CN214333664U - Full-automatic CCD rapid size detection machine - Google Patents

Abstract

The utility model discloses a full-automatic CCD rapid size detection machine, which comprises a machine body, a feeding device, a turntable device, a detection device and a blanking device, wherein the feeding device, the turntable device, the detection device and the blanking device are arranged on the machine body; the feeding device is configured to input the workpiece to the positioning jig; the turntable device is configured to convey the positioning jig; the detection device is configured to detect the size of the workpiece placed in the positioning jig; the blanking device is configured to blank the workpiece after detection is completed. This detector can realize the automated inspection of work piece size, for artifical manual operation have: the labor is reduced, the efficiency and the precision are improved, the product quality and the yield are improved, the requirement of mass production is met, the production cost of the product is reduced, and the product has a plurality of advantages of higher market competitiveness and the like.

Description

Full-automatic CCD rapid size detection machine

Technical Field

The utility model relates to a visual detection equipment field, in particular to quick size detection of full-automatic CCD machine.

Background

In the industry, technology is developed day by day, upgrading and upgrading are frequent, and a large number of new products are launched almost every month, which becomes a hot spot field of product design.

The full-size detection and other processes are required to be carried out on small products such as many electronic products, CNC (computer numerical control), stamping and the like. In the existing production and manufacturing process, the size detection is mostly carried out manually, the manual single-station and single-product size detection is carried out manually, and the efficiency is low; a plurality of products detect the operation of the manual slip table, and efficiency is lower.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a full-automatic CCD quick size detection machine that production efficiency is high, degree of automation is high can solve one of above-mentioned problem at least.

According to one aspect of the utility model, a full-automatic CCD rapid size detector is provided, which comprises a machine body, a feeding device, a turntable device, a detection device and a blanking device, wherein the feeding device, the turntable device, the detection device and the blanking device are arranged on the machine body;

the feeding device is configured to input the workpiece to the positioning jig;

the turntable device is configured to convey the positioning jig;

the detection device is configured to detect the size of the workpiece placed in the positioning jig;

the blanking device is configured to blank the workpiece after detection is completed.

Therefore, the utility model provides a quick size detection of full-automatic CCD of brand-new structure machine, the theory of operation that should detect the machine is: the feeding device conveys the workpiece to the positioning jig, the turntable device conveys the positioning jig provided with the workpiece to the lower side of the detection device, the detection device detects the size of the workpiece, then the turntable device conveys the positioning jig after detection to the blanking area, and the blanking device carries out batch blanking on the workpiece according to the detection result. The utility model discloses a detection machine can realize the automated inspection of work piece size, has for artifical manual operation: the labor is reduced, the efficiency and the precision are improved, the product quality and the yield are improved, the requirement of mass production is met, the production cost of the product is reduced, and the product has a plurality of advantages of higher market competitiveness and the like.

In some embodiments, the feeding device comprises a feeding mechanism and a tray conveying mechanism, the feeding mechanism and the tray conveying mechanism are both mounted on the machine body, the tray conveying mechanism is configured to convey a tray on which a workpiece is placed, and the feeding mechanism is matched with the tray conveying mechanism and the positioning jig and configured to input the workpiece in the tray into the positioning jig. Therefore, the utility model discloses a loading attachment's charging tray conveying mechanism is used for carrying the charging tray that is equipped with the work piece, and loading mechanism then is used for snatching and transporting the work piece.

In some embodiments, the feed mechanism includes a first suction assembly mounted to the body and a first multi-axis drive assembly mounted to the first multi-axis drive assembly, the first suction assembly cooperating with the workpiece. From this, first material sucking component is used for absorbing the work piece, and first multiaxis drive assembly is used for carrying the material piece of absorption, and automatic feeding can be realized to first feed mechanism.

In some embodiments, the first aspirator assembly includes a first aspirator block mounted to the first multi-axis drive assembly, the first aspirator block cooperating with the workpiece and being at least one.

In some embodiments, the tray conveying mechanism includes a first mounting plate, a first tray moving assembly and a second tray moving assembly, the first mounting plate is mounted on the machine body, the first tray moving assembly and the second tray moving assembly are both mounted on the first mounting plate, and the first tray moving assembly and the second tray moving assembly are arranged in a staggered manner in the height direction. Therefore, the utility model discloses a charging tray conveying mechanism is for trading the concrete theory of operation of a set device does: the first tray moving assembly and the second tray moving assembly can exchange positions to complete continuous feeding of the trays.

In some embodiments, the detection device includes a first visual detection mechanism, the first visual detection mechanism includes a first visual detection component and a first driving component, the first driving component is mounted on the machine body, and the first visual detection component is mounted on the first driving component and is matched with the workpiece in the positioning jig.

In some embodiments, the first visual inspection assembly includes a first inspection camera and a first light source, the first inspection camera and the first light source are both mounted on the first driving assembly, and the first inspection camera and the first light source are coaxially disposed, the first inspection camera is located above the first light source, and the first light source is located above the positioning fixture. Therefore, the first visual detection mechanism can perform preliminary detection on the sizes of the roundness, the length, the width and the like of the workpiece.

In some embodiments, the detection device further comprises a second visual detection mechanism, the second visual detection mechanism comprises a mounting frame, a second visual detection component and a second driving component, the second driving component is mounted on the machine body, the mounting frame is slidably mounted on the second driving component, and the second visual detection component is mounted on the mounting frame and matched with the workpiece in the positioning jig;

the second visual detection assembly comprises a second detection camera, a third detection camera and a second light source, the second detection camera and the second light source are both mounted on the mounting frame, the second detection camera and the second light source are coaxially arranged, the second detection camera is located above the second light source, the positioning jig is located between the second light source and the second detection camera, the third detection camera is mounted on the mounting frame and located on two sides of the positioning jig, and the third detection camera and the second detection camera are perpendicular to each other. Therefore, the second detection camera and the second light source are matched to detect the sizes of the roundness, the length, the width and the like of the workpiece again, and the third detection camera can complete the detection of the height size of the workpiece.

In some embodiments, the blanking device comprises a blanking mechanism, the blanking mechanism is mounted on the machine body, and the blanking mechanism is matched with the positioning jig and configured to take out the workpiece in the positioning jig;

the blanking mechanism comprises a second suction component and a second multi-shaft driving component, the second multi-shaft driving component is installed on the machine body, the second suction component is installed on the second multi-shaft driving component, and the second suction component is matched with the workpiece. From this, the material subassembly is inhaled to the second is used for absorbing the work piece, and the second multiaxis drive assembly is used for carrying the material piece of absorption, and automatic unloading can be realized to second feed mechanism.

In some embodiments, the blanking device comprises a waste material receiving mechanism, the waste material receiving mechanism is arranged on the machine body and is matched with the second material suction assembly for receiving waste products which are detected to be unqualified; the waste material receiving mechanism comprises a third driving assembly and a waste material box, the third driving assembly is installed on the machine body, and the waste material box is installed on the third driving assembly and is at least one. From this, waste material receiving mechanism is used for collecting the unqualified waste product of detection, avoids environmental pollution, is convenient for simultaneously retrieve and recycle.

The utility model has the advantages that:

the utility model provides a quick size detection of full-automatic CCD of brand-new structure machine, the theory of operation that should detect the machine is: the feeding device conveys the workpiece to the positioning jig, the turntable device conveys the positioning jig provided with the workpiece to the lower side of the detection device, the detection device detects the size of the workpiece, then the turntable device conveys the positioning jig after detection to the blanking area, and the blanking device carries out batch blanking on the workpiece according to the detection result. The detector of the utility model can realize the automatic detection of the size of the workpiece, and has high automation degree; compared with manual operation, the device has the following advantages: the labor is reduced, the efficiency and the precision are improved, the product quality and the yield are improved, the requirement of mass production is met, the production cost of the product is reduced, and the product has a plurality of advantages of higher market competitiveness and the like.

Drawings

Fig. 1 is a schematic view of a three-dimensional structure of a full-automatic CCD rapid size detector according to an embodiment of the present invention;

FIG. 2 is a schematic top view of the fully automatic CCD rapid size inspection machine shown in FIG. 1;

FIG. 3 is a schematic perspective view of a feeding device of the full-automatic CCD rapid size detector shown in FIG. 1;

fig. 4 is a schematic perspective view of a tray conveying mechanism of the loading and unloading device shown in fig. 3;

fig. 5 is a schematic perspective view of a feeding mechanism of the feeding and discharging device shown in fig. 3;

FIG. 6 is a schematic perspective view of a turntable device of the fully automatic CCD rapid size detector shown in FIG. 1;

FIG. 7 is an enlarged schematic view of the turntable assembly shown in FIG. 6 at A;

FIG. 8 is a schematic perspective view of a first visual inspection mechanism of the fully automatic CCD rapid size inspection machine shown in FIG. 1;

FIG. 9 is a schematic perspective view of a second visual inspection mechanism of the fully automatic CCD rapid size inspection machine shown in FIG. 1;

FIG. 10 is a schematic perspective view of a blanking mechanism of the full-automatic CCD rapid size detector shown in FIG. 1;

fig. 11 is a schematic perspective view of a waste material receiving mechanism of the fully automatic CCD rapid size detector shown in fig. 1.

Reference numerals in FIGS. 1 to 11: 1-body; 2-a feeding device; 3-a turntable device; 4-a detection device; 5-a blanking device; 6-a workpiece; 7-material tray; 21-a feeding mechanism; 22-a tray conveying mechanism; 31-a rotating disc; 32-positioning a jig; 41-a first visual inspection mechanism; 42-a second visual detection mechanism; 51-a blanking mechanism; 52-a scrap receptacle mechanism; 211-a first sorbent assembly; 212-a first multi-axis drive assembly; 221-a first mounting plate; 222-a first tray moving assembly; 223-a second tray moving assembly; 321-mounting grooves; 411 — first visual inspection component; 412-a first drive assembly; 421-a mounting frame; 422-a second visual detection component; 423-second drive assembly; 511-a second suction assembly; 512-a second multi-axis drive assembly; 521-a third drive assembly; 522-waste cartridge; 211 a-first sorbent mass; 411a first detection camera; 411 b-a first light source; 422 a-a second detection camera; 422 b-third detection camera; 422 c-second light source.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Fig. 1 to 11 schematically show a full-automatic CCD rapid size detection machine according to an embodiment of the present invention.

As shown in FIGS. 1-11, the full-automatic CCD rapid size detection machine comprises a machine body 1, and a feeding device 2, a turntable device 3, a detection device 4 and a discharging device 5 which are arranged on the machine body 1. The turntable device 3 includes a rotating disc 31 and a plurality of positioning jigs 32 arranged on the edge of the rotating disc 31 along the central circumference array of the rotating disc 31. The feeding device 2, the detecting device 4 and the discharging device 5 are sequentially arranged on the periphery of the rotating disc 31 along the anticlockwise rotating direction of the rotating disc 31. The rotating disk 31 of the present embodiment can be driven by a servo motor.

The feeding device 2 is configured to input the workpiece 6 to the positioning jig 32;

the carousel device 3 is configured to convey the positioning jig 32;

the detection device 4 is configured to perform size detection on the workpiece 6 placed in the positioning jig 32;

the blanking device 5 is configured to blank the workpiece 6 after completion of the inspection.

As shown in fig. 3 to 5, the loading device 2 of the present embodiment includes a loading mechanism 21 and a tray conveying mechanism 22. The feeding mechanism 21 and the tray conveying mechanism 22 are both mounted on the machine body 1. The tray conveying mechanism 22 is configured to convey the tray 7 on which the workpiece 6 is placed. The feeding mechanism 21 is matched with the tray conveying mechanism 22 and the positioning jig 32, and is configured to input the workpieces 6 in the tray 7 to the positioning jig 32. Therefore, the utility model discloses a loading attachment 2's charging tray conveying mechanism 22 is used for carrying the charging tray 7 that is equipped with work piece 6, and loading mechanism 21 is then used for snatching and transporting work piece 6.

The loading mechanism 21 includes a first suction assembly 211 and a first multi-axis drive assembly 212. The first multi-axis driving assembly 212 is installed on the machine body 1, the first material sucking assembly 211 is installed on the first multi-axis driving assembly 212, and the first material sucking assembly 211 is matched with the workpiece 6. Therefore, the first material sucking assembly 211 is used for sucking the workpiece 6, the first multi-shaft driving assembly 212 is used for conveying the sucked material, and the first feeding mechanism 21 can realize automatic feeding. The first multi-axis driving assembly 212 may be a commercially available multi-axis manipulator, an industrial robot, or may be composed of three linear motors in three axis directions. The first multi-axis drive unit 212 of the present embodiment is composed of three linear motors in three axis directions.

The first getter module 211 includes a first getter block 211a, the first getter block 211a being mounted to the first multi-axis drive assembly 212, the first getter block 211a cooperating with at least one of the workpieces 6. The number of the first suction blocks 211a of the present embodiment is 5, and 5 first suction blocks 211a are arranged in a straight line. Therefore, 5 workpieces 6 can be fed at one time, and the production efficiency is high.

As shown in fig. 4, the tray transport mechanism 22 includes a first mounting plate 221, a first tray moving assembly 222, and a second tray moving assembly 223. The first mounting plate 221 is mounted on the machine body 1, the first tray moving assembly 222 and the second tray moving assembly 223 are mounted on the first mounting plate 221, and the first tray moving assembly 222 and the second tray moving assembly 223 are arranged in a staggered manner in the height direction. The first tray moving assembly 222 and the second tray moving assembly 223 of the present embodiment may be composed of a telescopic cylinder, a guide rail, a slider, and a support frame, and the support frame may be used to carry the tray 7. Therefore, the utility model discloses a charging tray conveying mechanism 22 is for trading a set device concrete theory of operation does: the first tray moving assembly 222 and the second tray moving assembly 223 can exchange positions to complete the continuous feeding of the trays 7.

As shown in fig. 6 and 7, the positioning jig 32 of the present embodiment is provided with an installation groove 321 that is matched with the workpiece 6, and the installation groove 321 penetrates through the entire positioning jig 32. Thus, the mounting groove 321 facilitates quick mounting of the workpiece 6. Each positioning jig 32 of the present embodiment has 5 mounting grooves 321 formed thereon, and the 5 mounting grooves 321 are linearly arranged.

As shown in fig. 8, the detection device 4 includes a first visual detection mechanism 41. The first visual inspection mechanism 41 includes a first visual inspection assembly 411 and a first drive assembly 412. The first driving assembly 412 is installed on the machine body 1, and the first visual inspection assembly 411 is installed on the first driving assembly 412 and is matched with the workpiece 6 in the positioning fixture 32. The first drive assembly 412 of this embodiment may be a single shaft driven linear motor.

The first visual inspection assembly 411 includes a first inspection camera 411a and a first light source 411 b. The first detecting camera 411a and the first light source 411b are both installed on the first driving component 412, and the first detecting camera 411a and the first light source 411b are coaxially disposed, the first detecting camera 411a is located above the first light source 411b, and the first light source 411b is located above the positioning fixture 32. Thus, the first visual inspection mechanism 41 can perform preliminary inspection of the dimensions such as the roundness, length, and width of the workpiece 6.

As shown in fig. 9, the inspection device 4 further includes a second visual inspection mechanism 42. The second visual inspection mechanism 42 includes a mounting bracket 421, a second visual inspection assembly 422, and a second drive assembly 423. The second driving assembly 423 is installed on the machine body 1, the mounting frame 421 is slidably installed on the second driving assembly 423, and the second visual inspection assembly 422 is installed on the mounting frame 421 and is matched with the workpiece 6 in the positioning fixture 32. The second driving assembly 423 of the present embodiment may be a combination of a linear motor and a linear guide rail, which are driven by a single shaft, and both ends of the mounting frame 421 are fitted around the outer peripheries of the linear motor and the linear guide rail.

The second visual inspection assembly 422 includes a second inspection camera 422a, a third inspection camera 422b, and a second light source 422 c. The second detection camera 422a and the second light source 422c are both mounted on the mounting frame 421, the second detection camera 422a and the second light source 422c are coaxially disposed, the second detection camera 422a is located above the second light source 422c, the positioning jig 32 is located between the second light source 422c and the second detection camera 422a, the third detection camera 422b is mounted on the mounting frame 421 and located on two sides of the positioning jig 32, and the third detection camera 422b is perpendicular to the second detection camera 422 a. Thus, the second detection camera 422a and the second light source 422c can detect the sizes of the workpiece 6, such as roundness, length and width, again, and the third detection camera 422b can detect the height of the workpiece 6.

The first detecting camera 411a, the second detecting camera 422a and the third detecting camera 422b of the present embodiment may be any commercially available CCD industrial camera.

As shown in fig. 10, the blanking device 5 includes a blanking mechanism 51, the blanking mechanism 51 is mounted on the machine body 1, and the blanking mechanism 51 is matched with the positioning jig 32 and configured to take out the workpiece 6 in the positioning jig 32;

the blanking mechanism 51 comprises a second material sucking component 511 and a second multi-axis driving component 512, the second multi-axis driving component 512 is mounted on the machine body 1, the second material sucking component 511 is mounted on the second multi-axis driving component 512, and the second material sucking component 511 is matched with the workpiece 6. Therefore, the second material sucking component 511 is used for sucking the workpiece 6, the second multi-shaft driving component 512 is used for conveying the sucked material, and the second feeding mechanism 21 can realize automatic blanking. The blanking mechanism 51 of the present embodiment has basically the same structure as the loading mechanism 21. The second multi-axis driving assembly 512 may be a commercially available multi-axis manipulator, an industrial robot, or may be formed by three linear motors in three axis directions. The second multi-axis drive unit 512 of the present embodiment is composed of three linear motors in three axis directions.

As shown in fig. 11, the blanking apparatus 5 of the present embodiment includes a scrap receptacle 52. The waste material receiving mechanism 52 is disposed on the machine body 1 and is matched with the second material sucking component 511 for receiving the unqualified waste products. The waste storage mechanism 52 includes a third drive assembly 521 and a waste cassette 522. The third driving assembly 521 is mounted on the machine body 1, and at least one waste box 522 is mounted on the third driving assembly 521. The third driving assembly 521 of the present embodiment may be a combination of a telescopic cylinder and a slider, the slider is sleeved on the periphery of the telescopic rod of the telescopic cylinder, and the waste box 522 is fixedly mounted above the slider. The waste box 522 of the present embodiment may be a large-volume box or a combination of a plurality of small-volume boxes. From this, waste material receiving mechanism 52 is used for collecting the unqualified waste product of detection, avoids environmental pollution, is convenient for retrieve simultaneously and recycles.

The utility model discloses a full-automatic CCD quick size detection machine's theory of operation does:

s1, feeding of the workpiece 6: placing the material tray 7 with the workpieces 6 on the material tray conveying mechanism 22 manually or by a mechanical hand, enabling the material tray conveying mechanism 22 to work, enabling the first material tray moving assembly 222 and the second material tray moving assembly 223 to exchange positions, conveying the material tray 7 with a high-grade material to a feeding end, enabling the feeding mechanism 21 to work, enabling the first material suction assembly 211 to suck the workpieces 6 in the material tray 7, enabling the first multi-shaft driving assembly 212 to drive the first material suction assembly 211 to place the sucked workpieces 6 in the mounting groove 321 of the positioning jig 32, and completing feeding work;

s2, primary size detection: the positioning jig 32 with the assembled workpiece 6 rotates counterclockwise under the first visual inspection mechanism 41 under the action of the rotating disc 31, the first visual inspection mechanism 41 starts to work, and the primary detection of the size of the workpiece 6 is completed under the combined action of the first detection camera 411a and the first light source 411 b;

s3, secondary size detection: the workpiece 6 after the preliminary detection is finished rotates counterclockwise under the second visual detection mechanism 42 under the action of the rotating disc 31, the second visual detection mechanism 42 starts to work, and the secondary detection of the size of the workpiece 6 is finished under the combined action of the second detection camera 422a, the second light source 422c and the third detection camera 422 b;

s4, blanking of the workpiece 6: the detected workpieces 6 are conveyed to a blanking area under the action of the rotating disc 31, then the blanking device 5 works, the second material suction component 511 sucks the workpieces 6 in the positioning jig 32, the second multi-shaft driving component 512 drives the second material suction component 511 to place the sucked qualified workpieces 6 in the output material tray 7, the unqualified workpieces 6 are placed in the waste material box 522, and classified batch blanking is completed.

The utility model provides a quick size detection of full-automatic CCD of brand-new structure machine, the theory of operation that should detect the machine is: the feeding device 2 conveys the workpiece 6 to the positioning jig 32, the turntable device 3 conveys the positioning jig 32 provided with the workpiece 6 to the lower part of the detection device 4, the detection device 4 detects the size of the workpiece 6, then the turntable device 3 conveys the positioning jig 32 after detection to the blanking area, and the blanking device 5 performs batch blanking on the workpiece 6 according to the detection result.

The detector of the utility model can realize the automatic detection of the size of the workpiece 6, and has high automation degree; compared with manual operation, the device has the following advantages: the labor is reduced, the efficiency and the precision are improved, the product quality and the yield are improved, the requirement of mass production is met, the production cost of the product is reduced, and the product has a plurality of advantages of higher market competitiveness and the like.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (10)

1. The full-automatic CCD rapid size detector is characterized by comprising a machine body (1), a feeding device (2), a turntable device (3), a detection device (4) and a discharging device (5), wherein the feeding device (2), the turntable device (3), the detection device (4) and the discharging device (5) are arranged on the machine body (1), the turntable device (3) comprises a rotating disc (31) and a plurality of positioning jigs (32) which are arranged on the edge of the rotating disc (31) along the central circumference array of the rotating disc (31), and the feeding device (2), the detection device (4) and the discharging device (5) are sequentially arranged on the periphery of the rotating disc (31) along the anticlockwise rotating direction of the rotating disc (31);

the feeding device (2) is configured to input a workpiece (6) to the positioning jig (32);

the turntable device (3) is configured to convey the positioning jig (32);

the detection device (4) is configured to detect the size of the workpiece (6) placed in the positioning jig (32);

the blanking device (5) is configured to blank the workpiece (6) after detection.

2. The full-automatic CCD rapid size detector according to claim 1, wherein the feeding device (2) comprises a feeding mechanism (21) and a tray conveying mechanism (22), the feeding mechanism (21) and the tray conveying mechanism (22) are both installed on the machine body (1), the tray conveying mechanism (22) is configured to convey a tray (7) on which the workpiece (6) is placed, and the feeding mechanism (21) is matched with the tray conveying mechanism (22) and the positioning jig (32) and configured to input the workpiece (6) in the tray (7) to the positioning jig (32).

3. The fully automatic CCD rapid size detection machine according to claim 2, wherein the feeding mechanism (21) comprises a first suction assembly (211) and a first multi-axis driving assembly (212), the first multi-axis driving assembly (212) is installed on the machine body (1), the first suction assembly (211) is installed on the first multi-axis driving assembly (212), and the first suction assembly (211) is matched with the workpiece (6).

4. The fully automatic CCD fast size detection machine according to claim 3, wherein the first suction block (211) comprises a first suction block (211a), the first suction block (211a) is mounted to the first multi-axis driving assembly (212), the first suction block (211a) is matched with the workpiece (6) and is at least one.

5. The full-automatic CCD rapid size detection machine according to claim 2, wherein the tray (7) conveying mechanism comprises a first mounting plate (221), a first tray moving assembly (222) and a second tray moving assembly (223), the first mounting plate (221) is mounted on the machine body (1), the first tray moving assembly (222) and the second tray moving assembly (223) are both mounted on the first mounting plate (221), and the first tray moving assembly (222) and the second tray moving assembly (223) are arranged in a staggered manner in the height direction.

6. The fully automatic CCD rapid size detection machine according to any one of claims 1 to 5, wherein the detection device (4) comprises a first visual detection mechanism (41), the first visual detection mechanism (41) comprises a first visual detection component (411) and a first driving component (412), the first driving component (412) is installed on the machine body (1), and the first visual detection component (411) is installed on the first driving component (412) and is matched with the workpiece (6) in the positioning jig (32).

7. The fully automatic CCD rapid size detector according to claim 6, wherein the first visual inspection assembly (411) comprises a first inspection camera (411a) and a first light source (411b), the first inspection camera (411a) and the first light source (411b) are both installed on the first driving assembly (412), the first inspection camera (411a) and the first light source (411b) are coaxially arranged, the first inspection camera (411a) is located above the first light source (411b), and the first light source (411b) is located above the positioning fixture (32).

8. The fully automatic CCD rapid size detector according to claim 7, wherein the detecting device (4) further comprises a second visual detection mechanism (42), the second visual detection mechanism (42) comprises a mounting frame (421), a second visual detection assembly (422) and a second driving assembly (423), the second driving assembly (423) is mounted on the machine body (1), the mounting frame (421) is slidably mounted on the second driving assembly (423), and the second visual detection assembly (422) is mounted on the mounting frame (421) and is matched with the workpiece (6) in the positioning jig (32);

the second visual detection assembly (422) comprises a second detection camera (422a), a third detection camera (422b) and a second light source (422c), the second detection camera (422a) and the second light source (422c) are both mounted on a mounting frame (421), the second detection camera (422a) and the second light source (422c) are coaxially arranged, the second detection camera (422a) is located above the second light source (422c), the positioning jig (32) is located between the second light source (422c) and the second detection camera (422a), the third detection camera (422b) is mounted on the mounting frame (421) and located on two sides of the positioning jig (32), and the third detection camera (422b) is perpendicular to the second detection camera (422 a).

9. The full-automatic CCD rapid size detection machine according to any one of claims 1-5, wherein the blanking device (5) comprises a blanking mechanism (51), the blanking mechanism (51) is mounted on the machine body (1), the blanking mechanism (51) is matched with the positioning jig (32) and configured to take out the workpiece (6) in the positioning jig (32);

the blanking mechanism (51) comprises a second material sucking component (511) and a second multi-shaft driving component (512), the second multi-shaft driving component (512) is installed on the machine body (1), the second material sucking component (511) is installed on the second multi-shaft driving component (512), and the second material sucking component (511) is matched with the workpiece (6).

10. The full-automatic CCD rapid size detection machine according to claim 9, wherein the blanking device (5) comprises a waste material receiving mechanism (52), the waste material receiving mechanism (52) is arranged on the machine body (1) and matched with the second material suction assembly (511) for receiving unqualified waste products; the waste material accommodating mechanism (52) comprises a third driving assembly (521) and at least one waste material box (522), wherein the third driving assembly (521) is installed on the machine body (1), and the waste material box (522) is installed on the third driving assembly (521).

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