CN209841710U - Bottom surface imaging mechanism of intelligent visual detection equipment - Google Patents

Abstract

The utility model belongs to the technical field of tiny part detection technology and specifically relates to a bottom surface imaging mechanism of intelligent visual detection equipment, which comprises a base, wherein the top of the base is connected with a first dovetail sliding table, the left end of the top of the first dovetail sliding table is welded with a main support plate, the back of the top of the main support plate is welded with a backlight source bracket A, the top of the backlight source bracket A is welded with a backlight source bracket B, the bottom of the front end of the backlight source bracket B is welded with a backlight source bracket C, and the side of the backlight source bracket C is fixedly provided with a backlight source component through bolts; fix camera, light source subassembly and backlight source subassembly on the main tributary fagging, just can debug out camera, light source subassembly and backlight source subassembly's different mechanical parameter through the position of adjusting first forked tail slip table, second forked tail slip table and third forked tail slip table, not only improve equipment's debugging time greatly, simplify the debugging process, shorten the debugging time.

Description

Bottom surface imaging mechanism of intelligent visual detection equipment

Technical Field

The utility model belongs to the technical field of small part detects technique and specifically relates to an intelligent vision check out test set's bottom surface imaging mechanism.

Background

In the field of visual inspection of small materials such as magnetic cores, wafers and electronic components, inspection of the bottom of the material is one of the most common inspection methods. The material bottom detection mechanism of the mainstream in the existing market mainly comprises a bottom plate, a supporting plate, various components and a common support. When each component needs to be debugged, the components are mainly disassembled manually, and various mechanical working parameters such as a light source, a lens, backlight and the like are adjusted through the reserved hole positions or the range of the long holes.

The defects of the prior art are as follows: when debugging the mechanical parameter of each subassembly, mainly rely on the manual work to dismantle the part, adjust through reserving screw hole or slot hole, this process is not only inefficiency, moreover, still need train professional technical staff, and the training time is longer, and the training degree of difficulty is great, in addition, still damages mechanical parts easily in the debugging process.

Disclosure of Invention

The utility model provides a not enough to prior art, the utility model provides a bottom surface imaging mechanism of intelligent vision detection equipment, this bottom surface imaging mechanism of intelligent vision detection equipment effectively avoid relying on artifical dismantlement part to carry out not enough of debugging through simple structural design, simplify the debugging process, shorten the time of debugging.

The technical scheme of the utility model is that:

the utility model provides an intelligence visual detection equipment's bottom surface imaging mechanism which characterized in that: the novel multifunctional camera support comprises a base, wherein a first dovetail sliding table is connected to the top of the base, a main support plate is welded at the left end of the top of the first dovetail sliding table, a backlight source support A is welded at the back of the top of the main support plate, the backlight source support A is higher than the main support plate, a backlight source support B is welded at the top of the backlight source support A, a backlight source support C is welded at the bottom of the front end of the backlight source support B, a backlight source assembly is fixedly mounted on the side surface of the backlight source support C through bolts, a second dovetail sliding table is connected to the lower part of the front of the main support plate, a camera fixing plate is fixedly mounted on the front end surface of the second dovetail sliding table through bolts, a camera mounting plate is welded at the bottom of the camera fixing plate, a mounting hole is formed in the camera, the light source mounting panel is installed through the bolt to the preceding terminal surface of third forked tail slip table, fixed mounting has the light source subassembly on the light source mounting panel.

Furthermore, the camera, the backlight light source assembly and the light source assembly are arranged in the same vertical direction, and the bottom of the tiny part can be better photographed.

Furthermore, reinforcing ribs are welded between the back surface of the main supporting plate and the top surface of the first dovetail sliding table, and the cross sections of the reinforcing ribs are triangular; the function is as follows: the supporting capability of the main supporting plate is enhanced.

Further, the cross section of the light source mounting plate is L-shaped; the ingenious design of the light source mounting plate not only enables the back surface of the light source mounting plate to be fixedly connected with the second connecting seat, but also enables the convex part to just support the light source component.

Further, backlight support A sets up with backlight support B is perpendicular, and its effect lies in: the backlight source emitted by the backlight source component can be vertically irradiated.

Further, all be equipped with manual knob on first forked tail slip table, second forked tail slip table and the third forked tail slip table, manual knob's effect lies in: when manual knob is twisted manually, the first dovetail sliding table can move back and forth and the first dovetail sliding table and the second dovetail sliding table can move up and down.

The utility model discloses a theory of operation does: the base is fixedly arranged on the main workbench, the upper and lower positions of the first dovetail sliding table and the second dovetail sliding table and the front and rear positions of the first dovetail sliding table are adjusted according to different shapes and sizes of the tiny parts, so that a camera can be aligned to the tiny parts when the rotating disk passes between the backlight light source assembly and the light source assembly, the bottoms of the tiny parts can be rapidly photographed, and backlight emitted by the backlight light source assembly irradiates the tiny parts before the camera photographs the bottoms of the tiny parts; the camera can photograph the bottom of the tiny part more clearly.

The utility model has the advantages that: the utility model discloses simple structure, the practicality is strong, fix camera, light source subassembly and backlight source subassembly on the main tributary fagging, just can debug out camera, light source subassembly and backlight source subassembly's different mechanical parameter through the position of adjusting first forked tail slip table, second forked tail slip table and third forked tail slip table, not only improve equipment's debug time greatly, simplify the debugging process, shorten debug time, moreover, still avoided damaging machine part because of dismantling each part in the debugging process, the running cost of reduction equipment.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure, 1, a base; 2. a first dovetail slide; 3. a main supporting plate; 4. a backlight source bracket A; 5. a backlight source bracket B; 6. a backlight source bracket C; 7. a backlight source assembly; 8. a second dovetail sliding table; 9. a camera fixing plate; 10. a camera mounting plate; 11. a camera; 12. a third dovetail sliding table; 13. a light source mounting plate; 14. a light source assembly; 15. and (5) reinforcing ribs.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings:

as shown in fig. 1, a bottom surface imaging mechanism of intelligent visual inspection equipment, it includes base 1, the top of base 1 is connected with first forked tail slip table 2, the welding of the top left end of first forked tail slip table 2 has main tributary fagging 3, the welding of the top back of main tributary fagging 3 has backlight support A4, backlight support A4 is higher than main tributary fagging 3, the welding of the top of backlight support A4 has backlight support B5, the welding of backlight support B5 front end bottom has backlight support C6, the side of backlight support C6 has backlight source subassembly 7 through bolt fixed mounting, the positive sub-unit connection of main tributary fagging 3 has second forked tail slip table 8, the preceding terminal surface of second forked tail slip table 8 has camera fixed plate 9 through bolt fixed mounting, the welding of the bottom of camera fixed plate 9 has camera mounting panel 10, be equipped with the mounting hole on the camera mounting panel 10, install camera 11 in the mounting hole, there is third forked tail slip table 12 on the positive upper portion of main tributary fagging 3 through bolted connection, light source mounting panel 13 is installed through the bolt to the preceding terminal surface of third forked tail slip table 12, fixed mounting has light source subassembly 14 on the light source mounting panel 13.

The camera 11 is in the same vertical direction as the backlight assembly 7 and the light source assembly 14.

The welding has strengthening rib 15 between the back of main tributary fagging 3 and the top surface of first forked tail slip table 2, the 15 cross-sections of strengthening rib are triangle-shaped.

The light source mounting plate 13 is L-shaped in cross section.

The backlight bracket A4 is vertically arranged with the backlight bracket B5.

All be equipped with manual knob on first forked tail slip table 2, the second forked tail slip table 8 and the third forked tail slip table 12.

The foregoing embodiments and description have been provided to illustrate the principles and preferred embodiments of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed.

Claims (6)

1. The utility model provides an intelligence visual detection equipment's bottom surface imaging mechanism which characterized in that: it comprises a base (1), the top of the base (1) is connected with a first dovetail sliding table (2), the main support plate (3) is welded at the top left end of the first dovetail sliding table (2), the backlight support A (4) is welded at the top back of the main support plate (3), the backlight support A (4) is higher than the main support plate (3), the backlight support B (5) is welded at the top of the backlight support A (4), the backlight support C (6) is welded at the bottom of the front end of the backlight support B (5), the backlight source assembly (7) is fixedly installed on the side surface of the backlight support C (6) through bolts, the second dovetail sliding table (8) is connected to the lower part of the front surface of the main support plate (3), the camera fixing plate (9) is fixedly installed on the front end surface of the second dovetail sliding table (8) through bolts, the camera mounting plate (10) is welded at the bottom of the, be equipped with the mounting hole on camera mounting panel (10), install camera (11) in the mounting hole, there is third forked tail slip table (12) on the positive upper portion of main tributary fagging (3) through bolted connection, light source mounting panel (13) is installed through the bolt to the preceding terminal surface of third forked tail slip table (12), fixed mounting has light source subassembly (14) on light source mounting panel (13).

2. The bottom imaging mechanism of the intelligent visual inspection device of claim 1, wherein: the camera (11) is arranged in the same vertical direction with the backlight light source component (7) and the light source component (14).

3. The bottom imaging mechanism of the intelligent visual inspection device of claim 2, wherein: the welding has strengthening rib (15) between the back of main tributary fagging (3) and the top surface of first forked tail slip table (2), strengthening rib (15) cross-section is triangle-shaped.

4. The bottom imaging mechanism of the intelligent visual inspection device of claim 3, wherein: the cross section of the light source mounting plate (13) is L-shaped.

5. The bottom imaging mechanism of the intelligent visual inspection device of claim 4, wherein: the backlight source support A (4) and the backlight source support B (5) are arranged vertically.

6. The bottom imaging mechanism of the intelligent visual inspection device of claim 5, wherein: all be equipped with manual knob on first forked tail slip table (2), second forked tail slip table (8) and third forked tail slip table (12).