CN211280829U - Side-lighting streaming media rearview mirror - Google Patents

Abstract

The utility model relates to the technical field of a stream media rearview mirror, in particular to a side-lighting stream media rearview mirror, which comprises a lens, a shell, a screen display structure, a circuit board and a mirror rod bracket; the screen display structure and the circuit board are arranged in the shell, and the lens and the mirror rod bracket are respectively arranged on two symmetrical end surfaces of the shell; the LED lamp is arranged towards the screen display structure; the screen display structure receives the light of the LED lamp and converts the point light source into a surface light source which is arranged towards the lens. The utility model discloses an adopt the TFT screen as the backlight on having solved current streaming media rear-view mirror, nevertheless adopt this structure can lead to streaming media rear-view mirror calorific capacity more in the use, if not being equipped with good cooling system, can lead to streaming media rear-view mirror high temperature and the problem that machine down.

Description

Side-lighting streaming media rearview mirror

Technical Field

The utility model relates to a streaming media rear-view mirror technical field especially relates to a luminous streaming media rear-view mirror of side.

Background

The rearview mirrors are installed at different positions on a vehicle body, and comprise a left rearview mirror, a right rearview mirror and a central rearview mirror which are respectively used for reflecting the side and rear conditions of the vehicle, wherein the central rearview mirror also plays a role in judging the driving distance between the vehicle and a rear vehicle, and particularly, the central rearview mirror also comprises a streaming media rearview mirror.

The streaming media rearview mirror mainly refers to a technology for transmitting pictures to a rearview mirror display screen in a lossless and delay-free manner in real time through a camera installed on a vehicle body, recording and broadcasting are carried out simultaneously, an ultra-wide visual field is achieved, a visual field blind area is effectively eliminated, and better safety guarantee is provided for a vehicle owner, namely the camera replaces the rearview mirror. The streaming media rearview mirror is adopted, and has the following functions: ultra-large visual field, ultra-clear without deformation, ultra-strong anti-glare, rain-breaking and fog-breaking.

The existing streaming media rearview mirror usually adopts a TFT screen as a backlight source to illuminate a display screen, so that a driver can simply obtain display content on the display screen, the driver can master required information in the driving process, and the driving safety is ensured.

SUMMERY OF THE UTILITY MODEL

The invention provides a side-lighting streaming media rearview mirror, which solves the problems that the existing streaming media rearview mirror adopts a TFT screen as a backlight source, but the adoption of the structure can cause more heat productivity of the streaming media rearview mirror in the using process, and if no good heat dissipation system is equipped, the streaming media rearview mirror is over-high in temperature and crashed.

The utility model provides a side-lighting streaming media rearview mirror, which comprises a lens, a shell, a screen display structure, a circuit board and a mirror rod bracket; the screen display structure and the circuit board are arranged in the shell, and the lens and the mirror rod bracket are respectively arranged on two symmetrical end surfaces of the shell; the LED lamp is arranged towards the screen display structure; the screen display structure receives the light of the LED lamp and converts the point light source into a surface light source which is arranged towards the lens.

Preferably, the LED lamp is a band structure.

Preferably, the screen display structure comprises an IPS screen and a screen support in clamping connection with the IPS; the IPS screen and the screen support are clamped between the lens and the circuit board.

Preferably, the housing comprises a front shell and a rear shell which are detachably connected; the front shell, the IPS screen, the screen bracket, the circuit board and the rear shell are arranged in an overlapped mode; the front shell is of an annular structure, and the lens is arranged on the surface of the front shell in a stacked mode.

Preferably, a plurality of components are arranged on the circuit board, and the components face the rear shell.

Preferably, a plurality of fixing ribs are arranged on the front shell at the edge of the end surface facing the rear shell; a fixing piece arranged corresponding to the fixing rib is formed on the inner side of the rear shell; the fixing piece is detachably connected with the fixing rib.

Preferably, the shielding cover is arranged outside the component.

Preferably, the mirror rod support is detachably connected with the rear housing.

From the above, use the utility model provides a technical scheme can obtain following beneficial effect:

firstly, the utility model provides a flow media rear-view mirror adopts the LED lamp as the light source, is equipped with corresponding screen display structure again, makes the pointolite can disperse and form the area source, and then makes the content on the flow media rear-view mirror clearly show, and the flow media rear-view mirror that adopts this structure simultaneously is comparatively simple in construction, and calorific capacity is less, provides invariable ambient temperature for the flow media rear-view mirror, guarantees the normal use of rear-view mirror;

second, the utility model provides an adopt banded LED lamp on the streaming media rear-view mirror, and set up the LED lamp in one side of screen display structure, under the prerequisite of guaranteeing streaming media rear-view mirror normal use, still can reduce the volume of streaming media rear-view mirror, improved the flexibility that the streaming media rear-view mirror used.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is an exploded view of a streaming media rearview mirror according to an embodiment of the present invention;

fig. 2 is a sectional view of the assembly state of the streaming media rearview mirror according to the embodiment of the present invention.

Detailed Description

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

The existing streaming media rearview mirror adopts a TFT screen as a backlight source, but the adoption of the structure can cause more heat generation in the use process of the streaming media rearview mirror, and if a good heat dissipation system is not equipped, the problem that the streaming media rearview mirror is too high in temperature and crashed is caused.

As shown in fig. 1, in order to solve the above problem, the present embodiment provides a side-emitting streaming media rearview mirror, which mainly includes a lens 10, a housing, a screen display structure, a circuit board 40 and a mirror rod support; the screen display structure and the circuit board 40 are arranged in the shell, and the lens 10 and the mirror rod bracket are respectively arranged on two symmetrical end faces of the shell; also included are LED lights 60 disposed toward the on-screen display structure; the screen display structure receives light from the LED lamp 60 and converts the point light source into a surface light source disposed toward the lens 10.

In this embodiment, the light emitted from the LED lamp 60 is a point light, that is, the point light source, and a plurality of point light sources can form a surface light source, and only the surface light source covering the area of the mirror 10 of the streaming media rearview mirror can display the content of the streaming media rearview mirror, thereby ensuring that the content of each position on the streaming media rearview mirror is clearly displayed.

In the present embodiment, the point light source is converted into the surface light source by using the screen display structure, and the light emitted from the LED lamp 60 becomes softer due to physical phenomena such as reflection, that is, the display content on the surface of the streaming media rearview mirror does not cause eye fatigue of the driver, thereby ensuring the comfort of the driver during driving and ensuring that the driver is concentrated on the driving process.

More specifically, the LED lamp 60 has a band-shaped structure.

Preferably, but not limited to, the LED lamp 60 with a belt-shaped structure may be configured to be consistent with the length of the mirror 10 of the streaming media rearview mirror, so as to ensure that the light intensity received on the same horizontal line on the screen display structure close to the LED lamp 60 is consistent, ensure that the light on the formed surface light source is uniformly distributed, and further ensure that the light on the display content on the streaming media rearview mirror is uniform and the display content is clear.

More specifically, the screen display structure includes an IPS screen 31, and a screen holder 32 snap-coupled to the IPS screen 31; the IPS screen 31 and the screen support 32 are sandwiched between the lens 10 and the circuit board 40.

In the present embodiment, the panel holder 32 is used to fix the position of the IPS panel 31, that is, the IPS panel 31 reflects or scatters the point light source of the LED lamp 60 to form a surface light source, and then displays the surface light source through the lens 10, so in order to ensure that the light of the LED lamp 60 enters the IPS panel 31 without being blocked, the panel holder 32 may preferably be in a ring structure and fixed on the periphery of the IPS panel 31, and the LED lamp 60 may be disposed at a position where the light is completely emitted to the IPS panel 31 without being blocked, preferably on one side of the panel holder 32, as shown in fig. 2, so as to ensure that the brightness of each position on the surface light source formed by the IPS panel light.

Preferably but not the restrictive one, can fix through the mode of buckle between IPS screen 31 and screen support 32, still can be through the fixed mode of sliding, still can be through assembling fixed mode, and fixed mode is not limited, under the prerequisite that does not influence IPS structural integrity, ensures that fixed LED lamp 60 light can do not have the sheltering from entering IPS screen 31.

More specifically, the housing includes a front case 21 and a rear case 22 detachably connected; the front shell 21, the IPS screen 31, the screen support 32, the circuit board 40 and the rear shell 22 are stacked; the front shell 21 is a ring structure, and the lens 10 is stacked on the surface of the front shell 21.

In the present embodiment, the detachable connection of the rear shell 22 of the front shell 21 is mainly used to fix and mount the IPS screen 31, the screen bracket 32 and the circuit board 40, so that the streaming media rearview mirror of the present embodiment is a structural whole that can be repeatedly detached and mounted, and the streaming media rearview mirror can be repaired when a fault occurs.

In this embodiment, the front shell 21 with a ring structure can be used to fix the lens 10, so that the surface of the installed streaming media rearview mirror is not protruded, and the streaming media rearview mirror is a flat structure, thereby ensuring the aesthetic property of the streaming media rearview mirror.

In this embodiment, a plurality of components are disposed on the circuit board 40 and are disposed toward the rear case 22.

Preferably, but not limited to, the rear case 22 has a convex structure, so that the components on the circuit board 40 can be disposed between the front case 21 and the rear case 22.

In the present embodiment, the circuit board 40 serves as a circuit base of the streaming media rearview mirror, and the normal operation of the circuit is realized through electrical connection between several components, but in order to ensure that the components do not affect each other, it is preferable to add a shielding cover on the components.

Preferably, but not limited to, a plurality of fixing ribs are arranged on the front shell 21 towards the edge of the end surface of the rear shell 22; the inner side of the rear shell 22 is provided with a fixing piece corresponding to the fixing rib; the fixed rib is detachably connected with the fixed piece.

In this embodiment, can dismantle preceding shell 21 and the backshell 22 of connection and fix through the matching of fixed muscle and mounting, and this fixed mode can be repeated repetitious usage, also in the repeated dismantlement and the installation of flow media rear-view mirror, still can guarantee the fastness fixed between preceding shell 21 and backshell 22, and then guarantee the structural stability of flow media rear-view mirror.

If the front shell 21 and the rear shell 22 are mounted in a parallel manner, the fixing ribs should be perpendicular to the end face of the rear shell 22, and the fixing members should also be perpendicular to the end face of the rear shell 22, so as to ensure the matching mounting of the front shell 21 and the rear shell 22.

In this embodiment, the mirror bar support 50 is detachably mounted to the rear case 22 and should be fixed by a fastener.

In the present embodiment, the fixing manner between the mirror bar support 50 and the rear housing 22 is not limited.

In summary, the present embodiment provides a side-light-emitting streaming media rearview mirror, which mainly uses a side-light-emitting strip LED lamp to replace a conventional TFT screen LED lamp and other conventional light sources, so as to change a light-emitting structure of the streaming media rearview mirror, reduce a working temperature of the streaming media rearview mirror, ensure a normal operation of the streaming media rearview mirror, and reduce the number of failures of the streaming media rearview mirror.

The above-described embodiments do not limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the above-described embodiments should be included in the protection scope of the technical solution.

Claims (8)

1. A side-emitting streaming media rearview mirror comprises a lens, a shell, a screen display structure, a circuit board and a mirror rod bracket; the screen display structure and the circuit board are arranged in the shell, and the lens and the mirror rod bracket are respectively arranged on two symmetrical end surfaces of the shell; the method is characterized in that: the LED lamp is arranged towards the screen display structure;

the screen display structure receives the light of the LED lamp and converts the point light source into a surface light source which is arranged towards the lens.

2. A side-emitting streaming media rearview mirror as in claim 1, wherein: the LED lamp is of a strip-shaped structure.

3. A side-emitting streaming media rearview mirror as in claim 1, wherein: the screen display structure comprises an IPS screen and a screen support connected with the IPS in a clamping manner; the IPS screen and the screen support are clamped between the lens and the circuit board.

4. A side-emitting streaming media rearview mirror as in claim 3, wherein: the shell comprises a front shell and a rear shell which are detachably connected; the front shell, the IPS screen, the screen bracket, the circuit board and the rear shell are arranged in an overlapped mode; the front shell is of an annular structure, and the lens is arranged on the surface of the front shell in a stacked mode.

5. The side-emitting streaming media rearview mirror of claim 4, wherein: the circuit board is provided with a plurality of components, and the components face the rear shell.

6. The side-emitting streaming media rearview mirror of claim 4, wherein: a plurality of fixing ribs are arranged on the edge of the end surface of the front shell facing the rear shell; a fixing piece arranged corresponding to the fixing rib is formed on the inner side of the rear shell; the fixing piece is detachably connected with the fixing rib.

7. The side-emitting streaming media rearview mirror of claim 5, wherein: the shielding cover is arranged outside the component.

8. A side-emitting streaming media rearview mirror as in claim 1, wherein: the mirror rod support is detachably connected with the rear shell.

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