CN219832077U - Luminous component and electronic photo frame - Google Patents

Abstract

The utility model relates to a light-emitting component, which is sleeved on an electronic photo frame, and a driving signal for maintaining the light-emitting of the light-emitting component is obtained by the electronic photo frame; the light-emitting component is of a frame-shaped structure with four edges, and one surface of the electronic photo frame, where the display screen is located, is sleeved on the shell of the electronic photo frame, so that the four edges of the light-emitting component are respectively located at the outer edges of the display screen; the light-emitting assembly further comprises a connector, wherein the connector is used for being connected with an output port arranged on the electronic photo frame to obtain a driving signal and controlling the light-emitting state of the light-emitting outer frame. The utility model also relates to an electronic photo frame. The luminous component and the electronic photo frame have the following beneficial effects: the application range is wider.

Description

Luminous component and electronic photo frame

[ field of technology ]

The present utility model relates to a display device or a display apparatus, and more particularly, to a light emitting assembly and an electronic photo frame.

[ background Art ]

Electronic photo frames are an electronic product which dynamically or statically displays photos or pictures stored or input therein, and have been widely used in recent years, and are gradually replacing the conventional paper photo frames. Because the application range is wider, the users are numerous, the application environments are various, and the existing electronic photo frame can not meet the needs of some users and some application occasions. For example, some users' cultures and usage habits may require that the electronic photo frame have a glare, varying illumination, or a specific pattern; while other users may require it to be more similar to a traditional photo frame, or the like, in which paper photos are placed. The existing electronic photo frame can not meet the requirements of the users, so that the application range of the existing electronic photo frame is limited to a certain extent.

[ utility model ]

The utility model aims to solve the technical problems that the application range of the prior art is limited and the specific requirements of partial users cannot be met, and provides a light-emitting component and an electronic photo frame which can meet the specific requirements of partial users.

The technical scheme adopted for solving the technical problems is as follows: constructing a light-emitting component which is sleeved on an electronic photo frame, and acquiring a driving signal for maintaining the light-emitting component to emit light by the electronic photo frame; the light-emitting component is of a frame-shaped structure with four edges, and one surface of the electronic photo frame, where the display screen is located, is sleeved on the shell of the electronic photo frame, so that the four edges of the light-emitting component are respectively located at the outer edges of the display screen; the light-emitting assembly further comprises a connector, wherein the connector is used for being connected with an output port arranged on the electronic photo frame to obtain a driving signal and controlling the light-emitting state of the light-emitting outer frame.

Still further, the lighting assembly includes a housing and a light emitter; the shell is provided with a front end surface and four side surfaces which extend backwards by a set length from the front end surface, and the front end surface extends to a set width towards the center position of the front end surface; the luminous body is embedded into four side surfaces of the shell from the rear of the shell, is blocked by the front end surface and is positioned in the enclosure of the front end surface and the four side surfaces, and a display hollow window which is matched with the display screen in size and shape is arranged in the middle of the luminous body.

Further, the luminous body comprises a lamp strip and a light guide plate; the light guide plate is provided with a frame-shaped structure with a display empty window in the middle, the lamp strip is arranged on the side face of the frame-shaped structure, light is led into the light guide plate through the side face of the light guide plate, and the light guide plate projects the light entering the light guide plate to one face of the light guide plate adjacent to the front end face of the shell; the connector is connected with the power input end of the lamp strip.

Furthermore, a specific texture or character which is displayed when the light is projected on one surface of the light guide plate, on which the light is projected, is arranged.

Further, a plurality of light emitting units are arranged on the lamp strip, and each light emitting unit is arranged on the lamp strip at a set distance; the side of the light guide plate is provided with a plurality of light guide holes for light emitted by the light emitting units to enter, and the number and the setting distance of the light guide holes are matched with those of the light emitting units.

Further, the plurality of light emitting units on the lamp strip are connected in series one by one; one of the light emitting units comprises three different colored LEDs, red, green and blue, each having a separate drive signal.

The utility model also relates to an electronic photo frame, which comprises a photo frame shell, a display screen control unit and a bottom shell, wherein the display screen and the display screen control unit are arranged between the shell and the bottom shell, and further comprises a light-emitting component and a light-emitting control module; the light-emitting control module is arranged between the photo frame shell and the bottom shell, is connected with the display screen control unit to obtain a power supply, and converts the light-emitting control signal into a driving signal by receiving the light-emitting control signal sent by the wireless terminal to provide the driving signal for the light-emitting component; the light emitting assembly is the light emitting assembly described above.

Further, the driving signal output by the light-emitting control module is connected to an output port arranged on the bottom shell; when the light-emitting component is sleeved on the electronic photo frame, the connector of the light-emitting component is connected to the output port.

Still further, the LED display device further comprises an infrared receiver, wherein the infrared receiver is arranged on the bottom shell, receives infrared signals through a through hole arranged on the bottom shell and is connected with the light-emitting control module; the wireless terminal comprises an infrared remote control device.

Further, an antenna for receiving Bluetooth signals and transmitting the Bluetooth signals to the luminous control module is arranged on the luminous control module, and the wireless terminal comprises a Bluetooth remote control device.

The luminous component and the electronic photo frame have the following beneficial effects: because the light-emitting component is added on the basis of the existing electronic photo frame, when the electronic photo frame does not lighten the light-emitting component, the existing light-emitting component is more similar to the traditional photo frame for placing paper photos, so that the existing nostalgic requirements of partial users are met; meanwhile, when the luminous outer frame is lightened, light is set off or set off around the display screen of the electronic photo frame, so that the requirements of other users are met; when the luminous component is not sleeved on the electronic photo frame, the appearance of the electronic photo frame is the same as that of the existing electronic photo frame, so that the electronic photo frame can meet the requirements or habits of different users more widely, and has wider use scenes. So that the application range is wider.

[ description of the drawings ]

FIG. 1 is a schematic diagram of a light emitting device and an electronic photo frame according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of the structure of an electronic photo frame according to the embodiment;

FIG. 3 is a front view of an electronic photo frame in the illustrated embodiment;

fig. 4 is a side view of the electronic photo frame in the illustrated embodiment.

[ detailed description ] of the utility model

Embodiments of the present utility model will be further described with reference to the accompanying drawings.

As shown in fig. 1, in the embodiment of the light emitting assembly and the electronic photo frame of the present utility model, the light emitting assembly 9 is used to be sleeved on the electronic photo frame, when the light emitting assembly 9 is sleeved on the electronic photo frame, the light emitting assembly 9 is located around the display screen of the electronic photo frame, and the display screen is exposed from the middle of the light emitting assembly 9, i.e. when the light emitting assembly 9 is sleeved on the electronic photo frame, the display screen of the electronic photo frame is not covered, and the normal display of the electronic photo frame is not affected. In this embodiment, the light emitting component 9 does not have a power source, and the power source or the driving signal for maintaining the light emission of the light emitting component 9 is obtained by the sleeved electronic photo frame, and of course, the electronic photo frame is also provided with a corresponding structure, so that the light emitting component 9 can be connected to the electronic photo frame; specifically, the light emitting component 9 has a frame structure with four edges, and one surface of the electronic photo frame where the display screen is located is sleeved on the shell of the electronic photo frame, so that the four edges of the light emitting component 9 are respectively located at the outer edges of the display screen (see fig. 3); the light emitting assembly 9 further includes a connector 62, and the connector 62 is configured to be connected to the output port 41 (see fig. 2) provided on the electronic photo frame to obtain a driving signal, and control the light emitting state of the light emitting outer frame 9, for example, whether to emit light or not, and the color, color temperature, brightness, etc. of the light emitted are all determined by the driving signal.

In the present embodiment, the light emitting assembly 9 includes a housing 5 and a light emitter (the light emitter is composed of a lamp strip 6 and a light guide plate 7); the housing 5 has a front end face 51 and four side faces 52 extending rearward from the front end face 51 by a set length, the front end face 51 extending to its center position by a set width so that there is a hollow window at the front end through which the luminous body can be exposed; the illuminant is embedded in the four side surfaces 52 of the housing 5 from the rear of the housing 1 (i.e. the direction away from one of the front end surfaces 51 or enclosed by the four side surfaces 52), and is blocked by the front end surface 51 and located in the enclosed of the front end surface 51 and the four side surfaces 52, and a display hollow window 71 adapted to the size and shape of the display screen of the electronic photo frame is arranged in the middle of the illuminant. Specifically, the light-emitting body is formed by combining a lamp strip 6 and a light guide plate 7, and the lamp strip 6 is enclosed on four side surfaces of the light guide plate 7 to obtain the light-emitting body; the light guide plate 7 is a frame-shaped structure with a display hollow window 71 arranged in the middle, the lamp strip 6 is arranged on the side surface of the frame-shaped structure, light is led into the light guide plate 7 from the side surface of the light guide plate 7, and the light guide plate 7 projects the light entering the light guide plate on one surface (the surface is actually contacted with the front end surface 51 after being assembled) adjacent to the front end surface 51 of the shell 5; the connector 62 is connected with the power input end of the lamp strip 6, or the connector 62 is led out from the lamp strip 6, and after the connector 62 is connected with the corresponding interface, a driving signal is provided to the lamp strip 6 through the connector 62, so that the lamp strip 6 emits light.

In the present embodiment, a plurality of light emitting units 61 are provided on the lamp strip 6, and each light emitting unit 61 is provided on the lamp strip 6 at a set distance; and a plurality of light guide holes 72 into which the light emitted from the light emitting units 61 is introduced are provided on the side surface of the light guide plate 7, and the number and the arrangement distance of the light guide holes 72 are adapted to the number of the light emitting units 61 and the arrangement distance on the lamp strip 6. When assembled, the light strip 6 is tightly attached to the side surface of the light guide plate 7, so that the plurality of light emitting units 61 on the light strip 6 are respectively positioned in the depressions on the side surface of the light guide plate 7, and the depressions are the light guide holes 72, so that the light emitted by each light emitting unit 61 directly enters the light guide plate 7 through the light guide holes 72.

In this embodiment, the plurality of light emitting units 61 on the light strip 6 are serially connected one by one, the body or substrate of the light strip 6 is a flexible circuit board, and the connection wires formed by copper foil are arranged on the flexible circuit board, and the light emitting units 61 are connected together through the connection wires; at the same time, the connector 62 is also connected to these connection lines. In the present embodiment, one of the light emitting units 61 includes three different color LEDs of red, green and blue, each having a separate driving signal. That is, the driving signals of the light emitting units 61 in the light strip 6 include at least driving signals of LEDs of three different colors, and may further include driving signals of brightness and color temperature, so that the light emitting units 61 can emit a large variety of light under the control of the driving signals, and the light emitting units can give different feelings to users.

In addition, a specific pattern or character displayed when light is projected thereon may be provided on one surface of the light guide plate 7 on which the light is projected. These lines, patterns or words are not displayed when the luminous element 9 is not luminous, but can be seen by the user when it is luminous. These lines, patterns, and characters are usually engraved in the light guide plate 7, and have specific contents, and represent specific occasions, times, and the like. E.g., christmas tree, etc.

The utility model also relates to an electronic photo frame, as shown in fig. 2, 3 and 4, which comprises a photo frame shell 1, a display screen 2, a display screen control unit 3 and a bottom shell 4, wherein the display screen 2 and the display screen control unit 3 are arranged between the photo frame shell 1 and the bottom shell 4, and the electronic photo frame also comprises a light-emitting component 9 (see fig. 1) and a light-emitting control module 8; the light-emitting control module 8 is also arranged between the photo frame shell 1 and the bottom shell 4, the light-emitting control module 8 is connected with the display screen control unit 3 to obtain a power supply, and the received light-emitting control signal is converted into a driving signal by receiving the light-emitting control signal sent by the wireless terminal and is provided for the light-emitting component 9 to emit light. In this embodiment, the driving signal output by the light emitting control module 8 is connected to the output port 41 provided on the bottom shell 4, and when the light emitting component 9 is sleeved on the electronic photo frame, the connector 62 of the light emitting component 9 is connected to the output port 41, so as to realize the transmission of the driving signal from the light emitting control module 8 to the light emitting component 9. In this embodiment, the electronic photo frame further includes an infrared receiver 81, where the infrared receiver 81 is disposed on the bottom shell 4, receives an infrared signal through a through hole (not shown in the drawing) disposed on the bottom shell 4, and is connected with the light-emitting control module 8, and transmits the received infrared signal to the light-emitting control module 8, and the light-emitting control module 8 decodes and obtains a driving signal and outputs the driving signal to the light-emitting component 9, where the wireless terminal is an infrared remote control device. In addition, an antenna for receiving the bluetooth signal is arranged on the light emitting control module 8, and the light emitting control module 8 decodes the bluetooth signal to obtain a driving signal and outputs the driving signal to the light emitting component 9. At this time, the wireless terminal is a bluetooth remote control device.

Fig. 3 and 4 show front and side views, respectively, of an electronic photo frame assembled with the light emitting assembly 9, and it can be seen from fig. 3 that the display screen 2 of the assembled electronic photo frame is not shielded by the light emitting assembly 9, and at the same time, the light guide plate 7 surrounds the periphery of the display screen 2, and the front end face 51 of the housing 5 is surrounded by the periphery of the light guide plate 7. When the light emitting assembly 9 is not emitting light, the whole electronic photo frame looks very similar to a traditional photo frame for placing paper photos; when the light emitting component 9 emits light, the light is seen by the user through the exposed part of the light guide plate 7, and surrounds the periphery of the display screen 2, and different light emitting effects can be obtained by adjusting the driving signals, so that the requirements of different users are met. Meanwhile, as can be seen from fig. 4, the output port 41 is not seen at the side of the electronic photo frame, so that the whole electronic photo frame looks very concise, and the sleeved light-emitting component 9 does not influence the daily use of the user.

The foregoing examples illustrate only a few embodiments of the utility model and are described in detail herein without thereby limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. The light-emitting component is characterized in that the light-emitting component is sleeved on an electronic photo frame, and a driving signal for maintaining the light-emitting of the light-emitting component is obtained by the electronic photo frame; the light-emitting component is of a frame-shaped structure with four edges, and one surface of the electronic photo frame, where the display screen is located, is sleeved on the shell of the electronic photo frame, so that the four edges of the light-emitting component are respectively located at the outer edges of the display screen; the light-emitting component further comprises a connector, wherein the connector is used for being connected with an output port arranged on the electronic photo frame to obtain a driving signal and controlling the light-emitting state of the light-emitting component.

2. The lighting assembly of claim 1, wherein the lighting assembly comprises a housing and a light emitter; the shell is provided with a front end surface and four side surfaces which extend backwards by a set length from the front end surface, and the front end surface extends to a set width towards the center position of the front end surface; the luminous body is embedded into four side surfaces of the shell from the rear of the shell, is blocked by the front end surface and is positioned in the enclosure of the front end surface and the four side surfaces, and a display hollow window which is matched with the display screen in size and shape is arranged in the middle of the luminous body.

3. The lighting assembly of claim 2, wherein the light emitter comprises a light strip and a light guide plate; the light guide plate is provided with a frame-shaped structure with a display empty window in the middle, the lamp strip is arranged on the side face of the frame-shaped structure, light is led into the light guide plate through the side face of the light guide plate, and the light guide plate projects the light entering the light guide plate to one face of the light guide plate adjacent to the front end face of the shell; the connector is connected with the power input end of the lamp strip.

4. A lighting assembly according to claim 3, wherein a specific texture or character is provided on one side of the light guide plate on which the light is projected, the texture or character being displayed when the light is projected thereon.

5. The lighting assembly of claim 4, wherein a plurality of lighting units are provided on the strip, each lighting unit being disposed on the strip at a set distance apart; the side of the light guide plate is provided with a plurality of light guide holes for light emitted by the light emitting units to enter, and the number and the setting distance of the light guide holes are matched with those of the light emitting units.

6. The lighting assembly of claim 5, wherein the plurality of lighting units on the light strip are serially connected one to the other; one of the light emitting units comprises three different colored LEDs, red, green and blue, each having a separate drive signal.

7. The electronic photo frame comprises a photo frame shell, a display screen control unit and a bottom shell, wherein the display screen and the display screen control unit are arranged between the shell and the bottom shell; the light-emitting control module is arranged between the photo frame shell and the bottom shell, is connected with the display screen control unit to obtain a power supply, and converts the light-emitting control signal into a driving signal by receiving the light-emitting control signal sent by the wireless terminal to provide the driving signal for the light-emitting component;

the light emitting assembly is the light emitting assembly of claim 6.

8. The electronic photo frame of claim 7, wherein the driving signal output by the light emitting control module is connected to an output port provided on the bottom case; when the light-emitting component is sleeved on the electronic photo frame, the connector of the light-emitting component is connected to the output port.

9. The electronic photo frame of claim 8, further comprising an infrared receiver disposed on the bottom case, receiving infrared signals through a through hole disposed on the bottom case, and connected to the light emitting control module; the wireless terminal comprises an infrared remote control device.

10. The electronic photo frame of claim 9, wherein the lighting control module is provided with an antenna for receiving bluetooth signals and transmitting the bluetooth signals to the lighting control module, and the wireless terminal comprises a bluetooth remote control.