CN215268354U - Mobile communication equipment - Google Patents

Abstract

The utility model provides a mobile communication device, include: the device comprises a shell, a light-transmitting piece and a signal lamp; the shell comprises a screen, a bottom plate and a frame, wherein the screen is parallel to the bottom plate, and the frame is arranged around the screen and the bottom plate to form a hollow part; the frame is provided with at least one antenna broken joint which is communicated with the hollow part; the light-transmitting piece is arranged at the antenna broken seam, and two ends of the light-transmitting piece are flush with the upper surface of the screen and the lower surface of the bottom plate respectively; the signal lamp is located in the hollow portion of casing, just the signal lamp is close to the light signal emission face of one side of printing opacity piece with the printing opacity piece corresponds, makes the light signal of signal lamp transmission appear in the printing opacity piece. The utility model discloses can pass through light-transmitting part presents light signal, and can protect the signal lamp still has the advantage that does not occupy the display space of screen.

Description

Mobile communication equipment

Technical Field

The utility model relates to a technical field of mobile communication equipment's structure, concretely relates to mobile communication equipment.

Background

When electronic equipment such as a mobile phone or a tablet computer receives a new message, the user is often notified in a flashing manner by the breathing lamp, however, the breathing lamp exposed on the surface of the screen of the electronic equipment occupies the space of the screen and has the defect of easy damage.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome shortcoming and not enough among the prior art, provide a mobile communication equipment, can pass through light-transmitting member presents light signal, and can protect the signal lamp still has the advantage that does not occupy the display space of screen.

An embodiment of the utility model provides a mobile communication device, include: the screen and the bottom plate are parallel, and the frame is arranged around the screen and the bottom plate to form a hollow part; the frame is provided with at least one antenna broken joint which is communicated with the hollow part;

the light-transmitting piece is arranged at the antenna broken seam, and two ends of the light-transmitting piece are flush with the upper surface of the screen and the lower surface of the bottom plate respectively;

the signal lamp, the signal lamp is located in the hollow portion of casing, just the signal lamp is close to the light signal emission face of one side of printing opacity piece with the printing opacity piece corresponds, makes the light signal of signal lamp transmission appear in the printing opacity piece.

Compared with the prior art, the utility model discloses a mobile communication equipment can present the light signal of signal lamp through the printing opacity piece that sets up at the frame, moreover because the both ends of printing opacity piece respectively with the upper surface of screen with the lower surface parallel and level of bottom plate, consequently improved the visual scope of the light signal of signal lamp, no matter the cell-phone is screen up or bottom plate up, the user can all see the light signal that the printing opacity piece presents the presentation makes the user can know more easily more in time mobile communication equipment receives the new message, and can also pass through the printing opacity piece protection the signal lamp still has the advantage that does not occupy the display space of screen.

The signal lamp further comprises a light reflecting component, wherein the light reflecting component is arranged in the hollow part and is positioned on one side of the signal lamp, which is far away from the light transmitting piece; the light reflecting component corresponds to a light signal emitting surface on one side, far away from the light transmitting piece, of the signal lamp, so that light signals emitted by the signal lamp are reflected to the direction of the light transmitting piece through the light reflecting component. The light signal of one side of the signal lamp, which is far away from the light transmitting piece, is reflected to the light transmitting piece through the light reflecting component, so that the light intensity of the light signal transmitted to the light transmitting piece is improved.

The light-gathering component is positioned between the signal lamp and the light-transmitting piece. The light condensing assembly can change the emission direction of the optical signal, so that the optical signal with dispersed emission angle is emitted to the light-transmitting piece in a concentrated manner, and the light intensity of the optical signal emitted to the light-transmitting piece is improved.

Further, the light-gathering component is a convex lens; one lateral direction of printing opacity piece the direction of signal lamp extends to in the hollow portion, convex lens fixes printing opacity piece extends to one side in the hollow portion. And directly connecting the light gathering component with the light transmitting piece, so that the light signal refracted by the light gathering component can directly act on the light transmitting piece.

The light guide channel is positioned between the light gathering component and the light transmission piece, one end of the light guide channel is connected with the light gathering component, and the other end of the light guide channel is connected with the light transmission piece. And the light gathering component and the light transmission piece are fixed through the light guide channel.

Further, the light-gathering component is a plano-convex lens; the plano-convex lens comprises a convex surface part and a plane part, the convex surface part faces the signal lamp, and the plane part is fixedly connected with one end of the light guide channel. The light condensing assembly is fixedly connected with the light guide channel through the plane part, so that the stability of the fixed position of the light condensing assembly is improved, and the light condensing assembly is prevented from shifting or changing the light condensing direction due to shaking.

Further, the light guide device further comprises a light scattering component, and the light scattering component is located at one end, close to the penetrating piece, of the light guide channel. The light signal is dispersed and emitted by the light dispersion component, so that the light signal can be more comprehensively applied to the light-transmitting piece.

Further, the plano-convex lens is a Fresnel lens, and the convex surface part of the plano-convex lens is provided with a concave part which is concentric from small to large. The thickness of the plane convex mirror can be reduced by utilizing the structure of the Fresnel lens, the occupied space is reduced, and the whole weight is reduced.

Further, the light-transmitting part is a nano injection molding part manufactured by a nano injection molding process. Has good light transmission effect

Further, the signal lamp comprises an LED signal lamp, and the light transmission performance parameter of the light transmission piece is matched with the type of the LED signal lamp. The light signal of the LED signal lamp can be presented more clearly.

In order to make the present invention more clearly understood, the following description will be made in conjunction with the accompanying drawings.

Drawings

Fig. 1 is a block diagram of a mobile communication device according to an embodiment of the present invention.

Fig. 2 is a cross-sectional view of a mobile communication device according to an embodiment of the present invention, which includes a light reflecting component and a light focusing component.

Fig. 3 is a cross-sectional view of a mobile communication device including a light guide channel and a light dispersion assembly according to an embodiment of the present invention.

1. A housing; 11. a screen; 13. a base plate; 15. a frame; 17. a hollow portion; 3. a light transmissive member; 5. a signal lamp; 6. a light reflecting component; 7. a light focusing assembly; 8. a light guide channel; 9. a light dispersing assembly.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Please refer to fig. 1, which is a block diagram of a mobile communication device according to an embodiment of the present invention, the mobile communication device includes: the display screen comprises a shell 1, wherein the shell 1 comprises a screen 11, a bottom plate 13 and a frame 15, the screen 11 is parallel to the bottom plate 13, and the frame 15 is arranged around the screen 11 and the bottom plate 13 and forms a hollow part 17; the frame 15 is provided with at least one antenna broken joint which is communicated with the hollow part 17;

the light-transmitting piece 3 is arranged at the antenna broken seam, and two ends of the light-transmitting piece 3 are flush with the upper surface of the screen 11 and the lower surface of the bottom plate 13 respectively;

the signal lamp 5, the signal lamp 5 is located in the hollow portion 17 of casing 1, just the signal lamp 5 is close to the light signal emission face of one side of printing opacity piece 3 with printing opacity piece 3 corresponds, makes the light signal of signal lamp 5 transmission appear in printing opacity piece 3.

The mobile communication device can be a mobile phone, a tablet computer and other common electronic devices capable of performing wireless communication. The wireless communication includes a received short message notification, an incoming call notification, and a message notification of an application installed on the mobile communication device.

Preferably, the inner walls of the frame 15 are respectively provided with a screen 11 seat and a bottom plate 13 seat. Taking the case that the screen 11 faces upward, at this time, the lower surface of the screen 11 is connected to the screen 11 seat, so that the upper surface of the screen 11 is flush with the upper end of the frame 15, and the edge of the screen 11 is connected to the inner wall of the frame 15; the upper surface of the bottom plate 13 is connected to the bottom plate 13 base, so that the lower surface of the bottom plate 13 is flush with the lower end of the frame 15, and the edge of the bottom plate 13 is connected to the inner wall of the frame 15.

In this embodiment, when receiving a short message notification, an incoming call notification, or a message notification of an application installed on the mobile communication device, the signal lamp 5 emits a blinking light signal, at this time, the light-transmitting member 3 disposed at the antenna seam of the frame 15 presents the light signal of the signal lamp 5, and since both ends of the light-transmitting member 3 are respectively flush with the upper surface of the screen 11 and the lower surface of the bottom plate 13, the visible range of the light signal of the signal lamp 5 is improved, and no matter the mobile phone is in a state where the screen 11 faces upward or the bottom plate 13 faces upward, a user can see the light signal presented by the light-transmitting member 3, so that the user can more easily and more timely know that the mobile communication device receives new information. Meanwhile, since the signal lamp 5 is located in the hollow portion 17, the frame 15 and the light-transmitting member 3 are protected, and there is an advantage that the display space of the screen 11 is not occupied.

Referring to fig. 2, in a possible embodiment, the signal lamp further includes a light reflecting component 6, and the light reflecting component 6 is disposed in the hollow portion 17 and is located on a side of the signal lamp 5 away from the light-transmitting member 3; the light reflecting component 6 corresponds to a light signal emitting surface on one side, far away from the light transmitting piece 3, of the signal lamp 5, so that a light signal emitted by the signal lamp 5 is reflected to the direction of the light transmitting piece 3 through the light reflecting component 6.

In this embodiment, since the light of the signal lamp 5 is emitted to the periphery, the light signal at the side far away from the light-transmitting member 3 cannot be presented through the light-transmitting member 3, which causes waste of signal resources, and therefore, in this embodiment, the light reflecting component 6 reflects the light signal at the side far away from the light-transmitting member 3 of the signal lamp 5 to the light-transmitting member 3, so that the light signal resources of the signal lamp 5 can be utilized more comprehensively, and the light intensity of the light signal emitted to the light-transmitting member 3 is increased, so that a user can find the condition that the light-transmitting member 3 presents the light signal more easily.

In a possible embodiment, it further comprises a light-focusing assembly 7, said light-focusing assembly 7 being located between said signal lamp 5 and said light-transmissive member 3.

In this embodiment, since the light of the signal is emitted to the periphery, only a small part of the light signal can be presented through the light-transmitting member 3, and therefore, in this embodiment, the light-gathering component 7 can change the emission direction of the light signal, so that the light signal with dispersed emission angles is emitted to the light-transmitting member 3 in a concentrated manner, thereby increasing the light intensity of the light signal emitted to the light-transmitting member 3.

In a possible embodiment, the light-focusing assembly 7 is a convex lens; one side of light-transmitting member 3 is to the direction of signal lamp 5 extends to in the hollow portion 17, convex lens is fixed light-transmitting member 3 extends to one side in the hollow portion 17. The light-gathering component 7 is directly connected with the light-transmitting member 3, so that the light signal refracted by the light-gathering component 7 can directly act on the light-transmitting member 3.

Referring to fig. 3, in a possible embodiment, the light guide device further includes a light guide channel 8, the light guide channel 8 is located between the light focusing assembly 7 and the light transmissive member 3, one end of the light guide channel 8 is connected to the light focusing assembly 7, and the other end is connected to the light transmissive member 3. The light-gathering component 7 and the light-transmitting member 3 are fixed through the light-guiding channel 8.

Preferably, the light-focusing component 7 is a plano-convex lens; plano-convex lens includes convex surface portion and plane portion, convex surface portion orientation signal lamp 5, plane portion with light guide channel 8's one end fixed connection. The light condensing assembly 7 is fixedly connected with the light guide channel 8 through the plane part, so that the stability of the fixed position of the light condensing assembly 7 is improved, and the light condensing assembly 7 is prevented from shifting or changing the light condensing direction due to shaking.

In a possible embodiment, the light diffuser assembly 9 is further included, and the light diffuser assembly 9 is located at one end of the light guide channel 8 close to the transparent member.

Wherein, the light dispersion component 9 can be a convex lens or a plane concave lens, preferably, the light dispersion component 9 is a plane concave lens, and the light dispersion component 9 comprises a plane part and a concave part; preferably, the planar portion of the light dispersing assembly 9 faces the light focusing assembly 7, and the concave portion of the light dispersing assembly 9 faces the light transmitting member 3, so that the optical signal is refracted and dispersed and emitted after passing through the concave portion of the light dispersing assembly 9, thereby preventing the optical signal from being dispersed too early and causing waste of signal resources.

In this embodiment, when the light focusing assembly 7 focuses the optical signal and emits the optical signal to the light transmissive member 3 through the light guide channel 8, the focused optical signal cannot be presented through the upper end portion and the lower end portion of the light transmissive member 3, which results in a decrease of the visible range of the optical signal presented by the light transmissive member 3, and in this embodiment, the light scattering assembly 9 disperses and emits the optical signal, so that the emitting direction of the optical signal can cover the upper end portion and the lower end portion of the light transmissive member 3, and the optical signal can more completely act on the light transmissive member 3.

In a possible embodiment, the plano-convex lens is a fresnel lens, and the convex surface of the plano-convex lens is provided with concentric circle-shaped concave parts from small to large. The thickness of the plane convex mirror can be reduced by utilizing the structure of the Fresnel lens, the occupied space is reduced, and the whole weight is reduced.

In a possible embodiment, the light-transmitting element 3 is a nano-injection molded element manufactured by a nano-injection molding process. Has good light transmission effect

In a possible embodiment, the signal lamp 5 comprises an LED signal lamp, the light transmission performance parameters of the light-transmitting member 3 being matched to the type of the LED signal lamp. The light signal of the LED signal lamp can be presented more clearly.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (10)

1. A mobile communication device, comprising:

the screen and the bottom plate are parallel, and the frame is arranged around the screen and the bottom plate to form a hollow part; the frame is provided with at least one antenna broken joint which is communicated with the hollow part;

the light-transmitting piece is arranged at the antenna broken seam, and two ends of the light-transmitting piece are flush with the upper surface of the screen and the lower surface of the bottom plate respectively;

the signal lamp, the signal lamp is located in the hollow portion of casing, just the signal lamp is close to the light signal emission face of one side of printing opacity piece with the printing opacity piece corresponds, makes the light signal of signal lamp transmission appear in the printing opacity piece.

2. The mobile communication device of claim 1, wherein: the signal lamp further comprises a light reflecting component, wherein the light reflecting component is arranged in the hollow part and is positioned on one side of the signal lamp, which is far away from the light transmitting piece; the light reflecting component corresponds to a light signal emitting surface on one side, far away from the light transmitting piece, of the signal lamp, so that light signals emitted by the signal lamp are reflected to the direction of the light transmitting piece through the light reflecting component.

3. The mobile communication device of claim 2, wherein: the light-gathering component is positioned between the signal lamp and the light-transmitting piece.

4. The mobile communication device of claim 3, wherein: the light-gathering component is a convex lens; one lateral direction of printing opacity piece the direction of signal lamp extends to in the hollow portion, convex lens fixes printing opacity piece extends to one side in the hollow portion.

5. The mobile communication device of claim 3, wherein: the light guide channel is positioned between the light gathering component and the light transmission piece, one end of the light guide channel is connected with the light gathering component, and the other end of the light guide channel is connected with the light transmission piece.

6. The mobile communication device of claim 5, wherein: the light-gathering component is a plano-convex lens; the plano-convex lens comprises a convex surface part and a plane part, the convex surface part faces the signal lamp, and the plane part is fixedly connected with one end of the light guide channel.

7. The mobile communication device of claim 6, wherein: the light guide channel is provided with a light-transmitting piece, and the light-transmitting piece is arranged on the light guide channel and is provided with a light-diffusing component.

8. The mobile communication device of claim 6, wherein: the plane convex lens is a Fresnel lens, and the convex surface part of the plane convex lens is provided with a concave part which is concentric from small to large.

9. The mobile communication device of claim 1, wherein: the light-transmitting part is a nano injection molding part manufactured by a nano injection molding process.

10. The mobile communication device of claim 9, wherein: the signal lamp comprises an LED signal lamp, and the light transmission performance parameters of the light transmission piece are matched with the type of the LED signal lamp.

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