CN-224229941-U - LED light supplementing lens

Abstract

The utility model discloses an LED light supplementing lens which comprises a host shell, a backlight lamp belt, a mirror surface, an active heat dissipation type lamp belt group, a control button and a base, wherein the backlight lamp belt is arranged on three sides of the rear end of the host shell, the mirror surface is arranged at the front end of the host shell, the active heat dissipation type lamp belt group is arranged on the periphery of the mirror surface, the control button is electrically connected to the bottom end of the mirror surface, the host shell and the base are assembled, the LED light supplementing lens is designed and suitable for the active heat dissipation operation of the lamp belt, heat generated by the lamp belt is thermally conducted to the wall of a rectangular ventilation pipe through a heat conducting alloy sheet and a heat radiating sheet, the micro heat radiating machine is electrically started to quickly conduct heat to take away and emit the heat through the host shell, the side lamp belt of the backlight lamp belt is electrified to reflect the light through the oblique angle of an oblique reflector, the backlight lamp belt and the mirror surface lamp belt are synchronously electrically started, the same-color light source supplements the light, uniformity of a peripheral light source of the mirror surface is guaranteed, and the observation of a cosmetic effect is facilitated.

Inventors

• Tang Ruofei

Assignees

• 滕州市裕维电子科技有限公司

Dates

Publication Date

20260512

Application Date

20250522

Claims (2)

1. 1. The utility model provides a LED light filling mirror, a serial communication port, including host computer casing (1), backlight area (2), mirror surface (3), initiative heat dissipation formula lamp area group (4), control button (5), base (6), host computer casing (1) rear end trilateral install backlight area (2), mirror surface (3) are installed to host computer casing (1) front end, mirror surface (3) periphery is provided with initiative heat dissipation formula lamp area group (4), control button (5) are installed in electric connection in mirror surface (3) bottom position, host computer casing (1) and base (6), the combination formula is installed, initiative heat dissipation formula lamp area group (4) are by lamp area support (7), lamp area (8), heat conducting alloy piece (9), fin (10), rectangle ventilation pipe (11) and miniature heat dissipation fan (12) are constituteed, lamp area support (7) embedded installation lamp area (8) are installed according to upper and lower combination by lamp area support (7), miniature fan (12) are installed in rectangle ventilation pipe (11) front and rear end position, backlight area (2) are by backlight area (13) area, lamp area (13) and reflector panel (15) are built-in to be built-in angle reflection of light (15), the side lamp strip (14) is arranged at the inner side of the oblique angle reflector (15).
2. 2. An LED light supplementing mirror according to claim 1, characterized in that the base (6) is internally provided with a counterweight lead block.

Description

LED light supplementing lens Technical Field The utility model relates to an LED light supplementing lens, and belongs to the technical field of LED light supplementing lenses. Background In different types of LED mirrors, brightness often becomes a critical factor in the selection. Some mirrors still cannot meet the demands of users for details when the light is adjusted to the highest. While some high brightness LED compensators provide near natural illumination to allow you to see every detail of the face more clearly. When the light is sufficient, the problems of pores, acne and the like are not hidden. The lamp strip calorific capacity is great and do not have active heat radiation structure, and traditional LED mirror does not have the inhomogeneous effect of background light ray to make up the effect. Disclosure of utility model The utility model aims to provide an LED light supplementing mirror for solving the problems in the background technology. The LED light supplementing lens comprises a main machine shell, a backlight lamp band, a mirror surface, an active heat dissipation type lamp band set, a control button and a base, wherein the backlight lamp band is arranged on three sides of the rear end of the main machine shell, the mirror surface is arranged on the front end of the main machine shell, the active heat dissipation type lamp band set is arranged on the periphery of the mirror surface, the control button is electrically connected to the bottom end of the mirror surface, and the main machine shell and the base are installed in a combined mode. Preferably, the active heat dissipation type lamp band group comprises a lamp band support, a lamp band, heat conduction alloy sheets, radiating fins, a rectangular ventilation pipe and a miniature heat dissipation fan, the lamp band support is embedded to install the lamp band, the lamp band support, the heat conduction alloy sheets and the radiating fins are installed in an up-down combined mode, and the miniature heat dissipation fan is installed at the front end and the rear end of the rectangular ventilation pipe. Preferably, the backlight strip comprises a backlight strip box, a side lamp strip and an oblique angle reflecting plate, the oblique angle reflecting plate is arranged in the backlight strip box at an angle of 45 degrees, and the side lamp strip is arranged at the inner side of the oblique angle reflecting plate. Preferably, the base is internally provided with a counterweight lead block. Compared with the prior art, the utility model has the beneficial effects that: The active radiating type lamp band group consists of a lamp band bracket, a lamp band, a heat conducting alloy sheet, radiating fins, a rectangular ventilating pipe and a miniature radiating fan, wherein heat generated by the lamp band is thermally conducted to the wall of the rectangular ventilating pipe through the heat conducting alloy sheet and the radiating fins, and the miniature radiating fan is electrically started to conduct heat rapidly and take away and radiate the heat through a host shell; The backlight strip consists of a backlight strip box, a side lamp strip and an oblique angle reflecting plate, the side lamp strip of the backlight strip is electrified to enable light rays of the side lamp strip to be reflected by the oblique angle reflecting plate at an oblique angle, the backlight strip and the mirror surface lamp strip are synchronously and electrically started, and the same-color light source supplements light, so that uniformity of peripheral light sources of the mirror surface is guaranteed, and the observation of cosmetic effects is facilitated. Drawings FIG. 1 is a schematic diagram of an LED light compensator according to the present utility model; FIG. 2 is a schematic diagram of the mounting structure of the LED light compensating lens of the utility model; FIG. 3 is a schematic view of an active heat dissipating lamp set according to the present utility model; fig. 4 is a schematic view of a backlight belt according to the present utility model. In the figure, 1, a host shell, 2, a backlight lamp band, 3, a mirror, 4, an active heat radiation type lamp band, 5, a control button, 6, a base, 7, a lamp band bracket, 8, a lamp band, 9, a heat conduction alloy sheet, 10, a radiating sheet, 11, a rectangular ventilation pipe, 12, a miniature radiating fan, 13, a backlight lamp band box, 14, a side lamp band, 15 and an oblique angle reflecting plate. Detailed Description The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. As shown in fig. 1-4, an LED light supplementing mirror includes a main housing 1, a backlight strip 2, a mirror surface 3, an active heat dissipation type strip 4, a control button 5, and a base 6, wherein the backlight strip 2 is installed on three sides of the rear end o