CN105643099A - Car light welding device and car light welding technology - Google Patents

Abstract

The invention relates to the packaging field, in particular to a car light welding device and a car light welding technology. The car light welding device comprises a light body, a lens arranged close to the light body and forming a welding face together with the light body, a plurality of light sources arranged around the welding face and used for emitting laser beams which can be irradiated onto the welding face to melt the welding face so as to weld the light body with the lens. The car light welding technology comprises the following steps that a lens is arranged close to a light body to enable the light body and the lens to form a welding face; the welding face is irradiated by a plurality of light sources arranged around the welding face so as to enable the welding face to melt; and a pushing mechanism generates a thrust to enable the light body and the lens to be in press-fit so as to weld the light body with the lens.

Description

Car lamp welding device and process

Technical Field

The invention relates to the field of packaging, in particular to a welding device and a welding process for a car lamp.

Background

The existing automobile lamp usually comprises a lamp body and a lens, and a welding process is needed to be adopted for packaging the lamp body and the lens, but the existing welding process usually adopts a light source perpendicular to the lens, and the intensity of welding light received by a welding surface is different for uneven welding surfaces, so that the welding uniformity is poor.

Disclosure of Invention

Aiming at the problems in the prior art, the device and the process for welding the vehicle lamp are provided, and the lamp body and the lens can be uniformly welded.

The specific technical scheme is as follows:

a welding device for a vehicle lamp, comprising:

a lamp body;

the lens is arranged close to the lamp body and forms a welding surface with the lamp body;

and the plurality of light sources are arranged along the periphery of the welding surface and used for emitting laser beams so that the laser beams irradiate the welding surface to melt the welding surface, and then the lamp body is welded with the lens.

Preferably, the plurality of light sources are disposed directly above the bonding surface.

Preferably, the lamp body is provided with a convex welding rib, the lens is provided with a rib groove matched with the welding rib, and the welding rib and the rib groove form the welding surface.

Preferably, the material of the lens is a transparent material.

Preferably, the material of the lamp body is an absorbing material.

Preferably, the method comprises the following steps:

and the pushing mechanism can be respectively connected with the lamp body and the lens and is used for generating thrust so as to enable the laser beam to irradiate the welding surface, and the pushing mechanism utilizes the thrust to press the lamp body and the lens.

A welding process for a vehicle lamp, comprising:

placing a lens close to a lamp body, wherein a welding surface is formed between the lamp body and the lens;

irradiating the welding surface by adopting a plurality of light sources arranged along the circumference of the welding surface, and melting the welding surface;

and a pushing mechanism generates pushing force to press the lamp body and the lens, so that the lamp body and the lens are welded.

In the welding process of the car lamp, a convex welding rib is arranged on the lamp body, and a rib groove matched with the welding rib is arranged on the lens; wherein,

placing the welding rib in the rib groove, wherein the welding rib and the rib groove form the welding surface;

irradiating the welding surface by adopting a plurality of light sources arranged along the circumference of the welding surface, and melting the welding surface;

and a pushing mechanism generates pushing force to press the welding ribs in the rib grooves.

The beneficial effects of the above technical scheme are:

according to the technical scheme, the plurality of light sources are arranged on the periphery of the welding surface, so that the light sources do not need to irradiate the welding surface through the light distribution lens, the plurality of light sources can ensure that the welding surface can receive uniform laser, and uniform welding is formed between the lamp body and the light distribution lens.

Drawings

FIGS. 1-2 are schematic structural views of an embodiment of a welding device for a vehicle lamp according to the present invention;

FIG. 3 is a flowchart illustrating steps of a welding process for a vehicle lamp according to an embodiment of the present invention.

Detailed Description

In the following embodiments, the technical features may be combined with each other without conflict.

The following further describes embodiments of the present invention with reference to the drawings:

a welding device for a vehicle lamp, as shown in fig. 1, comprising:

a lamp body 1;

the lens 2 is arranged close to the lamp body 1 and forms a welding surface 3 with the lamp body 1;

a plurality of light sources 4, set up along face of weld 3 a week for emission laser beam 5 to make laser beam 5 shine to face of weld 3 and melt face of weld 3, and then realize the welding of lamp body 1 and lens 2.

In the present embodiment, the vehicle lamp includes a lamp body 1 and a lens 2, the vehicle lamp is disposed opposite to the lens 2, and a welding surface 3 is formed on the opposite surface of the vehicle lamp and the lamp body 1 with respect to the position of the lamp body 1, that is, the welding surface 3 includes a part of the lamp body 1 and a part of the lens 2. And a plurality of light sources 4 set up along the a week of face of weld 3 and can shine face of weld 3 from a plurality of angles for face of weld 3 melts, realizes the even welding of face of weld 3.

In a preferred embodiment of the present invention, the plurality of light sources 4 are disposed directly above the bonding surface 3.

In a preferred embodiment of the present invention, the lamp body 1 is provided with a protruding welding rib 7, the lens 2 is provided with a rib groove 6 adapted to the welding rib 7, and the welding rib 7 and the rib groove 6 form a welding surface 3.

In a preferred embodiment of the present invention, the lens 2 is made of a light-transmitting material.

In a preferred embodiment of the present invention, the material of the lamp body 1 is an absorbing material.

In a preferred embodiment of the present invention, the method further comprises:

the pushing mechanism can be connected with the lamp body 1 and the lens 2 respectively and used for generating thrust so that when the laser beam 5 irradiates the welding surface 3, the pushing mechanism utilizes the thrust to press the lamp body 1 and the lens 2.

In this embodiment, as shown in fig. 2, a convex welding rib 7 is arranged in the lamp body 1, the convex welding rib 7 can be arranged in a rib groove 6 of the lens 2, i.e., a welding surface 3 is formed between the welding rib 7 and the rib groove 6, the laser beam 5 can irradiate the welding rib 7 to melt the welding rib 7, in the process of pushing the lamp body 1 and the lens 2 to press the lamp body 1 and the lens 2 together, because the distance between the lamp body 1 and the lens 2 is continuously close to each other, and the welding rib 7 can be softened when being melted, the melted part of the welding rib 7 in the pressing process can be spread like two sides, and the condition that the melted material overflows in the original plane shape can be avoided by arranging the rib groove 6.

In this embodiment, the material that melts in the laser welding process in the rib groove 6 can stretch to rib groove 6 both sides under the effect that pushing mechanism promoted, can avoid the material that melts in the laser welding process to overflow lamp body 1 and lens 2 through setting up the size of pushing mechanism thrust and the size of rib groove 6, welding muscle 7.

The embodiment further provides a welding process for a vehicle lamp, as shown in fig. 3, including:

placing a lens close to a lamp body, wherein the lamp body and the lens form a welding surface;

irradiating the welding surface by adopting a plurality of light sources arranged along the circumference of the welding surface, and melting the welding surface;

a pushing mechanism generates pushing force to press the lamp body and the lens, and welding of the lamp body and the lens is achieved.

In a preferred embodiment of the invention, in the welding process of the vehicle lamp, a convex welding rib is arranged on a lamp body, and a rib groove matched with the welding rib is arranged on a lens; wherein,

placing the welding rib in the rib groove, wherein the welding rib and the rib groove form a welding surface;

irradiating the welding surface by adopting a plurality of light sources arranged along the circumference of the welding surface, and melting the welding surface;

a pushing mechanism generates pushing force to press the welding ribs in the rib grooves.

The surface shape of the welding rib in this embodiment can make curve shape, also can be the cockscomb structure, and the shape in the muscle groove that corresponds needs to correspond with the shape of welding rib, and this embodiment is through setting up a muscle groove on the lens to set up a welding rib that corresponds with muscle groove shape on the lamp body, increased the contact surface of lamp body with the welding rib, played better fixed effect.

Further, can carry out the big heat irradiation of laser beam in welding muscle department in this embodiment, make the face of weld of welding muscle department melt, the welding muscle of the face of weld department that melts after to lamp body and lens pressfitting can be to both sides diffusion, and do not set up the planar fixed effectual that is equipped with the muscle groove owing to fixed effect of welding muscle, need carry out laser welding to lamp body and face of weld whole surface, if only weld partly can lead to lamp body and lens welded inhomogeneous, the opposite lens that is equipped with the muscle groove itself fixed effect will increase, so only need carry out partial welding back, both can realize even welding through pressfitting lamp body and lens, and can not overflow and glue, this embodiment can reduce the quantity of light source through welding the welding muscle to part, resources are saved.

In conclusion, the technical scheme is that the plurality of light sources are arranged on the periphery of the welding surface, so that the light sources do not need to irradiate the welding surface through the lens, the plurality of light sources can ensure that the welding surface can receive uniform laser, and uniform welding is formed between the lamp body and the lens.

While the specification concludes with claims defining exemplary embodiments of particular structures for practicing the invention, it is believed that other modifications will be made in the spirit of the invention. While the above invention sets forth presently preferred embodiments, these are not intended as limitations.

Various alterations and modifications will no doubt become apparent to those skilled in the art after having read the above description. Therefore, the appended claims should be construed to cover all such variations and modifications as fall within the true spirit and scope of the invention. Any and all equivalent ranges and contents within the scope of the claims should be considered to be within the intent and scope of the present invention.

Claims (8)

1. A car light welding device, characterized by, includes:

a lamp body;

the lens is arranged close to the lamp body and forms a welding surface with the lamp body;

and the plurality of light sources are arranged along the periphery of the welding surface and used for emitting laser beams so that the laser beams irradiate the welding surface to melt the welding surface, and then the lamp body is welded with the lens.

2. The vehicle lamp welding device according to claim 1, wherein the plurality of light sources are provided directly above the welding surface.

3. The welding device for the vehicle lamp according to claim 1, wherein a protruding welding rib is provided on the lamp body, a rib groove adapted to the welding rib is provided on the lens, and the welding rib and the rib groove form the welding surface.

4. The vehicle lamp welding device according to claim 1, wherein the material of the lens is a transparent material.

5. The vehicle lamp welding device according to claim 1, wherein a material of the lamp body is an absorbing material.

6. The vehicle lamp welding device according to claim 1, further comprising:

and the pushing mechanism can be respectively connected with the lamp body and the lens and is used for generating thrust so as to enable the laser beam to irradiate the welding surface, and the pushing mechanism utilizes the thrust to press the lamp body and the lens.

7. A welding process for a vehicle lamp, comprising:

placing a lens close to a lamp body, wherein a welding surface is formed between the lamp body and the lens;

irradiating the welding surface by adopting a plurality of light sources arranged along the circumference of the welding surface, and melting the welding surface;

and a pushing mechanism generates pushing force to press the lamp body and the lens, so that the lamp body and the lens are welded.

8. The vehicle lamp welding process according to claim 7, wherein in the vehicle lamp welding process, a protruding welding rib is arranged on the lamp body, and a rib groove matched with the welding rib is arranged on the lens; wherein,

placing the welding rib in the rib groove, wherein the welding rib and the rib groove form the welding surface;

irradiating the welding surface by adopting a plurality of light sources arranged along the circumference of the welding surface, and melting the welding surface;

and a pushing mechanism generates pushing force to press the welding ribs in the rib grooves.