CN112275591A - Multi-degree-of-freedom-adjustment UV point light source curing device - Google Patents

Abstract

The invention discloses a multi-degree-of-freedom-degree-adjustable UV point light source curing device which comprises an irradiator mounting plate, two arc-shaped guide rails oppositely arranged at the bottom of the irradiator mounting plate, and two UV light assemblies arranged on each arc-shaped guide rail in a sliding manner; each UV lamp assembly is moved through an arcuate guide to adjust its position on the illuminator mounting plate. The invention can realize the simultaneous precuring of two or more layers of glue, each UV lamp can be independently adjusted in multiple degrees of freedom, and the UV lamp is flexible and convenient.

Description

Multi-degree-of-freedom-adjustment UV point light source curing device

Technical Field

The invention relates to the technical field of UV irradiation curing, in particular to a multi-degree-of-freedom adjustable UV point light source curing device.

Background

Along with the wide use of AA equipment, more and more cameras begin to walk the AA processing procedure, so the quality of camera module is greatly improved, the yield of module factories has been increased simultaneously. In the AA process, the UV pre-cure function of the AA equipment plays a crucial role in the yield of the module.

The restriction of the degree of freedom of machine is great for current UV solidification equipment, and to a great extent can only carry out the precuring to fixed angle, to special-shaped module, the great module of size etc. can't reach the best UV and shine the position, leads to UV effect to descend by a wide margin or UV time increases, finally leads to the module effect of AA completion relatively poor, the yield reduces, the productivity reduces the scheduling problem.

In addition, in the camera assembling process, parts such as an image Sensor (Sensor) and a Lens (Lens) are assembled for many times. With the continuous development of camera technologies, the optical path of a camera is more complex, each camera includes a plurality of Lens (Lens) components, and the plurality of camera components need to be pre-cured after being glued and assembled. In the prior art, a plurality of camera components cannot be pre-cured at the same time, and the finished camera cannot meet the expected design requirement due to excessive turnover and process conversion.

Disclosure of Invention

The invention aims to provide a multi-degree-of-freedom-degree-adjustable UV point light source curing device, which can realize the simultaneous pre-curing of glue of a plurality of camera parts, each UV lamp can be independently adjusted in multiple degrees of freedom, and is flexible and convenient.

In order to realize the purpose, the following technical scheme is adopted:

a multi-degree-of-freedom-degree-adjustable UV point light source curing device comprises a radiation device mounting plate, two arc-shaped guide rails oppositely arranged at the bottom of the radiation device mounting plate, and two UV light assemblies arranged on each arc-shaped guide rail in a sliding manner; each UV lamp assembly is moved through an arcuate guide to adjust its position on the illuminator mounting plate.

Preferably, each UV lamp assembly comprises two UV lamps which are arranged up and down, and two UV lamp adjusting frames; each UV lamp is arranged on the arc-shaped guide rail through a UV lamp adjusting frame; UV lamp alignment jig includes from last to down setting gradually shine high regulation module, shine face angle regulation module, shine pitch angle regulation module to and locate and shine pitch angle regulation module one side shine horizontal distance regulation module.

Preferably, the UV lamp adjusting frame further comprises a fixing block, a first inverted L-shaped connecting block, a second inverted L-shaped connecting block, and an installation block arranged on one side of the second inverted L-shaped connecting block, which are sequentially arranged from top to bottom; the irradiation height adjusting module is arranged at the joint of the fixed block and the first inverted L-shaped connecting block; the irradiation surface angle adjusting module is arranged at the joint of the first inverted-L-shaped connecting block and the second inverted-L-shaped connecting block; the irradiation pitching angle adjusting module is arranged at the joint of the second inverted L-shaped connecting block and the mounting block; the irradiation horizontal distance adjusting module is arranged on the mounting block.

Preferably, the irradiation height adjusting module comprises a linear waist-shaped hole arranged in the middle of the fixing block in the vertical direction, and a first screw knob used for locking and adjusting the L-shaped transverse end of the first inverted L-shaped connecting block on the linear waist-shaped hole.

Preferably, the irradiation surface angle adjusting module includes a rotating shaft disposed at an L-shaped vertical end of the first inverted L-shaped connecting block and an L-shaped horizontal end of the second inverted L-shaped connecting block.

Preferably, the irradiation pitch angle adjusting module comprises an arc waist-shaped hole arranged in the middle of an L-shaped vertical end of the second inverted-L-shaped connecting block, and a second screw knob used for locking and attaching the adjusting and mounting block on the arc waist-shaped hole.

Preferably, the irradiation horizontal distance adjusting module comprises clamping grooves formed in the mounting blocks, and the clamping grooves of the two mounting blocks on each UV lamp assembly are arranged oppositely.

Preferably, the middle part of the arc-shaped guide rail is provided with an arc-shaped slotted hole along the arc direction, and the fixed block is locked and fixed in the arc-shaped slotted hole through a third screw button.

Preferably, the arc of each arc-shaped slot hole is 130 degrees.

By adopting the scheme, the invention has the beneficial effects that:

1) each UV lamp can be adjusted in UV height, UV surface angle, UV pitching angle and UV horizontal distance, independent adjustment of multiple degrees of freedom is achieved, and flexibility and convenience are achieved;

2) the UV pre-curing glue can support the simultaneous UV pre-curing of double-layer glue or multi-layer glue, and avoids the defects caused by excessive turnover and process conversion.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a schematic bottom view of the present invention;

FIG. 3 is a perspective view of the arcuate rail and two UV lamp assemblies of the present invention;

FIG. 4 is a perspective view of the UV lamp and UV lamp adjusting bracket of the present invention;

FIG. 5 is a schematic view of the double-layer glue UV of the present invention;

wherein the figures identify the description:

1-illuminator mounting plate, 2-arc guide rail,

3-UV lamp assembly, 4-Sensor part,

5-AF lens, 6-FF lens,

7-glue, 31-UV lamp,

32-UV lamp adjusting frame, 321-irradiation height adjusting module,

322-an irradiation surface angle adjusting module, 323-an irradiation pitch angle adjusting module,

324, an irradiation horizontal distance adjusting module, 325, a fixed block,

326-a first inverted-L-shaped connecting block, 327-a second inverted-L-shaped connecting block,

328 — mounting block.

Detailed Description

The invention is described in detail below with reference to the figures and the specific embodiments.

Referring to fig. 1 to 2, the present invention provides a UV point light source curing device with multiple degrees of freedom adjustment, which includes a radiation device mounting plate 1, two arc-shaped guide rails 2 oppositely arranged at the bottom of the radiation device mounting plate 1, and two UV light assemblies 3 slidably arranged on each arc-shaped guide rail 2; each UV lamp assembly 3 is moved via an arc-shaped guide 2 to adjust its position on the illuminator mounting plate 1.

In one embodiment, as shown in fig. 5, three camera components, namely, a Sensor component 4(Sensor soldered on a PCB), an AF lens 5, and an FF lens 6 are UV pre-cured from bottom to top.

Referring to fig. 3 to 4, each UV lamp assembly 3 includes two UV lamps 31 disposed up and down, and two UV lamp adjusting brackets 32; each UV lamp 31 is arranged on the arc-shaped guide rail 2 through a UV lamp adjusting frame 32; the UV lamp adjusting bracket 32 includes an irradiation height adjusting module 321, an irradiation surface angle adjusting module 322, an irradiation pitch angle adjusting module 323, and an irradiation horizontal distance adjusting module 324 disposed on one side of the irradiation pitch angle adjusting module 323, which are sequentially disposed from top to bottom.

Two UV lamps 31 are disposed one above the other in each UV lamp assembly 3, one UV lamp 31 located below is used for gluing between the UV pre-curing Sensor part and the AF lens, and one UV lamp 31 located above is used for gluing between the UV pre-curing AF lens and the FF lens.

The two UV lamps 31 in the same UV lamp assembly 3 can be independently adjusted by the irradiation height adjusting module 321, the irradiation surface angle adjusting module 322, the irradiation pitch angle adjusting module 323 and the irradiation horizontal distance adjusting module 324.

The middle part of the arc-shaped guide rail 2 is provided with an arc-shaped slotted hole along the arc direction, and the fixed block 325 is locked and fixed in the arc-shaped slotted hole through a third screw button.

The radian of an arc-shaped slotted hole formed in each arc-shaped guide rail 2 is 130 degrees, the moving range of each UV lamp assembly 3 on the arc-shaped guide rail 2 is +/-65 degrees, so that each layer of glue 7 has UV pre-curing in four directions. Specifically, the height adjustment range is +/-5 mm, the illumination surface angle adjustment range is +/-10 degrees, and the pitching angle adjustment range is +/-5.5 degrees.

The UV lamp adjusting frame 32 further comprises a fixing block 325, a first inverted L-shaped connecting block 326, a second inverted L-shaped connecting block 327 and a mounting block 328 arranged on one side of the second inverted L-shaped connecting block 327, wherein the fixing block 325, the first inverted L-shaped connecting block 326 and the second inverted L-shaped connecting block 327 are sequentially arranged from top to bottom; the irradiation height adjusting module 321 is arranged at the connection position of the fixed block 328 and the first inverted-L-shaped connecting block 326; the irradiation surface angle adjusting module 322 is arranged at the connection position of the first inverted-L-shaped connecting block 326 and the second inverted-L-shaped connecting block 327; the irradiation pitch angle adjusting module 323 is arranged at the joint of the second inverted-L-shaped connecting block 327 and the mounting block 328; the irradiation level distance adjustment module 324 is disposed on the mounting block 328.

The irradiation height adjusting module 321 includes a straight-line waist-shaped hole in the middle of the fixing block 325 in the vertical direction, and a first screw knob for locking and adjusting the L-shaped transverse end of the first inverted L-shaped connecting block 326 in the straight-line waist-shaped hole. The irradiation surface angle adjusting module 322 includes a rotating shaft disposed at the L-shaped vertical end of the first inverted L-shaped connecting block 326 and the L-shaped horizontal end of the second inverted L-shaped connecting block 327. The irradiation pitch angle adjusting module 323 comprises an arc-shaped waist-shaped hole arranged in the middle of the L-shaped vertical end of the second inverted-L-shaped connecting block 327, and a second screw knob used for locking the adjusting and mounting block 328 on the arc-shaped waist-shaped hole. The irradiation horizontal distance adjusting module 324 includes a slot provided on the mounting block 328, the slots of the two mounting blocks 328 on each UV lamp assembly 3 are oppositely arranged, wherein the slot of one mounting block 328 is provided at the bottom, and the slot of the other mounting block 328 is provided at the top.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The multi-degree-of-freedom-degree-adjustable UV point light source curing device is characterized by comprising an irradiator mounting plate, two arc-shaped guide rails oppositely arranged at the bottom of the irradiator mounting plate, and two UV light assemblies arranged on each arc-shaped guide rail in a sliding manner; each UV lamp assembly is moved through an arcuate guide to adjust its position on the illuminator mounting plate.

2. The multi-degree-of-freedom adjustable UV point light source curing device as claimed in claim 1, wherein each UV lamp assembly comprises two UV lamps arranged up and down and two UV lamp adjusting frames; each UV lamp is arranged on the arc-shaped guide rail through a UV lamp adjusting frame; UV lamp alignment jig includes from last to down setting gradually shine high regulation module, shine face angle regulation module, shine pitch angle regulation module to and locate and shine pitch angle regulation module one side shine horizontal distance regulation module.

3. The multi-degree-of-freedom-degree-adjustable UV point light source curing device as claimed in claim 2, wherein the UV lamp adjusting frame further comprises a fixing block, a first inverted L-shaped connecting block, a second inverted L-shaped connecting block and a mounting block arranged on one side of the second inverted L-shaped connecting block, wherein the fixing block, the first inverted L-shaped connecting block and the second inverted L-shaped connecting block are sequentially arranged from top to bottom; the irradiation height adjusting module is arranged at the joint of the fixed block and the first inverted L-shaped connecting block; the irradiation surface angle adjusting module is arranged at the joint of the first inverted-L-shaped connecting block and the second inverted-L-shaped connecting block; the irradiation pitching angle adjusting module is arranged at the joint of the second inverted L-shaped connecting block and the mounting block; the irradiation horizontal distance adjusting module is arranged on the mounting block.

4. The multi-degree-of-freedom-adjustment UV point light source curing device as claimed in claim 3, wherein the irradiation height adjustment module comprises a linear waist-shaped hole in the vertical direction in the middle of the fixing block, and a first screw knob for locking and adjusting the L-shaped transverse end of the first inverted L-shaped connecting block on the linear waist-shaped hole.

5. The multi-degree-of-freedom-adjustment UV point light source curing device as claimed in claim 3, wherein the irradiation surface angle adjustment module comprises a rotation shaft disposed at the L-shaped vertical end of the first inverted-L-shaped connecting block and the L-shaped transverse end of the second inverted-L-shaped connecting block.

6. The multi-degree-of-freedom-degree-adjustable UV point light source curing device as claimed in claim 3, wherein the irradiation pitch angle adjusting module comprises an arc-shaped waist-shaped hole formed in the middle of the L-shaped vertical end of the second inverted-L-shaped connecting block, and a second screw knob used for locking the adjusting and mounting block on the arc-shaped waist-shaped hole.

7. The multi-degree-of-freedom adjustable UV point light source curing device as claimed in claim 3, wherein the irradiation horizontal distance adjusting module comprises clamping grooves formed in the mounting blocks, and the clamping grooves of the two mounting blocks on each UV light assembly are arranged oppositely.

8. The multi-degree-of-freedom adjustable UV point light source curing device as claimed in claim 3, wherein an arc-shaped slotted hole is formed in the middle of the arc-shaped guide rail along the arc direction, and the fixed block is locked and fixed in the arc-shaped slotted hole through a third screw button.

9. The multiple degree of freedom adjustable UV point light source curing device of claim 8, wherein the arc degree of each arc-shaped slot hole is 130 °.

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