CN215336118U - Automobile position lamp capable of presenting stereoscopic vision effect - Google Patents

Abstract

The utility model relates to the technical field of automobile lamps, in particular to an automobile position lamp capable of presenting a stereoscopic visual effect, which comprises a lampshade, a decorative ring, a shell and an LED module, wherein the decorative ring, the LED module, a first thick-wall part and a second thick-wall part are arranged in the shell, the first thick-wall part and the second thick-wall part are arranged in a V shape, the decorative ring is provided with a first slot and a second slot, a pin of the first thick-wall part is inserted into the first slot, a pin of the second thick-wall part is inserted into the second slot, the first thick-wall part is provided with a first positioning hole, the second thick-wall part is provided with a second positioning hole, the decorative ring is provided with a first positioning rib and a second positioning rib, the first positioning rib is inserted into the first positioning hole, the second positioning rib is inserted into the second positioning hole, the LED module is arranged on the decorative ring, and the LED module is positioned above the first thick-wall part and the second thick-wall part The manufacturing and installation aspects have some limitations.

Description

Automobile position lamp capable of presenting stereoscopic vision effect

Technical Field

The utility model relates to the technical field of automobile lamps, in particular to an automobile position lamp capable of presenting a stereoscopic visual effect.

Background

The automobile lamp industry develops day by day, and luminous even, novel structure especially have the car position lamp of stereovision effect, more can obtain consumer's favor. The stereoscopic rendering of position lights with specific stereoscopic visual effects, which is common in the market at present, is mainly as follows:

1. and arranging the thick-wall pieces in an array mode. The mode is limited by modeling layout, and the whole weight of the thick-wall parts arranged in an array is large, the cost is high, and the requirements for installation and fixation are high.

2. Poor vision of bright and dark light. The mode mainly forms light brightness difference to achieve a three-dimensional effect by adding certain light-blocking decorative splines on an even light-transmitting surface, but the mode only utilizes the light brightness difference of light to achieve a relatively simple three-dimensional visual effect.

3. A three-dimensional modeling light reflecting mode. According to the mode, the stereoscopic vision effect is formed after light rays are directly irradiated to the surface of the uneven decorative ring, but the requirement on the molding processing precision of the decorative ring is high, the surface treatment process is complex, and the overall cost is high.

Therefore, the current common way for the position lamp to present the stereoscopic vision effect has some limitations in terms of cost, manufacture and installation.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an automobile position lamp presenting a stereoscopic vision effect, and aims to solve the problem that the conventional mode of presenting the stereoscopic vision effect by the position lamp in the prior art has some limitations in the aspects of cost, manufacture, installation and the like.

In order to achieve the purpose, the utility model provides the following technical scheme: an automobile position lamp presenting stereoscopic visual effect comprises a lampshade, a decorative ring, a shell and an LED module, the lampshade is fixed on the shell, the lampshade and the shell form a closed cavity, the closed cavity is internally provided with a decorative ring, an LED module, a first thick-wall part and a second thick-wall part, the first thick-wall part and the second thick-wall part are arranged in a V shape, the decorative ring is provided with a first slot and a second slot, the plug pins of the first thick-wall part are inserted into the first slot, the plug pins of the second thick-wall part are inserted into the second slot, the first thick-wall part is provided with a first positioning hole, the second thick-wall part is provided with a second positioning hole, the decorative ring is provided with a first positioning rib and a second positioning rib, the first positioning rib is inserted into the first positioning hole, the second positioning rib is inserted into the second positioning hole, the LED module is installed on the decorative ring, and the LED module is located above the first thick-wall part and the second thick-wall part.

Preferably, the LED module is provided with a third positioning hole and a fourth positioning hole, the first positioning rib is inserted into the third positioning hole, and the second positioning rib is inserted into the fourth positioning hole.

Preferably, the lampshade and the shell are fixed by welding.

Preferably, two rows of LED lamp bead arrays are arranged on the LED module, a light shield is arranged between the two rows of LED lamp bead arrays, and the light shield is inserted into a V-shaped opening formed by the first thick-wall part and the second thick-wall part.

Preferably, the distance between two adjacent lamp beads on the LED lamp bead array is 8mm-10 mm.

Preferably, the LED lamp beads are super-red LED lamp beads.

Preferably, the first thick-wall part and the second thick-wall part are respectively provided with a modeling dermatoglyph.

Preferably, the first and second thick-walled members are provided with a diffusing pattern at the light source.

Preferably, the side of the first slot and the second slot is provided with a convex surface, and the height of the convex surface is more than or equal to 5 mm.

Preferably, the first thick-walled material and the second thick-walled material satisfy a luminance ratio of 1.5: the height at 1 is not more than 50 mm.

Compared with the prior art, the utility model has the beneficial effects that: the two thick-wall parts are arranged in the shell in a V shape, and different stereoscopic visual effects are presented along with the change of an observation angle after the light source passes through the two thick-wall parts; the positioning and installation of the thick-wall part and the LED module are integrally positioned through the positioning ribs on the decorative ring, so that the positioning precision is high, and the installation and the fixation are convenient and simple; the arrangement of the light shield can shield and eliminate the problem of bright spots of the light inlet and outlet ends of the thick-wall part.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural diagram of an optical assembly according to the present invention;

FIG. 3 is a schematic view of a portion of the first thick-walled member of the present invention;

FIG. 4 is a schematic view of a portion of the second thick-walled member of the present invention;

fig. 5-8 are schematic views of the sculpted dermatoglyph viewed from different angles.

In the figure: 1. the LED lamp comprises a lampshade, a shell, a decoration ring, a first positioning rib, a second positioning rib, a first slot, a second slot, a first thick-wall part, a first positioning hole, a first supporting rib, a second thick-wall part, a second positioning hole, a second supporting rib, a light shield, a light-emitting diode (LED) module, a molding leather pattern and a diffusion pattern, wherein the lamp shade is 2, the shell is 3, the decoration ring is 31, the first positioning rib is 32, the second positioning rib is 33, the first slot is 34, the second slot is 4, the first thick-wall part is 41, the first positioning hole is 42, the second supporting rib is 5, the second thick-wall part is 51, the second positioning hole, the second supporting rib is 52, the light shield is 6, the LED module is 7, the molding leather pattern is 8, and the diffusion pattern is 9.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, 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 invention.

Referring to fig. 1-8, the present invention provides a technical solution: an automobile position lamp presenting a stereoscopic visual effect comprises a lampshade 1, a decorative ring 3, a shell 2 and an LED module 7, wherein the lampshade 1 is fixed on the shell 2 in a welding mode, the lampshade 1 can be of a single-color or multi-color structure, concretely, the welding mode of the lampshade 1 and the shell 2 can be hot plate welding or vibration friction welding or laser welding, the lampshade 1 and the shell 2 which are welded together form a closed cavity, the decorative ring 3, the LED module 7, a first thick-wall part 4 and a second thick-wall part 5 are arranged in the closed cavity, the first thick-wall part 4 and the second thick-wall part 5 are arranged in a V shape, a first slot 33 and a second slot 34 are arranged on the decorative ring 3, a pin of the first thick-wall part 4 is inserted into the first slot 33 to realize bottom limitation of the first thick-wall part 4, a pin of the second thick-wall part 5 is inserted into the second slot 34 to realize bottom limitation of the second thick-wall part 5, the first thick-wall part 4 is provided with a first positioning hole 41, the second thick-wall part 5 is provided with a second positioning hole 51, the decorative ring 3 is provided with a first positioning rib 31 and a second positioning rib 32, the first positioning rib 31 is inserted into the first positioning hole 41 to realize the upper limiting of the first thick-wall part 4, the second positioning rib 32 is inserted into the second positioning hole 51 to realize the upper limiting of the second thick-wall part 5, the LED module 7 is arranged on the decorative ring 3, the LED module 7 is positioned above the first thick-wall part 4 and the second thick-wall part 5, concretely, the LED module 7 is provided with a third positioning hole and a fourth positioning hole, the first positioning rib 31 is inserted into the third positioning hole, the second positioning rib 32 is inserted into the fourth positioning hole, the first thick-wall part 4 is provided with a first supporting rib 42, the second thick-wall part 5 is provided with a second supporting rib 52, the LED module 7 and the decorative ring 3 are sleeved to form the limiting with the supporting ribs on the first thick-wall part 4 and the second thick-wall part 5, after the light source passed through 2 inside two thick wall spares that are the V font and put, the realization demonstrates different stereovision effect along with observation angle's change, compares in the stereovision effect that other array arrangement thick wall spares formed, perhaps forms the stereovision effect of visual contrast through the light and shade of control light again, and parts machining is more convenient, and assembly structure is simpler, and visual effect is more three-dimensional.

Preferably, two rows of LED lamp bead arrays are arranged on the LED module 7, the distance between two adjacent lamp beads on the LED lamp bead arrays is 8-10 mm, a light shield 6 is arranged between the two rows of LED lamp bead arrays, the light shield 6 is inserted into a V-shaped opening formed by the first thick-wall part 4 and the second thick-wall part 5, and the light shield 6 is in hot riveting fit with the LED module 7, so that light fleeing between the two rows of LED lamp bead arrays can be shielded, and bright spots at a light source can be shielded.

Preferably, the LED lamp beads are super-red LED lamp beads, and the lighting effect is better.

Preferably, the first thick-wall part 4 and the second thick-wall part 5 are respectively provided with modeling dermatoglyphs 8, the projections of the modeling dermatoglyphs 8 on the two thick-wall parts in the X direction can be overlapped, intersected or not intersected, the modeling dermatoglyphs 8 can be in a long strip shape, a round shape or a wave shape, and the modeling dermatoglyphs 8 can be dermatoglyphs of various specifications, so that different three-dimensional pattern effects can be formed. In this embodiment, the sculpted dermatoglyph 8 is strip-shaped, and the three-dimensional effect presented at different angles is shown in fig. 5-8.

Preferably, the first thick-wall part 4 and the second thick-wall part 5 are provided with a bar-shaped diffusion pattern 9 at the light source, so that light can be uniformly irradiated on the thick-wall parts to reduce the formation of local bright spots.

Preferably, the first slot 33 and the second slot 34 are provided with convex surfaces beside each other, and the height of the convex surfaces is larger than or equal to 5mm, so that light spots at the light-emitting ends of the first thick-wall part 4 and the second thick-wall part 5 are shielded.

Preferably, the first thick-walled material 4 and the second thick-walled material 5 are arranged so that a luminance ratio from the light-entrance end to the light-exit end is 1.5: the height at 1 is not more than 50 mm.

Preferably, the thickness of the first thick-walled material 4 and the second thick-walled material 5 is 4mm or more, and may be uniform or gradual.

The installation process comprises the following steps: the first thick-wall part 4 and the second thick-wall part 5 form bottom limit through a base pin at the bottom and a slot on the decorative ring 3, the upper parts of the first thick-wall part 4 and the second thick-wall part 5 are sleeved into a positioning rib on the decorative ring 3 through a positioning hole to complete the integral limit of the two thick-wall parts, the light shield 6 and the LED module 7 are installed through hot riveting, the LED module 7 is sleeved into the positioning rib on the decorative ring 3 through the positioning hole as a whole, and the positioning support is completed after the LED module is adhered to a support rib on the thick-wall part; the whole positioning and installation of the optical component are completed by hot riveting the positioning ribs on the decoration ring 3 to form a decoration ring sub-assembly; then the decoration ring sub-assembly and the shell 2 are locked together by screws to complete the fixation to form a shell sub-assembly; and finally, the whole installation process of the lamp is completed by welding the lampshade 1 and the shell sub-assembly.

The novel thick-wall part combined installation scheme is adopted, in the aspect of appearance, the problem of bright spots at the light inlet and outlet ends of the thick-wall part is solved through the shielding of the decorative ring and the light shield, and the three-dimensional effect of dynamic change is generated along with the change of the observation angle by lightening the dermatoglyphs arranged in the V-shaped array; in the aspect of installation, the positioning and installation fixing of the thick-wall part and the LED module are integrally positioned through the positioning ribs on the decorative ring, the positioning precision is high, and the installation and the fixation are convenient and simple.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a present car position lamp of stereovision effect, includes lamp shade (1), decorations circle (3), casing (2) and LED module (7), lamp shade (1) is fixed on casing (2), lamp shade (1) and casing (2) form a closed cavity, its characterized in that: a decoration ring (3), an LED module (7), a first thick-wall part (4) and a second thick-wall part (5) are arranged in the closed cavity, the first thick-wall part (4) and the second thick-wall part (5) are arranged in a V shape, a first slot (33) and a second slot (34) are arranged on the decoration ring (3), pins of the first thick-wall part (4) are inserted into the first slot (33), pins of the second thick-wall part (5) are inserted into the second slot (34), a first positioning hole (41) is arranged on the first thick-wall part (4), a second positioning hole (51) is arranged on the second thick-wall part (5), a first positioning rib (31) and a second positioning rib (32) are arranged on the decoration ring (3), the first positioning rib (31) is inserted into the first positioning hole (41), the second positioning rib (32) is inserted into the second positioning hole (51), and the LED module (7) is installed on the decoration ring (3), the LED module (7) is positioned above the first thick-wall part (4) and the second thick-wall part (5).

2. The vehicle position light for presenting stereoscopic vision effect of claim 1, wherein: the LED module (7) is provided with a third positioning hole and a fourth positioning hole, the first positioning rib (31) is inserted into the third positioning hole, and the second positioning rib (32) is inserted into the fourth positioning hole.

3. The vehicle position light for presenting stereoscopic vision effect of claim 1, wherein: the lampshade (1) and the shell (2) are fixed in a welding mode.

4. The vehicle position light for presenting stereoscopic vision effect of claim 1, wherein: the LED module (7) is provided with two rows of LED lamp bead arrays, a light shield (6) is arranged between the two rows of LED lamp bead arrays, and the light shield (6) is inserted into a V-shaped opening formed by the first thick-wall part (4) and the second thick-wall part (5).

5. The vehicle position light for presenting stereoscopic vision effect of claim 4, wherein: the distance between two adjacent lamp beads on the LED lamp bead array is 8-10 mm.

6. The vehicle position light for presenting stereoscopic vision effect of claim 5, wherein: the LED lamp beads are super red LED lamp beads.

7. The vehicle position light for presenting stereoscopic vision effect of claim 1, wherein: and the first thick-wall part (4) and the second thick-wall part (5) are respectively provided with a modeling dermatoglyph (8).

8. The vehicle position light for presenting stereoscopic vision effect of claim 1, wherein: the first thick-wall part (4) and the second thick-wall part (5) are provided with diffusion patterns (9) at the light source.

9. The vehicle position light for presenting stereoscopic vision effect of claim 1, wherein: and convex surfaces are arranged beside the first slot (33) and the second slot (34), and the height of each convex surface is more than or equal to 5 mm.

10. The vehicle position light for presenting stereoscopic vision effect of claim 1, wherein: the first thick-walled member (4) and the second thick-walled member (5) satisfy a luminance ratio of 1.5: the height at 1 is not more than 50 mm.

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