CN211865870U

CN211865870U - Deep hole printing opacity detection device

Info

Publication number: CN211865870U
Application number: CN202020242298.8U
Authority: CN
Inventors: 徐险忠; 郭琪
Original assignee: Kunshan Beisong Precision Electronics Co ltd
Current assignee: Kunshan Beisong Precision Electronics Co ltd
Priority date: 2020-03-03
Filing date: 2020-03-03
Publication date: 2020-11-06
Anticipated expiration: 2030-03-03

Abstract

The utility model provides a deep hole light transmission detection device, which comprises a work cabinet, wherein the top of the work cabinet is provided with a conveying mechanism, a material distribution mechanism, a CCD detection mechanism, a cam carrying mechanism and a blanking mechanism; the conveying mechanism, the material distributing mechanism, the CCD detecting mechanism and the blanking mechanism are sequentially arranged from right to left, the cam carrying mechanism is arranged above the CCD detecting mechanism, and the CCD detecting mechanism is in signal connection with the blanking mechanism; a good product box is arranged inside the working cabinet below the blanking mechanism, a good product inlet is formed in the left side of the blanking mechanism, and a defective product box is arranged in the front side of the blanking mechanism; the cam carrying mechanism can move the products to the detection mechanism, the blanking mechanism and the good product inlet in sequence through the material distribution mechanism. The utility model realizes the automation of the deep hole detection of the product, ensures the product quality, improves the working efficiency and reduces the production cost; good products and defective products are collected separately, so that sorting procedures are saved, and the working efficiency is further improved; and the structure is simple, and the operation is convenient.

Description

Deep hole printing opacity detection device

Technical Field

The utility model relates to a check out test set technical field, concretely relates to deep hole printing opacity detection device for whether the deep hole in the detection plastic product is qualified.

Background

Some deep holes of plastic products may be blocked or not processed in place in the production process, so that the normal use of the products is affected, the products are poor, and the deep holes of the products need to be detected after the processing is finished. In the prior art, detection work is generally finished manually, but the consistency of product quality is poor due to operation difference among different detection personnel; and manual detection is time-consuming and labor-consuming, has low efficiency and can not meet normal production requirements.

SUMMERY OF THE UTILITY MODEL

For solving the problem that exists among the above-mentioned prior art, the utility model provides a deep hole printing opacity detection device can whether exist badly by quick effectual detection out the product deep hole, detects product appearance integrality simultaneously, has guaranteed the quality of product, has improved work efficiency.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a deep hole light transmission detection device comprises a working cabinet, wherein a conveying mechanism, a material distribution mechanism, a CCD detection mechanism, a cam carrying mechanism and a blanking mechanism are arranged at the top of the working cabinet;

the conveying mechanism, the material distributing mechanism, the CCD detecting mechanism and the blanking mechanism are sequentially arranged from right to left, the cam carrying mechanism is arranged above the CCD detecting mechanism, and the CCD detecting mechanism is in signal connection with the blanking mechanism;

a good product box is arranged inside the working cabinet below the blanking mechanism, a good product inlet is formed in the left side of the blanking mechanism and connected with the good product box, and a defective product box is arranged on the front side of the blanking mechanism;

the cam carrying mechanism can move the products to the CCD detection mechanism, the blanking mechanism and the good product inlet in sequence through the material distribution mechanism.

Furthermore, the conveying mechanism comprises an installation frame, a belt, a driving motor, a driving wheel, a synchronous belt component and a driven wheel, wherein the driving wheel and the driven wheel are respectively arranged at the left end and the right end of the installation frame, and the two ends of the belt are sleeved on the driving wheel and the driven wheel; the driving motor is arranged in the work cabinet and is connected with the driving wheel through the synchronous belt component.

Furthermore, the material distribution mechanism comprises a profiling carrier, a positioning cylinder and a material distribution cylinder, a vacuum adsorption structure is arranged in the profiling carrier, the profiling carrier is arranged at the left end of the conveying mechanism, the positioning cylinder is arranged at the rear side of the profiling carrier and can fix a product in the profiling carrier, the material distribution cylinder is arranged below the positioning cylinder, and the material distribution cylinder is connected with the profiling carrier and can drive the profiling carrier to move back and forth.

Furthermore, the CCD detection mechanism comprises a detection plate, a detection carrier, a detection cylinder, a light source and a CCD camera, wherein the detection carrier is arranged on the detection plate, and the detection cylinder is connected with the detection carrier and can drive the detection carrier to move back and forth relative to the detection plate; the light source is arranged above the detection carrier, the CCD camera is arranged at the rear side of the detection carrier, and the positions of the light source and the CCD camera can be adjusted.

Furthermore, the cam carrying mechanism comprises a support frame, a cam mechanism and a suction mechanism, the support frame is arranged on the work cabinet, the cam mechanism is arranged on the front side of the support frame, two sides of the cam mechanism are provided with vertical sliding grooves, and vertical sliding rails are arranged in the vertical sliding grooves; the lower part of the cam mechanism is provided with a U-shaped connecting plate, the two ends of the connecting plate are respectively fixedly connected with the vertical slide rails, the front side of the lower end of the connecting plate is provided with a horizontal slide rail, and the suction mechanism is arranged on the horizontal slide rail and connected with the cam mechanism.

Furthermore, the cam mechanism comprises a cam motor, a cam plate, a rotating shaft, a moving column and a connecting rod, wherein the cam plate is provided with a cam groove, the cam motor is arranged at the rear side of the supporting frame, and the rotating shaft is perpendicular to the cam plate and is connected with the cam motor; one end of the connecting rod is vertically connected with the front end of the rotating shaft, a waist hole is formed in the other end of the connecting rod along the length direction of the connecting rod, the moving column is parallel to the rotating shaft, the rear end of the moving column penetrates through the waist hole and is inserted into the cam groove, and the front end of the moving column is connected with the upper end of the suction mechanism.

Furthermore, the suction mechanism comprises a moving plate and three groups of suction support rods, the moving plate is movably arranged on the horizontal sliding rail, a vertical connecting block is arranged in the middle of the upper end of the moving plate, and the upper end of the connecting block is connected with the moving column; the three groups of the absorption supporting rods are arranged on the movable plate at equal intervals, each group of the absorption supporting rods comprises two absorption supporting rods arranged at intervals, and the absorption supporting rods are provided with buffer structures.

Further, unloading mechanism contains the product carrier and divides the cave cylinder, the defective products deflector is connected to the front side of product carrier, the defective products box is located the below of deflector, divide the cave cylinder to locate the rear side of product carrier can drive the product carrier back-and-forth movement.

Furthermore, the right side of the top of the work cabinet is connected with the feeding table, and four corners of the bottom of the work cabinet are respectively connected with the universal wheels and the adjusting feet.

Furthermore, a display screen is arranged on the rear side of the conveying mechanism on the work cabinet, and the CCD detection mechanism is connected with the display screen.

Compared with the prior art, the utility model has the beneficial technical effects that: the utility model discloses a deep hole printing opacity detection device has realized the automation of product deep hole detection, has effectively guaranteed product quality, has improved work efficiency greatly, has reduced manufacturing cost; the blanking mechanism is arranged to separately collect the good products and the defective products, so that the sorting process is saved, and the working efficiency is further improved; and the structure is simple, the operation is convenient, and the use is safe.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention;

fig. 2 is a schematic structural view of the conveying mechanism and the material distributing mechanism in the embodiment of the present invention;

fig. 3 is a schematic structural view of a detection mechanism and a blanking mechanism in an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a cam carrying mechanism according to an embodiment of the present invention.

In the figure: 10-work cabinet, 11-feeding table, 12-display screen, 13-good product inlet, 14-defective product box, 15-good product box, 16-adjusting foot, 17-universal wheel, 20-conveying mechanism, 21-driving wheel, 22-driven wheel, 23-belt, 24-driving motor, 25-synchronous belt assembly, 26-mounting rack, 30-material separating mechanism, 31-positioning cylinder, 32-material separating cylinder, 33-profiling carrier, 40-cam carrying mechanism, 401-supporting rack, 402-cam plate, 403-connecting rod, 404-moving column, 405-connecting block, 406-rotating shaft, 407-moving plate, 408-suction supporting rod, 409-horizontal sliding rail, 410-connecting plate, 411-sliding rail, 412-vertical sliding chute, 413-cam motor, 50-blanking mechanism, 51-cavity separating cylinder, 52-product carrier, 53-guide plate, 60-CCD detection mechanism, 61-detection plate, 62-detection carrier, 63-detection cylinder, 64-CCD camera, 65-light source.

Detailed Description

In order to make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined below to clearly and completely describe the technical solution of the embodiments of the present invention. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them. All other embodiments, which can be derived from the description of the embodiments of the present invention by a person skilled in the art, are within the scope of the present invention.

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

As shown in fig. 1-4, a deep hole light transmission detection device comprises a work cabinet 10, wherein a conveying mechanism 20, a material distribution mechanism 30, a CCD detection mechanism 60, a cam carrying mechanism 40 and a blanking mechanism 50 are arranged at the top of the work cabinet 10;

specifically, the conveying mechanism 20, the material distributing mechanism 30, the CCD detecting mechanism 60 and the blanking mechanism 50 are sequentially arranged from right to left, the conveying mechanism 20 is transversely arranged along the work cabinet 10, the cam carrying mechanism 40 is arranged above the CCD detecting mechanism 60, and the CCD detecting mechanism 60 is in signal connection with the blanking mechanism 50 so as to transmit the detection information to the blanking mechanism 50;

a good product box 15 is arranged inside the working cabinet 10 below the blanking mechanism 50, a good product inlet 13 is arranged on the left side of the blanking mechanism 50, the good product inlet 13 is connected with the good product box 15, and a defective product box 14 is arranged on the front side of the blanking mechanism 50;

the cam carrying mechanism 40 can move the products from the material distributing mechanism 30 to the CCD detecting mechanism 60, the blanking mechanism 50 and the good product inlet 13 in sequence;

during operation, a product to be detected is placed on the conveying mechanism 20, the conveying mechanism 20 operates and moves the product to be detected into the material distribution mechanism 30 to be positioned and separated in a staggered mode, and then the cam carrying mechanism 40 moves the product from the material distribution mechanism 30 to the CCD detecting mechanism 60 to be detected; when the detection result is qualified, the blanking mechanism 50 is matched with the cam carrying mechanism 40 according to the detection result to place the product into the good product box 15 from the good product inlet 13; when the detection result is unqualified, the blanking mechanism 50 is matched with the cam conveying mechanism 40 according to the detection result to move the defective products into the defective product box 14; and repeating the above process to realize continuous detection.

Preferably, the conveying mechanism 20 includes a mounting frame 26, a belt 23, a driving motor 24, a driving wheel 21, a synchronous belt assembly 25 and a driven wheel 22, the driving wheel 21 and the driven wheel 22 are respectively disposed at the left and right ends of the mounting frame 26, and both ends of the belt 23 are sleeved on the driving wheel 21 and the driven wheel 22; the driving motor 24 is arranged inside the work cabinet 10 and is connected with the driving wheel 21 through a synchronous belt component 25;

the driving motor 24 is operated to rotate the driving pulley 21 through the timing belt assembly 25, and the driving pulley 21 rotates to drive the driving belt 23 to move and drive the driven pulley 22 to rotate, so as to move the product onto the material separating mechanism 30.

In an embodiment of the present invention, the material distribution mechanism 30 includes a profiling carrier 33, a positioning cylinder 31 and a material distribution cylinder 32, a vacuum adsorption structure is disposed in the profiling carrier 33, and the vacuum adsorption structure can adsorb the product in the profiling carrier 33; the profiling carrier 33 is arranged at the left end of the conveying mechanism 20, the front side of the positioning cylinder 31 is connected with a positioning column, and the positioning column can be inserted into the profiling carrier 33 to position a product in the profiling carrier;

the material distributing cylinder 32 is arranged below the positioning cylinder 31, the left end of the conveying mechanism 20 is provided with a mounting plate, the mounting plate is provided with a first longitudinal slide rail, the profiling carrier is arranged on the first longitudinal slide rail, and the material distributing cylinder 32 is connected with the profiling carrier 33 and can drive the profiling carrier to move back and forth along the first longitudinal slide rail;

the conveying mechanism 20 moves products into the profiling carrier 33, the vacuum adsorption structure works to adsorb the products into the profiling carrier 33, the positioning cylinder 31 drives the positioning column to position the products, the products are prevented from being deviated in the moving process, and then the material distribution cylinder 32 works to separate the products in a staggered mode so that the cam carrying mechanism 40 can take the products away.

Optionally, the CCD detecting mechanism 60 includes a detecting plate 61, a detecting carrier 62, a detecting cylinder 63, a light source 65 and a CCD camera 64, the detecting plate 61 is provided with a second longitudinal slide rail, the detecting carrier 62 is provided on the second longitudinal slide rail, a vacuum adsorption structure is also provided in the detecting carrier 62, and the detecting cylinder 63 is connected to the detecting carrier 62 and can drive the detecting carrier 62 to move back and forth along the second longitudinal slide rail; the light source 65 is arranged above the detection carrier 62, the CCD camera 64 is arranged at the rear side of the detection carrier 62, the positions of the light source 65 and the CCD camera 64 can be adjusted, and the light source 65 and the CCD camera 64 can be adjusted to the optimal positions according to specific products during detection;

the positioning cylinder 31 retracts, the vacuum adsorption structure stops working, the product is loosened, the cam carrying mechanism 40 moves the product from the profiling carrier 33 to the detection carrier 62, and the vacuum adsorption structure in the cam carrying mechanism sucks the product; the detection cylinder 63 drives the detection carrier 62 to move to the position below the light source 65, so that the light source 65 is aligned with the product, and the CCD camera 64 performs photographing detection on the product and compares the photographing detection with a set result to judge whether the product is qualified.

In another embodiment of the present invention, the cam carrying mechanism 40 comprises a supporting frame 401, a cam mechanism and a suction mechanism, the supporting frame 401 is disposed on the work cabinet 10, the cam mechanism is disposed at the front side of the supporting frame 401, two sides of the cam mechanism are provided with vertical sliding grooves 412, and vertical sliding rails 411 are disposed in the vertical sliding grooves 412; a U-shaped connecting plate 410 is arranged below the cam mechanism, two ends of the connecting plate 410 are respectively and fixedly connected with a vertical slide rail 411, a horizontal slide rail 409 is arranged on the front side of the lower end of the connecting plate 410, and a suction mechanism is arranged on the horizontal slide rail 409 and connected with the cam mechanism;

the supporting frame 401 is used for installing a cam mechanism and a suction mechanism, the cam mechanism is used for driving the suction mechanism to simultaneously perform lifting and horizontal reciprocating motion so as to enable a product to sequentially pass through the material distribution mechanism 30, the CCD detection mechanism 60 and the blanking mechanism 50; the connecting plate 410 is used for guiding the suction mechanism, so that the suction mechanism can move stably, and the product is prevented from falling off.

Preferably, the cam mechanism comprises a cam motor 413, a cam plate 402, a rotating shaft 406, a moving column 404 and a connecting rod 403, the cam plate 402 is provided with a cam groove, the cam motor 413 is arranged at the rear side of the supporting frame 401, and the rotating shaft 406 is arranged perpendicular to the cam plate 402 and connected with the cam motor 413; one end of the connecting rod 403 is vertically connected with the front end of the rotating shaft 406, the other end of the connecting rod 403 is provided with a waist hole arranged along the length direction of the connecting rod, the moving column 404 is parallel to the rotating shaft 406, the rear end of the moving column 404 passes through the waist hole and is inserted into the cam groove, and the front end of the moving column 404 is connected with the upper end of the suction mechanism;

the cam motor 413 works to drive the rotating shaft 406 to rotate, the rotating shaft 406 drives the connecting rod 403 to vertically rotate, the connecting rod 403 drives the moving column 404 to move from one end of the cam groove to the other end, and the suction assembly simultaneously performs lifting and horizontal movement along with the movement of the moving column 404; the cam motor 413 alternately rotates in forward and reverse directions to realize the reciprocating motion of the suction assembly.

In some embodiments of the present invention, the suction mechanism comprises a moving plate 407 and three sets of suction struts 408, the moving plate 407 is movably disposed on a horizontal slide rail 409, a vertical connecting block 405 is disposed in the middle of the upper end of the moving plate, and the upper end of the connecting block 405 is connected to the moving column 404; the right group of the absorbing support rods 408 is used for moving the product from the material distribution mechanism 30 to the CCD detection mechanism 60, the middle group of the absorbing support rods 408 is used for moving the product from the CCD detection mechanism 60 to the blanking mechanism 50, and the left group of the absorbing support rods 408 is used for moving the product from the blanking mechanism 50 to the good product inlet 13;

three groups of the absorbing support rods 408 are arranged on the moving plate 407 at equal intervals, each group of the absorbing support rods 408 comprises two absorbing support rods 408 arranged at intervals, and the two absorbing support rods 408 in each group respectively absorb two ends of the product, so that the product is uniformly stressed and is prevented from falling off in the moving process; the absorption support rod 408 is provided with a buffer structure to prevent the absorption support rod 408 from damaging the product when contacting the product.

Optionally, the blanking mechanism 50 includes a product carrier 52 and a hole dividing cylinder 51, the front side of the product carrier 52 is connected to a defective product guide plate 53, the defective product box 14 is disposed below the guide plate 53, and the hole dividing cylinder 51 is disposed at the rear side of the product carrier 52, is in signal connection with the CCD camera 64, and can drive the product carrier 52 to move back and forth;

when the detection result is qualified, the CCD camera 64 transmits a qualified signal to the cavity dividing cylinder 51, the cavity dividing cylinder 51 drives the product carrier 52 to move forward to the lower part of the suction support rod 408, and the cam mechanism drives the suction support rod 408 to put the product from the product carrier 52 into the good product box 15 through the good product inlet 13; when the detection result is not qualified, the hole-dividing cylinder 51 drives the product carrier 52 and the guide plate 53 to move backwards according to the received information, so that the guide plate 53 is positioned below the suction support rod 408, the cam mechanism drives the suction support rod 408 to move to the upper part of the guide plate 53, a defective product is placed on the guide plate 53, and the defective product falls into the defective product box 14 through the guide plate 53.

In other embodiments of the present invention, the right side of the top of the working cabinet 10 is connected to the feeding table 11, and the feeding table 11 is used for storing and placing the product to be detected, so as to improve the feeding efficiency; the four corners of the bottom of the work cabinet 10 are respectively connected with universal wheels 17 and adjusting feet 16, so that the whole device can move, and the use convenience is improved.

In the utility model discloses a further embodiment, the rear side of conveying mechanism 20 is equipped with display screen 12 on the work cabinet 10, and CCD camera 60 is connected with display screen 10, and CCD camera 64 can transmit the testing result for display screen 10 and show through display screen 10 to operating personnel observes at any time.

The utility model discloses a deep hole printing opacity detection device has realized the automation of product deep hole detection, has effectively guaranteed product quality, has improved work efficiency greatly, has reduced manufacturing cost; the blanking mechanism is arranged to separately collect the good products and the defective products, so that the sorting process is saved, and the working efficiency is further improved; and the structure is simple, the operation is convenient, and the use is safe.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims

1. A deep hole light transmission detection device is characterized by comprising a working cabinet, wherein the top of the working cabinet is provided with a conveying mechanism, a material distribution mechanism, a CCD detection mechanism, a cam carrying mechanism and a blanking mechanism;

2. The deep hole light transmission detection device according to claim 1, wherein the conveying mechanism comprises a mounting frame, a belt, a driving motor, a driving wheel, a synchronous belt assembly and a driven wheel, the driving wheel and the driven wheel are respectively arranged at the left end and the right end of the mounting frame, and two ends of the belt are sleeved on the driving wheel and the driven wheel; the driving motor is arranged in the work cabinet and is connected with the driving wheel through the synchronous belt component.

3. The deep hole light transmission detection device according to claim 1, wherein the material distribution mechanism comprises a profiling carrier, a positioning cylinder and a material distribution cylinder, a vacuum adsorption structure is arranged in the profiling carrier, the profiling carrier is arranged at the left end of the conveying mechanism, the positioning cylinder is arranged at the rear side of the profiling carrier and can fix a product in the profiling carrier, the material distribution cylinder is arranged below the positioning cylinder, and the material distribution cylinder is connected with the profiling carrier and can drive the profiling carrier to move back and forth.

4. The deep hole light transmission detection device according to claim 1, wherein the CCD detection mechanism comprises a detection plate, a detection carrier, a detection cylinder, a light source and a CCD camera, the detection carrier is arranged on the detection plate, and the detection cylinder is connected with the detection carrier and can drive the detection carrier to move back and forth relative to the detection plate; the light source is arranged above the detection carrier, the CCD camera is arranged at the rear side of the detection carrier, and the positions of the light source and the CCD camera can be adjusted.

5. The deep hole light transmission detection device according to claim 1, wherein the cam carrying mechanism comprises a support frame, a cam mechanism and a suction mechanism, the support frame is arranged on the work cabinet, the cam mechanism is arranged on the front side of the support frame, two sides of the cam mechanism are provided with vertical sliding grooves, and vertical sliding rails are arranged in the vertical sliding grooves; the lower part of the cam mechanism is provided with a U-shaped connecting plate, the two ends of the connecting plate are respectively fixedly connected with the vertical slide rails, the front side of the lower end of the connecting plate is provided with a horizontal slide rail, and the suction mechanism is arranged on the horizontal slide rail and connected with the cam mechanism.

6. The deep hole light transmission detection device according to claim 5, wherein the cam mechanism comprises a cam motor, a cam plate, a rotating shaft, a moving column and a connecting rod, the cam plate is provided with a cam groove, the cam motor is arranged at the rear side of the support frame, and the rotating shaft is arranged perpendicular to the cam plate and connected with the cam motor; one end of the connecting rod is vertically connected with the front end of the rotating shaft, a waist hole is formed in the other end of the connecting rod along the length direction of the connecting rod, the moving column is parallel to the rotating shaft, the rear end of the moving column penetrates through the waist hole and is inserted into the cam groove, and the front end of the moving column is connected with the upper end of the suction mechanism.

7. The deep hole light transmission detection device according to claim 6, wherein the suction mechanism comprises a moving plate and three sets of suction struts, the moving plate is movably arranged on the horizontal slide rail, a vertical connecting block is arranged in the middle of the upper end of the moving plate, and the upper end of the connecting block is connected with the moving column; the three groups of the absorption supporting rods are arranged on the movable plate at equal intervals, each group of the absorption supporting rods comprises two absorption supporting rods arranged at intervals, and the absorption supporting rods are provided with buffer structures.

8. The deep hole light transmission detection device according to claim 1, wherein the blanking mechanism comprises a product carrier and a hole dividing cylinder, a defective product guide plate is connected to a front side of the product carrier, the defective product box is arranged below the guide plate, and the hole dividing cylinder is arranged on a rear side of the product carrier and can drive the product carrier to move back and forth.

9. The deep hole light transmission detection device according to claim 1, wherein a loading platform is connected to the right side of the top of the work cabinet, and four corners of the bottom of the work cabinet are respectively connected with a universal wheel and an adjusting foot.

10. The deep hole light transmission detection device according to claim 1, wherein a display screen is arranged on the working cabinet at the rear side of the conveying mechanism, and the CCD detection mechanism is connected with the display screen.