module 10, a housing assembly 20 fixedly connected to the display module 10, and a light source assembly 30 fixedly connected to the housing assembly 20. The display screen module 10 includes the display screen 11, the casing assembly 20 is including being fixed in the leaded light ring 21 of the week side of display screen 11, leaded light ring 21 be equipped with the light-emitting portion 211 of the same orientation of display screen 11. The light source assembly 30 is opposite to the light guide ring 21, and light of the light source assembly 30 is incident into the light guide ring 21 and emitted through the light emitting portion 211.

The light guide ring 21 is fixed on the outer peripheral side of the display screen module 10, the light guide ring 21 is provided with a light emitting portion 211 with the same orientation as that of the display screen module 10, and light rays passing through the light source assembly 30 are incident into the light guide ring 21 and emitted out through the light emitting portion 211, so that the whole circle around the display screen module 10 is luminous, and the appearance performance of the electronic device 100 is improved.

Referring to fig. 2, in the present embodiment, the display screen module 10 is disposed on one side of the housing assembly 20, and the housing assembly 20 provides a bearing function for the display screen module 10. An accommodating cavity 12 is formed between the display module 10 and the housing assembly 20, the electronic device 100 further includes a main board 40 fixed in the accommodating cavity 12, and the main board 40 is electrically connected to the display 11, so that the main board 40 can control the display 11 to display images. It is understood that the electronic device 100 may be a smart phone, a tablet computer, a notebook computer, or a wearable smart device.

Referring to fig. 3, in this embodiment, the display screen module 10 further includes a transparent cover plate 13, and the transparent cover plate 13 is stacked on a side of the display screen 11 away from the housing assembly 20.

In one embodiment, the edge of the light-transmitting cover 13 covers the light-emitting portion 211. The light-transmissive cover 13 has an inner surface 131 adjacent the display screen 11. The inner surface 131 has a first edge 132. The first edge 132 extends along the circumference of the light-transmissive cover 13. The orthographic projection of the display screen 11 on the light-transmissive cover 13 is located within the inner surface 131. The display screen 11 has a second edge 111 opposite to the first edge 132, and the second edge 111 extends along the circumferential direction of the display screen 11. A space exists between the first edge 132 and the second edge 111. The orthographic projection of the light-emitting portion 211 on the display screen module 10 is located between the first edge 132 and the second edge 111, so that the edge of the light-transmitting cover plate 13 covers the light-emitting portion 211. The light emitting portion 211 has a light emitting surface 212 facing the display panel 11. The light of the light-emitting portion 211 passes through the light-emitting surface 212 and exits through the light-transmitting cover 13. The light-emitting portion 211 is covered by the edge of the light-transmitting cover plate 13, and both the light-emitting portion 211 and the display screen 11 are covered by the light-transmitting cover plate 13, so that the appearance integrity of the electronic device 100 is ensured.

Referring to fig. 4, in another embodiment, the light-transmitting cover plate 13 is located on an inner peripheral side of the light-guiding ring 21, and an outer peripheral side of the light-transmitting cover plate 13 is matched with the inner peripheral side of the light-guiding ring 21. The light-transmitting cover 13 has an outer surface 133. The exterior surface 133 is disposed opposite the interior surface 131. The light-emitting surface 212 is flush with the appearance surface 133. Therefore, the light of the light source 32 is directly emitted through the light emitting surface 212 to form a light emitting surface smoothly transiting to the appearance surface 133, so as to ensure the appearance performance of the electronic device 100.

Referring to fig. 2, in the present embodiment, the housing assembly 20 further includes a frame 22. The frame 22 is fixed on the outer periphery of the light guiding ring 21, and the light guiding ring 21 separates the frame 22 from the display screen 11. The frame 22 has an open end 221. The light guide ring 21 is fixed to the opening end 221, and the outer peripheral side of the light guide ring 21 is matched with the inner peripheral side of the frame 22. The outer peripheral side of the display screen module 10 is matched with the inner peripheral side of the light guide ring 21. The housing assembly 20 further includes a rear cover 23 fixed to the side of the rim 22 opposite to the open end 221. The accommodating cavity 12 is formed between the frame 22 and the rear cover 23, and the display screen module 10 covers the accommodating cavity 12. The light guide ring 21, the frame 22 and the rear cover 23 form a housing for bearing the display screen module 10. Since the light of the light source assembly 30 is incident into the light guiding ring 21 and is emitted through the light emitting portion 211, the housing assembly 20 has a decorative aperture surrounding the display screen module 10, and the display screen module 10 and the frame 22 are separated by the decorative aperture, so that the appearance of the electronic device 100 is well-defined, and the appearance performance of the electronic device 100 is improved.

Referring to fig. 5, the frame 22 has a groove 222 on the end surface of the open end 221. The groove 222 is located on the inner peripheral side of the rim 22. The groove 222 extends along the circumferential direction of the rim 22. The outer periphery of the light guide ring 21 is matched with the groove 222. The groove 222 has a mounting opening 223 at an end surface of the open end 221 and a bottom surface 224 opposite to the mounting opening 223, and a side surface 225 connected between the end surface of the open end 221 and the bottom surface 224. The light guide ring 21 is inserted into the groove 222 through the mounting opening 223. The outer periphery of the light guide ring 21 is in interference fit with the side surface 225 of the groove 222, so that the frame 22 positions the light guide ring 21 through the groove 222. The light-emitting part 211 is located on one side of the light guide ring 21 close to the installation opening 223. The light guide ring 21 is further provided with a light incident portion 213 disposed opposite to the light emergent portion 211. The light inlet portion 213 abuts against the bottom surface 224, and the frame 22 supports the light guide ring 21 through the bottom surface 224, so as to ensure that the light guide ring 21 is stably matched with the frame 22. The light inlet portion 213 is opposite to the light source assembly 30 to receive light from the light source assembly 30. In other embodiments, the light guiding ring 21 may also be fixedly connected to the frame 22 by gluing, snap-fit connection, or screw connection.

Referring to fig. 6, further, the light guiding ring 21 has a first light incident side surface 215 opposite to the side surface 225, the housing assembly 20 further includes a first light supplement member 24, the first light supplement member 24 is fixed between the first light incident side surface 215 and the side surface 225, and light of the first light supplement member 24 enters the light guiding ring 21 through the first light incident side surface 215 and exits through the light exiting portion 211.

In the present embodiment, the light incident portion 213 has a light incident surface 214 disposed opposite to the light emitting surface 212. The first light incident surface 215 is located on the outer peripheral side of the light guiding ring 21, and the first light incident surface 215 is connected between the light emitting surface 212 and the light incident surface 214. The first light supplement member 24 may be a photoluminescent layer attached to the first light incident side surface 215. The light of the light source assembly 30 enters the light guide ring 21 by emitting light toward the inside of the light guide ring 21 through the light incident surface 214, and irradiates the first light supplement member 24 through the first light incident side surface 215, so as to excite the first light supplement member 24 to emit light toward the inside of the light guide ring 21 through the first light incident side surface 215. Thereby achieving a further increase in the luminous intensity of the light-guiding ring 21. The first light compensating member 24 can absorb the irradiation light with a specific wavelength and can emit a bright light with a specific color. Under the condition that the color of the light emitted by the first light-compensating member 24 is the same as the color of the light emitted by the light source assembly 30, the color of the light represented by the light-guiding ring 21 is more saturated, and the brightness is higher. Under the condition that the color of the light emitted by the first light-compensating member 24 is different from the color of the light emitted by the light source assembly 30, the light-guiding ring 21 can present a colorful composite light. In other embodiments, the first light compensating member 24 may be a photoluminescent layer attached to the side surface 225. The first light supplement member 24 may also be a light supplement device independently disposed between the side surface 225 and the first light incident side surface 215, and the first light supplement member 24 may be a photoluminescent device or an electrically controlled luminescent device.

Referring to fig. 6, further, the light guide ring 21 further has a second light incident side surface 216 opposite to the first light incident side surface 215, the housing assembly 20 further includes a second light supplement member 25, the second light supplement member 25 is fixed between the second light incident side surface 216 and the display screen 11, and light of the second light supplement member 25 enters the light guide ring 21 through the second light incident side surface 216 and is emitted through the light emitting portion 211.

In this embodiment, the second light incident side surface 216 is located on the inner peripheral side of the light guiding ring 21. The second light compensating member 25 is a photoluminescent layer attached to the second light incident side surface 216. The light source assembly 30 emits light rays towards the inside of the light guide ring 21 through the light incident surface 214, so that the light rays of the light source assembly 30 can irradiate the second light supplement member 25 through the second light incident side surface 216, and the second light supplement member 25 is excited to emit light rays towards the inside of the light guide ring 21 through the second light incident side surface 216. Therefore, the first light supplement member 24 and the second light supplement member 25 respectively supplement light to the light guide ring 21 uniformly through the first light incident side surface 215 and the second light incident side surface 216, so that the light guide ring 21 uniformly emits light, and a diaphragm with enhanced brightness is formed. The second light compensating member 25 absorbs the irradiation light of a specific wavelength and can emit a bright light of a specific color. The light emitted from the second light-compensating member 25 enters the light guide ring 21 through the second light-entering side surface 216, is combined with the light emitted from the light source assembly 30 and the light emitted from the first light-compensating member 24, and then is emitted through the light-emitting portion 211. The light emitted by the first light-compensating member 24, the light emitted by the second light-compensating member 25, and the light emitted by the light source assembly 30 may be lights of three colors, such as red light, green light, and blue light, and after the lights of the three colors are combined according to a preset ratio, composite light of a specific color can be obtained. In another embodiment, the second light compensating material 25 is a photoluminescent layer provided on the outer periphery of the display panel 11. The second light supplement member 25 may also be a light supplement device fixed between the second light incident side surface 216 and the outer peripheral side of the display screen 11, and the second light supplement member 25 may be a photoluminescent device or an electrically controlled luminescent device.

The housing assembly 20 further includes a shielding member 26 fixed between the second light compensating member 25 and the display screen 11, and the shielding member 26 separates the second light compensating member 25 from the display screen 11. The shielding member 26 is a shielding layer attached to the second light compensating member 25 on the side away from the light guiding ring 21, and the shielding layer may be an ink layer. The shielding member 26 is used for preventing light on the side where the second light compensating member 25 is located from leaking to the display screen 11, so as to avoid influencing the normal display image of the display screen 11. In another embodiment, the shielding member 26 may be a shielding layer attached to the outer periphery of the display panel 11, and the shielding member 26 may be a light shielding member independently provided between the second light compensating member 25 and the display panel 11.

Referring to fig. 7 and 8, in the first embodiment, the light source assembly 30 includes a light guide bar 31 and a light source 32. The light guide column 31 is abutted to the light guide ring 21, the light source 32 faces the side, away from the light guide ring 21, of the light guide column 31, and light of the light source 32 is emitted into the light guide ring 21 through the light guide column 31.

In this embodiment, the light guide column 31 is used to guide the light emitted from the light source 32 to the light guide ring 21 in a concentrated manner, so as to improve the light extraction efficiency. The light guide 31 has a first end 311 and a second end 312 disposed opposite the first end 311. The light guide bar 31 extends from the first end 311 to the second end 312, and the extending direction of the light guide bar 31 is perpendicular to the display screen 11. The first end 311 abuts against the light incident portion 213 of the light guide ring 21, and the second end 312 faces the light source 32. The light guide column 31 is used for guiding the light of the light source 32 into the light guide ring 21 in a concentrated manner, so that the light of the light source 32 is prevented from being leaked into the accommodating cavity 12 due to too-over dispersion, and the light extraction efficiency is improved.

The light source assembly 30 includes the plurality of light guide columns 31 and the plurality of light sources 32. The light guide columns 31 and the light sources 32 are arranged at intervals along the circumferential direction of the light guide ring 21, and each light source 32 is arranged opposite to each light guide column 31. Each light source 32 emits light towards the first end 311 of each light guide column 31 and exits into the light guide ring 21 through the second end 312, so that the light guide ring 21 forms a decorative aperture with uniform light emission. Through adopting along the circumference interval arrangement of light guide ring 21 a plurality of leaded light post 31 are right respectively a plurality of light sources 32 carry out the leaded light, compare in adopting the great leaded light piece 33 of monomer size right a plurality of light sources 32 carry out the leaded light, above-mentioned light guide structure occupation space is little, is convenient for arrange other devices in acceping chamber 12. The plurality of light sources 32 may be electrically connected to the main board 40 by a cable or a flexible circuit board.

The housing assembly 20 further includes a middle plate 27, and the middle plate 27 is fixed to an inner circumferential side of the frame 22. The middle plate 27 is opposite to the display screen module 10, and the middle plate 27 plays a bearing role in the display screen module 10. The middle plate 27 is provided with a receiving groove 271 facing the display screen module 10. A boss 272 is arranged on one side of the middle plate 27 departing from the display screen module 10, and the accommodating groove 271 is located at a position where the middle plate 27 directly faces the boss 272. The light source 32 is fixed in the storage groove 271, and one end of the light guide bar 31 facing the light source 32 is fixedly connected to the middle plate 27 and covers the storage groove 271. Therefore, the light guide column 31 isolates the light source 32 from other devices in the accommodating cavity 12, and the light source 32 is prevented from emitting light or generating heat to interfere with the work of other devices.

Referring to fig. 9 and 10, in the second embodiment, the light source assembly 30 includes a light guide 33 and a light source 32. The light guide member 33 includes two end portions 331 disposed opposite to each other, and a first light guide surface 332 connecting the two end portions 331, and the first light guide surface 332 faces the light guide ring 21. The light source 32 faces one of the end portions 331, and light of the light source 32 enters the light guide member 33 through the end portion 331 and exits into the light guide ring 21 through the first light guide surface 332.

In the present embodiment, the first light guiding surface 332 of the light guiding member 33 faces the light incident portion 213 of the light guiding ring 21. The opposite directions of the two end portions 331 of the light guide 33 are parallel to the display screen 11. The light source assembly 30 can provide the surface light source 32 with uniform brightness to the light guide ring 21 by emitting light from the light source 32 toward one end 331 of the light guide member 33, so that the light from the light source 32 is transmitted from the one end 331 of the light guide member 33 toward the other end 331 and is uniformly emitted through the first light guide surface 332, and the light guide member 33 forms the surface light source 32 with uniform brightness at the first light guide surface 332. The light guide member 33 further includes a second light guide surface 333 disposed opposite to the first light guide surface 332, and the second light guide surface 333 is connected between the two end portions 331. The light guide 33 has a reflective layer 334 attached to the second light guide surface 333. The reflective layer 334 is used for reflecting the light inside the light guide 33 to the first light guide surface 332, so as to improve the light extraction efficiency of the light guide 33.

The light source assembly 30 includes a plurality of the light guides 33 and a plurality of light sources 32. The plurality of light guides 33 includes a first light guide 34 and a second light guide 35. The first light guide 34 is substantially "L" shaped, and the second light guide 35 is substantially "L" shaped. The first light guide member 34 and the second light guide member 35 are arranged along the circumferential direction of the light guide ring 21, so that the first light guide member 34 and the second light guide member 35 form a rectangular light guide structure. The two end portions 331 of the first light guide 34 include a first end portion 341 and a second end portion 342 disposed opposite to the first end portion 341. The two end portions 331 of the second light guide 35 include a third end portion 351 and a fourth end portion 352 disposed opposite to the third end portion 351. The first end 341 is adjacent to the third end 351; the second end 342 is adjacent the fourth end 352. The light source assembly 30 includes a first light source 321, a second light source 322, a third light source 323, and a fourth light source 324. The first light source 321 and the second light source 322 face two end portions 331 of the first light guide 34, respectively, wherein the first light source 321 is located between the first end portion 341 and the third end portion 351 and faces the first end portion 341; the second light source 322 is located between the second end 342 and the fourth end 352 and faces the second end 342. The third light source 323 and the fourth light source 324 face two end portions 331 of the second light guide 35, respectively, wherein the third light source 323 is located between the first end portion 341 and the third end portion 351 and faces the third end portion 351; the fourth light source 324 is located between the second end 342 and the fourth end 352 and faces the fourth end 352. Therefore, the first light source 321 and the second light source 322 respectively emit light rays towards the two end portions 331 of the first light guide member 34, and the third light source 323 and the fourth light source 324 respectively emit light rays towards the two end portions 331 of the second light guide member 35, so that the first light guide member 34 and the second light guide member 35 uniformly irradiate the light guide ring 21, and the light guide ring 21 is ensured to form a diaphragm with uniform brightness. In other embodiments, the first light source 321 and the third light source 323 may be integrally disposed, and the second light source 322 and the fourth light source 324 may be integrally disposed.

The first light guide 34 includes a first straight section 343 and a second straight section 344 fixedly connected to the first straight section 343. The first straight section 343 and the second straight section 344 are perpendicular. The first end 341 is located at an end of the first straight section 343 far from the second straight section 344, and the second end 342 is located at an end of the second straight section 344 far from the first straight section 343. The light of the first light source 321 and the light of the second light source 322 enter the first light guide member 34 from the two end portions 331 of the first light guide member 34, so as to ensure that the brightness of the first straight section 343 is the same as that of the second straight section 344, and further realize that the first light guide member 34 emits light uniformly on the first light guide surface 332. Moreover, the light of the first light source 321 is transmitted into the second straight section 344 through the first straight section 343, and the light of the second light source 322 is transmitted into the first straight section 343 through the second straight section 344, which is favorable for the light emitting brightness of the first light guide 34. The light of the first light source 321 and the light of the second light source 322 may be the same color or different colors. For example, the first light source 321 emits light with a first color, and the second light source 322 emits light with a second color, so that the light of the first light source 321 and the light of the second light source 322 are combined inside the light guide 33 and then emitted to the light guide ring 21, so that the light guide ring 21 can present a colorful aperture effect. The matching structure of the third light source 323, the fourth light source 324 and the second light guide 35 is the same as the above structure, and is not repeated herein.

Example two

Referring to fig. 11, the present application further provides an electronic device 200, where the electronic device 200 provided in the second embodiment is different from the electronic device 100 provided in the first embodiment: the electronic device 200 includes a housing assembly 20, a light source assembly 30, an instruction receiver 50, and a controller 60, the housing assembly 20 includes a light guide ring 21, the light guide ring 21 is provided with a light emitting portion 211, the light source assembly 30 is relatively fixed to the light guide ring 21, the light source assembly 30 and the instruction receiver 50 are electrically connected to the controller 60, a light emitting instruction is obtained through the instruction receiver 50, the controller 60 sends an electrical signal to the light source assembly 30 according to the light emitting instruction, and the light source assembly 30 emits light toward the light guide ring 21.

Referring to fig. 12, the present application further provides a method for controlling an electronic device, where the electronic device 100 further includes light sensors 71, and the light sensors 71 are all fixedly connected to the housing assembly 20.

Referring to fig. 13, the method for controlling the electronic device includes the following steps 101 to 105:

101: the ambient light intensity is obtained by the light sensor 71.

In step 101, the light sensor 71 may be an ambient light sensor, and the central controller 60 of the electronic device 100 controls the light sensor 71 to detect the current ambient light intensity.

102: the backlight brightness is obtained through the display screen 11.

103: and detecting whether the difference value between the backlight brightness of the display screen 11 and the ambient light intensity meets a preset threshold value.

In step 103, if the current ambient light intensity is small, that is, the electronic device 100 is currently under a weak illumination condition, and the display screen 11 displays a picture under a certain backlight condition, so that the backlight of the display screen 11 has a certain contrast with the current ambient light. The preset threshold is a difference range between the backlight brightness of the display screen 11 and the current ambient light intensity under the weak lighting condition. If yes, the contrast between the backlight of the display screen 11 and the current ambient light is relatively large.

Referring to fig. 14, in step 103, step 1031 and step 1032 are also performed.

1031: if yes, a supplementary lighting instruction is detected.

In step 1031, the electronic device 100 may detect the light supplement instruction through the touch display screen 11, the optical sensor, the microphone, the mechanical button, and the like. The light supplement instruction is used for starting the light source assembly 30 to supplement light to the environment around the display screen 11, so that the consistency between the backlight of the display screen 11 and the ambient light is improved.

1032: and controlling the light source assembly 30 to emit light towards the light guide ring 21 according to the light supplement instruction, so that the light of the light source assembly 30 is emitted through the light emitting portion 211.

In step 1032, the central controller 60 of the electronic device 100 controls the light source assembly 30 to emit light toward the light guiding ring 21, so that the light guiding ring 21 forms an aperture surrounding the display screen 11. The light guide ring 21 forms an aperture to illuminate the environment around the display screen 11, so as to improve the current ambient light intensity around the display screen 11, improve the consistency between the backlight of the display screen 11 and the ambient light around the display screen 11, and facilitate reducing the stimulation to human eyes.

The application further provides a control method of the electronic device, the electronic device 100 further includes a functional component 70, the functional component 70 includes a light sensor 71 and a front camera 72, and both the light sensor 71 and the front camera 72 are fixedly connected to the housing component 20. The front camera 72 is oriented in the same direction as the display screen 11.

Referring to fig. 15, the method for controlling the electronic device includes the following steps 201 to 204:

201: receiving a control instruction, and starting the front camera 72 according to the control instruction.

In step 201, the electronic device 100 may receive the control command through the touch display 11, the optical sensor, the microphone, the mechanical button, and the like. Sending an electric signal to the front camera 72 through the central controller 60 of the electronic device 100 to start the front camera 72 to acquire a shooting preview picture. The front camera 72 and the display screen 11 face the same direction, and the front camera 72 is used for realizing a self-photographing function.

202: the ambient light intensity is obtained by the light sensor 71.

In step 202, the light sensor 71 may be an ambient light sensor, and the central controller 60 of the electronic device 100 controls the light sensor 71 to detect the current ambient light intensity.

203: and detecting whether the intensity of the ambient light is less than a preset light intensity value.

In step 203, it is detected by the central controller 60 of the electronic device 100 whether the ambient light intensity is less than a preset light intensity value. The preset light intensity value is an ambient light intensity value under a weak lighting condition. If it is detected that the intensity of the ambient light is smaller than the preset light intensity value, it indicates that the electronic device 100 is in a weak lighting environment, which is not favorable for ensuring the shooting effect of the front-facing camera 72.

Referring to fig. 16, in step 203, step 2031 and step 2032 are also performed.

2031: if yes, a supplementary lighting instruction is detected.

In step 2031, the electronic device 100 may detect the fill-in command through the touch display 11, the optical sensor, the microphone, the mechanical button, and the like. The light supplement instruction is used for starting the light source assembly 30 to supplement light to the shooting object, so that the shooting quality is guaranteed.

2032: controlling the light source assembly 30 to emit light toward the light guide ring 21 according to the light supplement instruction, so that the light of the light source assembly 30 is emitted through the light emitting portion 211;

in step 2032, the central controller 60 of the electronic apparatus 100 controls the light source assembly 30 to emit light toward the light guiding ring 21, so that the light guiding ring 21 forms an aperture surrounding the display screen 11. Because the light emitting part 211 of the light guide ring 21 and the display screen 11 face the same direction, when a user uses the front camera 72 to perform self-shooting, the display screen 11 and the light emitting part 211 of the light guide ring 21 both face the user, and the aperture formed by the light guide ring 21 can be used for supplementing light to a shooting object.

204: and detecting a shooting instruction, and controlling the front camera 72 to shoot images according to the shooting instruction.

In step 204, the electronic device 100 may detect the shooting instruction by using the touch display 11, an optical sensor, a microphone, a mechanical button, or the like. The front camera 72 is controlled by the central controller 60 of the electronic device 100 to shoot, and the light guide ring 21 is used to supplement light to a shot object, so that the self-shooting effect of the electronic device 100 under a dark light condition is improved.

The application further provides a control method of the electronic device, the electronic device 100 further includes a functional component 70, the functional component 70 includes a light sensor 71 and a front camera 72, and both the light sensor 71 and the front camera 72 are fixedly connected to the housing component 20. The front camera 72 is oriented in the same direction as the display screen 11.

Referring to fig. 17, the method for controlling the electronic device includes the following steps 301 to 305:

301: receiving a control instruction, and starting the front camera 72 according to the control instruction.

In step 301, the electronic device 100 may receive the manipulation instruction through a touch display 11, an optical sensor, a microphone, a mechanical button, and the like. Sending an electric signal to the front camera 72 through the central controller 60 of the electronic device 100 to start the front camera 72 to acquire a shooting preview picture. The front camera 72 and the display screen 11 face the same direction, and the front camera 72 is used for realizing a self-photographing function.

302: the color temperature is obtained by means of the display screen 11.

In step 302, the central controller 60 of the electronic device 100 controls the display 11 to display a shooting preview screen, and obtains a color temperature of the shooting preview screen.

303: whether the color temperature of the display screen 11 meets a first preset threshold value is detected.

In step 303, the first preset threshold may be a cold color temperature range value.

Referring to fig. 18, in step 303, step 3031 and step 3032 are also performed.

3031: if yes, detecting a first fill-in light instruction.

In step 3031, the electronic device 100 may detect the first fill-in light instruction through a touch display screen 11, an optical sensor, a microphone, a mechanical key, and the like.

3032: and controlling the first light source 321 to emit light toward the light guide ring 21 according to the first light supplement instruction, so that the light of the first light source 321 is emitted through the light emitting part 211.

In step 3032, the central controller 60 of the electronic device 100 controls the first light source 321 to emit light toward the light guiding ring 21, so that the light guiding ring 21 forms an aperture surrounding the display screen 11. Because the light emitting part 211 of the light guide ring 21 and the display screen 11 face the same direction, when a user uses the front camera 72 to perform self-shooting, the display screen 11 and the light emitting part 211 of the light guide ring 21 both face the user, and the aperture formed by the light guide ring 21 can be used for supplementing light to a shooting object. The light emitted by the first light source 321 has a first color temperature value, which is a warm color temperature, so that the light emitted by the first light source 321 can correct a cold color tone of a captured image.

304: and detecting whether the color temperature value of the display screen 11 meets a second preset threshold value.

In step 304, the second preset threshold may be a warm color temperature range value.

Referring to fig. 19, in step 304, step 3041 and step 3042 are also performed.

3041: and if the detection result is yes, detecting a second fill-in light instruction.

In step 3041, the electronic device 100 may detect the second fill-in light instruction through a touch display 11, an optical sensor, a microphone, a mechanical button, and the like.

3042: and controlling the second light source 322 to emit light toward the light guide ring 21 according to the second light supplement instruction, so that the light of the second light source 322 is emitted through the light emitting part 211.

In step 3042, the central controller 60 of the electronic device 100 controls the second light source 322 to emit light toward the light guiding ring 21, so that the light guiding ring 21 forms an aperture surrounding the display screen 11. The light emitted from the second light source 322 has a second color temperature value, which is a cool color temperature, so that the light emitted from the first light source 321 can correct a warmer color tone of a photographed picture.

305: and detecting a shooting instruction, and controlling the front camera 72 to shoot images according to the shooting instruction.

In step 305, the electronic device 100 may detect the shooting instruction by using the touch display 11, an optical sensor, a microphone, a mechanical button, or the like. The front camera 72 is controlled by the central controller 60 of the electronic device 100 to shoot, the first light source 321 or the second light source 322 is used to provide light rays with different color temperature values, and the light guide ring 21 is used to supplement light to a shot object, so that shot pictures with different color temperature deviations can be corrected, and the shooting effect can be ensured.

The application provides an electronic equipment and control method thereof, through the light ring is fixed in the periphery side of display screen module, and the light ring has with the light-emitting portion of the same orientation of display screen module, the rethread the light of light source subassembly incides to in the light ring, and the warp light-emitting portion jets out, thereby realizes that whole circle is luminous around the display screen module, makes electronic equipment can utilize above-mentioned light ring to present effects such as breathing lamp or warning light, has improved electronic equipment's appearance quality.

In summary, although the present application has been described with reference to the preferred embodiments, the present application is not limited to the preferred embodiments, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present application, so that the protection scope of the present application is determined by the scope of the appended claims.

Claims (18)

1. An electronic device is characterized in that the electronic device comprises a display screen module, a shell assembly and a light source assembly, wherein the display screen module comprises a display screen, the shell assembly comprises a light guide ring fixed on the periphery of the display screen, the light guide ring is provided with a light emitting part with the same direction as the display screen, the light source assembly and the light guide ring are relatively fixed, and light of the light source assembly enters the light guide ring and is emitted out through the light emitting part;

wherein the content of the first and second substances,

the shell assembly further comprises a frame, the frame is fixed on the outer peripheral side of the light guide ring, and the frame and the display screen are separated by the light guide ring;

the light guide ring is provided with a first light inlet side surface opposite to the side surface, the shell assembly further comprises a first light supplementing piece, the first light supplementing piece is fixed between the first light inlet side surface and the side surface, and light of the first light supplementing piece enters the light guide ring through the first light inlet side surface and is emitted through the light outlet portion.

2. The electronic device of claim 1, wherein the frame has an open end, the frame is provided with a groove on an end surface of the open end along a circumferential direction, and an outer circumferential side of the light guide ring is matched with the groove.

3. The electronic device according to claim 1, wherein the light guide ring further has a second light incident side surface opposite to the first light incident side surface, the housing assembly further includes a second light supplement member, the second light supplement member is fixed between the second light incident side surface and the display screen, and light of the second light supplement member enters the light guide ring through the second light incident side surface and exits through the light exit portion.

4. The electronic device of claim 3, wherein the housing assembly further comprises a shield secured between the second light patch and the display screen, the shield separating the second light patch and the display screen.

5. The electronic device according to any one of claims 1 to 4, wherein the light source assembly includes a light guide pillar and a light source, the light guide pillar abuts against the light guide ring, the light source faces a side of the light guide pillar away from the light guide ring, and light from the light source exits into the light guide ring through the light guide pillar.

6. The electronic device of claim 5, wherein the housing assembly further comprises a middle plate, the middle plate is fixed opposite to the display module, a receiving groove is formed in a side of the middle plate facing the display module, the light source is fixed in the receiving groove, and one end of the light guide pillar facing the light source is fixedly connected to the middle plate and covers the receiving groove.

7. The electronic device according to any one of claims 1 to 4, wherein the light source assembly includes a light guide member and a light source, the light guide member includes two end portions disposed opposite to each other, and a first light guide surface connecting the two end portions, the first light guide surface faces the light guide ring, the light source faces one of the end portions, and light from the light source is incident into the light guide member through the end portions and exits into the light guide ring through the first light guide surface.

8. The electronic device of claim 7, wherein the light source assembly comprises a first light source and a second light source, the first light source and the second light source are respectively directed to two ends of the light guide member, and light rays of the first light source and light rays of the second light source are incident into the light guide member and are emitted into the light guide ring through the first light guide surface.

9. The electronic device of claim 8, wherein the light source assembly includes a first light guide and a second light guide arranged circumferentially along the light guide ring, the first light source and the second light source facing two ends of the first light guide, respectively, and a third light source and a fourth light source facing two ends of the second light guide, respectively.

10. The electronic device of claim 8, wherein the first light source emits light having a first color and the second light source emits light having a second color.

11. The electronic device according to claim 7, wherein the light guide member further includes a second light guide surface provided opposite to the first light guide surface, and a reflective layer is attached to the second light guide surface.

12. The electronic device according to any one of claims 1 to 4, wherein the display screen module further includes a light-transmissive cover plate stacked on the display screen, and an edge of the light-transmissive cover plate covers the light-emitting portion.

13. The electronic device according to any one of claims 1 to 4, wherein the display screen module further includes a light-transmissive cover plate stacked on the display screen, the light-transmissive cover plate is located on an inner peripheral side of the light-guiding ring, the light-transmissive cover plate has an appearance surface, the appearance surface is located on a side of the light-transmissive cover plate away from the display screen, and the light-emitting portion has a light-emitting surface flush with the appearance surface.

14. An electronic device is characterized by comprising a shell assembly, a light source assembly, an instruction receiver and a controller, wherein the shell assembly comprises a light guide ring, the light guide ring is provided with a light outlet part, the light source assembly and the light guide ring are relatively fixed, the light source assembly and the instruction receiver are electrically connected with the controller, a light-emitting instruction is obtained through the instruction receiver, the controller sends an electric signal to the light source assembly according to the light-emitting instruction, and the light source assembly emits light rays towards the light guide ring;

wherein the content of the first and second substances,

the shell assembly further comprises a frame, the frame is fixed on the outer peripheral side of the light guide ring, and the frame and the display screen are separated by the light guide ring;

the light guide ring is provided with a first light inlet side surface opposite to the side surface, the shell assembly further comprises a first light supplementing piece, the first light supplementing piece is fixed between the first light inlet side surface and the side surface, and light of the first light supplementing piece enters the light guide ring through the first light inlet side surface and is emitted through the light outlet portion.

15. A control method of electronic equipment is characterized in that the electronic equipment comprises a display screen module, a shell assembly, a light source assembly and a light sensor, the display screen module comprises a display screen, the shell assembly comprises a light guide ring fixed on the periphery of the display screen, the light guide ring is provided with a light outlet part, the light source assembly and the light sensor are both fixedly connected with the shell assembly,

wherein the content of the first and second substances,

the shell assembly further comprises a frame, the frame is fixed on the outer peripheral side of the light guide ring, and the frame and the display screen are separated by the light guide ring;

the shell assembly comprises a frame, a light guide ring and a first light supplementing piece, wherein the frame is provided with a side surface facing the outer peripheral side of the light guide ring, the light guide ring is provided with a first light inlet side surface opposite to the side surface, the first light supplementing piece is fixed between the first light inlet side surface and the side surface, and light of the first light supplementing piece enters the light guide ring through the first light inlet side surface and is emitted through the light outlet part;

the control method of the electronic device comprises the following steps:

obtaining the ambient light intensity through the light sensor;

obtaining backlight brightness through the display screen;

detecting whether the difference value between the backlight brightness of the display screen and the ambient light intensity meets a preset threshold value,

if the light supplement instruction is detected to be yes, detecting a light supplement instruction;

and controlling the light source assembly to emit light towards the light guide ring according to the light supplementing instruction so as to enable the light of the light source assembly to be emitted out through the light emitting part.

16. A control method of electronic equipment is characterized in that the electronic equipment comprises a display screen module, a shell assembly, a light source assembly and a functional assembly, wherein the display screen module comprises a display screen, the shell assembly comprises a light guide ring fixed on the periphery of the display screen, the light guide ring is provided with a light outlet part, the functional assembly comprises a light sensor and a front camera, the light source assembly, the light sensor and the front camera are all fixedly connected with the shell assembly,

wherein the content of the first and second substances,

the shell assembly further comprises a frame, the frame is fixed on the outer peripheral side of the light guide ring, and the frame and the display screen are separated by the light guide ring;

the shell assembly comprises a frame, a light guide ring and a first light supplementing piece, wherein the frame is provided with a side surface facing the outer peripheral side of the light guide ring, the light guide ring is provided with a first light inlet side surface opposite to the side surface, the first light supplementing piece is fixed between the first light inlet side surface and the side surface, and light of the first light supplementing piece enters the light guide ring through the first light inlet side surface and is emitted through the light outlet part;

the control method of the electronic device comprises the following steps:

receiving a control instruction, and starting the front camera according to the control instruction;

obtaining the ambient light intensity through the light sensor;

detecting whether the intensity of the ambient light is less than a preset light intensity value,

if the light supplement instruction is detected to be yes, detecting a light supplement instruction;

controlling the light source component to emit light rays towards the light guide ring according to the light supplementing instruction so as to enable the light rays of the light source component to be emitted out through the light emitting part;

and detecting a shooting instruction, and controlling the front camera to shoot images according to the shooting instruction.

17. The method of controlling an apparatus according to claim 16, wherein the light source assembly comprises a light guide, a first light source, and a second light source, the light guide, the first light source, and the second light source all fixedly attached to the housing assembly,

in the step of detecting whether the ambient light intensity is smaller than a preset light intensity value, if so, acquiring a light supplement mode;

determining a first supplementary lighting instruction or a second supplementary lighting instruction according to the supplementary lighting mode;

controlling the first light source to emit light rays towards the light guide piece according to the first light supplementing instruction;

and controlling the first light source and the second light source to emit light rays towards the light guide piece according to the second light supplementing instruction.

18. A control method of electronic equipment is characterized in that the electronic equipment comprises a display screen module, a shell assembly, a light source assembly and a functional assembly, wherein the display screen module comprises a display screen, the shell assembly comprises a light guide ring fixed on the periphery of the display screen, the light guide ring is provided with a light outlet part, the light source assembly comprises a first light source and a second light source, the functional assembly comprises a light sensor and a front camera, the first light source, the second light source, the light sensor and the front camera are all fixedly connected with the shell assembly,

wherein the content of the first and second substances,

the shell assembly further comprises a frame, the frame is fixed on the outer peripheral side of the light guide ring, and the frame and the display screen are separated by the light guide ring;

the shell assembly comprises a frame, a light guide ring and a first light supplementing piece, wherein the frame is provided with a side surface facing the outer peripheral side of the light guide ring, the light guide ring is provided with a first light inlet side surface opposite to the side surface, the first light supplementing piece is fixed between the first light inlet side surface and the side surface, and light of the first light supplementing piece enters the light guide ring through the first light inlet side surface and is emitted through the light outlet part;

the control method of the electronic device comprises the following steps:

receiving a control instruction, and starting the front camera according to the control instruction;

obtaining a color temperature through the display screen;

detecting whether the color temperature of the display screen meets a first preset threshold value, and if so, detecting a first light supplement instruction; controlling the first light source to emit light rays towards the light guide ring according to the first light supplementing instruction so as to enable the light rays of the first light source to be emitted out through the light emitting part;

detecting whether the color temperature value of the display screen meets a second preset threshold value or not, and if so, detecting a second light supplement instruction; controlling the second light source to emit light rays towards the light guide ring according to the second light supplementing instruction so as to enable the light rays of the second light source to be emitted out through the light emitting part;

and detecting a shooting instruction, and controlling the front camera to shoot images according to the shooting instruction.

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