CN217033681U - Quick intelligent detection device of CTP plate coating quality - Google Patents

Abstract

The utility model discloses a rapid intelligent detection device for CTP plate coating quality, which comprises a frame, the frame is provided with a longitudinal conveyer belt and a plurality of transverse conveyer belts communicated with one side of the longitudinal conveyer belt, the longitudinal conveyer belt is provided with a steering mechanism corresponding to each transverse conveyer belt, the transverse conveyer belts are respectively provided with a turning-up mechanism, the turning-up mechanisms are provided with sucker mechanisms, each turning-up mechanism is connected to the notch of the corresponding transverse conveying belt in a lifting way, and each turning-up mechanism is linked to suck a plurality of CTP plate materials to turn over simultaneously, the CTP plate is lifted and inclined, the CTP plate is observed manually from the horizontal direction, the detection camera detects from the inclined upper side, the detection efficiency can be effectively improved, and the omission of bad plates is avoided.

Description

Quick intelligent detection device of CTP plate coating quality

Technical Field

The utility model relates to a rapid intelligent detection device for CTP plate coating quality.

Background

CTP version material coating quality intelligent detection device generally includes one and carries the rail and set up the detection mechanism on carrying the rail among the prior art, CTP version material moves carries out light irradiation to in the detection mechanism, the camera in the detection mechanism scans and detects, the rear end sets up a artifical selective examination person, again with light irradiation selective examination as the replenishment to automated inspection, the detection device detection efficiency of this kind of structure is still lower, and the bad version that does not have the omission of assurance that adopts the mode of selective examination still can not be fine.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provides a rapid and intelligent detection device for CTP plate coating quality.

The technical scheme of the utility model is as follows: the utility model provides a quick intelligent detection device of CTP plate coating quality, includes the frame, be equipped with a longitudinal transportation area and many transverse transportation area that are linked together with longitudinal transportation area one side in the frame, be equipped with the steering mechanism corresponding with each transverse transportation area on the longitudinal transportation area, be equipped with a turn-up mechanism on the transverse transportation area respectively, be equipped with the sucking disc mechanism on the turn-up mechanism, each turn-up mechanism goes up and down to be connected on the breach that corresponds transverse transportation area, and each turn-up mechanism linkage sets up and overturns in order to hold multi-disc CTP plate material simultaneously.

Specifically, the longitudinal conveying belt is composed of a plurality of conveying rollers which are transversely arranged, a plurality of openings are formed in one side of the longitudinal conveying belt at equal intervals, and one end of the transverse conveying belt is communicated with the openings.

Specifically, the steering mechanism is composed of two groups of steering balls, the upper end of each steering ball protrudes out of a corresponding hole of the longitudinal conveying belt, the top of each steering ball is flush with the top of the conveying roller, two transverse steering balls in the two groups of steering balls are connected through a connecting rod between the two steering balls in the same group, the connecting rod is rotatably connected below the rack, a transmission gear is fixed to the connecting rod, two transmission shafts longitudinally arranged at the bottom of the rack drive the connecting rods to rotate through a gear set, and the two transmission shafts are driven by the same driving motor through a transmission wheel and a transmission belt.

Specifically, the transverse conveying belt is composed of a first conveying crawler belt and a second conveying crawler belt, and the first conveying crawler belt and the second conveying crawler belt are respectively located at two ends of the notch.

Specifically, each of the first conveying belts is driven by a first driving shaft connected to each of the first conveying belt driving shafts, and each of the second conveying belts is driven by a second driving shaft connected to each of the second conveying belt driving shafts.

Specifically, the turning mechanism comprises a turning plate and a turning motor, the turning plates on the transverse conveying belts are connected through a connecting rod, the end part of the connecting rod is located on the outer sides of the turning plates at two ends, the turning motor is fixed on the motor base, the output shaft of the turning motor is connected with one end of the connecting rod, the other end of the connecting rod is rotatably connected with a connecting base arranged on the outer side of the rack, and the lower ends of the motor base and the connecting base are respectively connected with an air cylinder.

Specifically, the connecting rod has two, two be connected through a connecting plate respectively between the both ends of connecting rod, the connecting rod is connected with the output shaft or the connecting seat of the motor of turning up through the body of rod.

Furthermore, a guide plate is further arranged in the direction of the turning plate facing the second conveying track, an intermediate plate is further arranged between the turning plate and the second conveying track, and an avoiding groove corresponding to the guide plate is formed in the intermediate plate.

Specifically, the sucker mechanism comprises a plurality of electric suckers arranged on the turning plate;

specifically, the electric sucker comprises a sucker main body, wherein an air suction hole and an air inlet hole are formed in the middle of the sucker main body, the air suction hole is connected with a negative pressure fan through a connecting pipe, and an electromagnetic valve is arranged on the air inlet hole.

The utility model has the beneficial effects that: the utility model can simultaneously detect a plurality of CTP plate coatings, when in detection, the CTP plate is lifted and obliquely arranged, the CTP plate is observed manually from the horizontal direction, and the detection camera detects from the oblique upper side, thereby effectively improving the detection efficiency and avoiding omission of bad plates.

Drawings

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

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a schematic side view of the initial state of the turn-up mechanism of the present invention;

fig. 4 is a schematic side view of the tip-up mechanism of the present invention in a raised and flipped state.

In the figure: the device comprises a longitudinal conveying belt 1, a transverse conveying belt 2, a steering mechanism 3, a turning-up mechanism 4, a sucker mechanism 5, a conveying roller 6, a steering ball 7, a first conveying crawler belt 8, a second conveying crawler belt 9, a turning-over plate 10, a turning-up motor 11, a connecting rod 12, a motor base 13, a connecting seat 14, an air cylinder 15, a connecting plate 16, a guide plate 17 and an intermediate plate 18.

Detailed Description

The technical scheme of the utility model is further specifically described by the following embodiments and the accompanying drawings.

As shown in fig. 1, a rapid intelligent detection device for the coating quality of a CTP plate comprises a rack, wherein a longitudinal conveyor belt 1 and a plurality of transverse conveyor belts 2 communicated with one side of the longitudinal conveyor belt 1 are arranged on the rack, steering mechanisms 3 corresponding to the transverse conveyor belts 2 are arranged on the longitudinal conveyor belt 1, a turning-up mechanism 4 is respectively arranged on each transverse conveyor belt 2, a sucker mechanism 5 is arranged on each turning-up mechanism 4, each turning-up mechanism 4 is connected to a notch of the corresponding transverse conveyor belt 2 in a lifting manner, and each turning-up mechanism 4 is arranged in a linkage manner so as to simultaneously suck a plurality of CTP plates for turning over, and the detection personnel and the detection cameras on opposite surfaces can rapidly perform quality detection on the coatings of a plurality of CTP plates simultaneously by matching with light irradiation of inclined arrangement;

in another embodiment, as shown in fig. 1 and fig. 2, the longitudinal conveyor belt 1 is composed of a plurality of transversely arranged conveyor rollers 6, a plurality of openings are equidistantly arranged on one side of the longitudinal conveyor belt 1, and one end of the transverse conveyor belt 2 is communicated with the openings;

in another embodiment, the steering mechanism 3 is provided with two groups of steering balls 7, the upper end of each steering ball 7 protrudes out of a corresponding hole of the longitudinal conveying belt 1, the top of each steering ball 7 is flush with the top of the conveying roller 6, and when steering is carried out, each steering ball 7 rotates towards the direction of the transverse conveying belt 2 under the action of the same power source;

specifically, two transverse steering balls 7 in two groups of steering balls 7 are a group, the two steering balls 7 in the same group are connected through a connecting rod, the connecting rod is rotatably connected below the rack, a transmission gear is fixed on the connecting rod, two transmission shafts longitudinally arranged at the bottom of the rack drive the connecting rods to rotate through a gear set, and the two transmission shafts are driven by the same drive motor through a transmission wheel and a transmission belt;

because each CTP plate needs to be fed into the transverse conveying belt 2 at the same time, the linked rotating ball structure can ensure the consistency of conveying;

in another embodiment, shown in fig. 1 and 2, the transverse conveyor belt 2 is composed of a first conveyor track 8 and a second conveyor track 9, and the first conveyor track 8 and the second conveyor track 9 are respectively positioned at two ends of the gap;

in another embodiment, each of the first conveying tracks 8 is driven by a first driving shaft which is connected with a driving shaft of each of the first conveying tracks 8, each of the second conveying tracks 9 is driven by a second driving shaft which is connected with a driving shaft of each of the second conveying tracks 9, and the first driving shaft and the second driving shaft are driven by independent driving motors respectively; because each CTP plate entering the first conveying crawler 8 needs to keep synchronous movement, and the second conveying crawler 9 is used for outputting the CTP plate after detection, the structure can save the manufacturing cost and can also keep the independent operation between the first conveying crawler 8 and the second conveying crawler 9;

in another embodiment, as shown in fig. 1-4, the turning mechanism 4 includes a turning plate 10 and a turning motor 11, the turning plates 10 on the transverse conveyor belts 2 are connected through a connecting rod 12, an end of the connecting rod 12 is located outside the turning plates 10 at both ends, the turning motor 11 is fixed on a motor base 13, an output shaft of the turning motor 11 is connected with one end of the connecting rod 12, the other end of the connecting rod 12 is rotatably connected with a connecting base 14 disposed outside the frame, lower ends of the motor base 13 and the connecting base 14 are respectively connected with an air cylinder 15, and the two air cylinders 15 are synchronously lifted to drive the turning plates 10 to lift;

specifically, two connecting rods 12 are provided, two ends of each connecting rod 12 are connected through a connecting plate 16, and the connecting rods 12 are connected with an output shaft of the turning motor 11 or a connecting seat 14 through rod bodies, so as to ensure the stability of the turning plate 10 during turning;

in another embodiment, as shown in fig. 3 and 4, a guide plate 17 is further disposed on the turning plate 10 in a direction toward the second conveying track 9, an intermediate plate 18 is further disposed between the turning plate 10 and the second conveying track 9, and a clearance groove corresponding to the guide plate 17 is disposed on the intermediate plate 18, so that when a CTP plate slides off from the turning plate 10, the CTP plate can slide onto the intermediate plate 18 by the guide plate 17 and then be output by the second conveying track 9, and the CTP plate is prevented from sliding off the rack or being damaged due to a height difference between the turning plate 10 and the second conveying track 9;

in another embodiment, the suction cup mechanism 5 comprises a plurality of electric suction cups arranged on the turning plate 10 to realize the suction and release of the CTP plate on the turning plate 10;

specifically, the electric sucker comprises a sucker main body, wherein the middle part of the sucker main body is provided with an air suction hole and an air inlet hole, the air suction hole is connected with a negative pressure fan through a connecting pipe, an electromagnetic valve is arranged on the air inlet hole, and the electric sucker loses suction force when the electromagnetic valve on the air inlet hole is opened;

the working principle of the utility model is as follows: the CTP printing plates are equidistantly placed on the longitudinal conveying belt 1, when the CTP printing plates are conveyed to corresponding openings, the steering mechanism 3 is started to input the CTP printing plates into the corresponding transverse conveying belt 2, the CTP printing plates are conveyed by the corresponding first conveying crawler belts 8 to move to the turning plate 10 mechanism, the electric suction cups of the turning plate 10 mechanism are started to suck the CTP printing plates, then the air cylinders 15 are started to lift the turning plates 10; after the lifting is finished, the turning-up motor 11 is started to drive each turning plate 10 to rotate by a preset angle, and light rays arranged obliquely are irradiated in a matching mode, so that a detector and a detection camera of an opposite surface can quickly perform quality detection on the coatings of a plurality of CTP plates at the same time; after the detection is finished, the electric suction cups are closed, and the CTP plate slides on the inclined turning plate 10, slides to the middle plate 18 along the guide plate 17 and is output by the second conveying crawler 9; and resetting the plate turnover 10 mechanism to wait for the detection of the next batch of CTP plates.

Claims (10)

1. The utility model provides a quick intelligent detection device of CTP plate coating quality, includes the frame, characterized by, be equipped with a vertical conveyer belt (1) and many horizontal conveyer belt (2) that are linked together with vertical conveyer belt (1) one side in the frame, be equipped with on vertical conveyer belt (1) with each horizontal conveyer belt (2) corresponding steering mechanism (3), be equipped with one respectively on horizontal conveyer belt (2) and turn up mechanism (4), be equipped with sucking disc mechanism (5) on turning up mechanism (4), each turn up mechanism (4) lift connection on the breach that corresponds horizontal conveyer belt (2), each links and sets up in order to hold the multi-disc CTP plate simultaneously and overturns.

2. The rapid intelligent detection device for the CTP plate coating quality as defined in claim 1, wherein said longitudinal conveyor belt (1) is composed of a plurality of transversely arranged conveying rollers (6), a plurality of openings are equidistantly arranged on one side of said longitudinal conveyor belt (1), and one end of said transverse conveyor belt (2) is communicated with the openings.

3. The rapid intelligent detection device for the CTP plate coating quality as claimed in claim 2, wherein the steering mechanism (3) comprises two groups of steering balls (7), the upper end of each steering ball (7) protrudes from the corresponding hole of the longitudinal conveyor belt (1) and the top of each steering ball is flush with the top of the conveyor roller (6), two groups of steering balls (7) in the two groups of steering balls (7) are transversely arranged, the two steering balls (7) in the same group are connected through a connecting rod, the connecting rod is rotatably connected below the frame, the connecting rod is fixed with a transmission gear, two transmission shafts longitudinally arranged at the bottom of the frame drive the connecting rods to rotate through a gear set, and the two transmission shafts are driven by the same drive motor through a transmission wheel and a transmission belt.

4. The CTP plate coating quality rapid intelligent detection device according to claim 3, wherein the transverse conveyor belt (2) is composed of a first conveyor belt (8) and a second conveyor belt (9), and the first conveyor belt (8) and the second conveyor belt (9) are respectively positioned at two ends of the gap.

5. The CTP plate coating quality rapid intelligent detection device according to claim 4, wherein each of the first conveyor tracks (8) is driven by a first driving shaft connected with the driving shaft of each of the first conveyor tracks (8), and each of the second conveyor tracks (9) is driven by a second driving shaft connected with the driving shaft of each of the second conveyor tracks (9).

6. The rapid intelligent detection device for CTP plate coating quality according to claim 5, wherein the turning mechanism (4) comprises a turning plate (10) and a turning motor (11), the turning plates (10) on each transverse conveyor belt (2) are connected by a connecting rod (12), the end of the connecting rod (12) is located outside the turning plates (10) at both ends, the turning motor (11) is fixed on a motor base (13), the output shaft of the turning motor (11) is connected with one end of the connecting rod (12), the other end of the connecting rod (12) is rotatably connected with a connecting seat (14) arranged outside the frame, and the lower ends of the motor base (13) and the connecting seat (14) are respectively connected with an air cylinder (15).

7. The rapid intelligent detection device for the CTP plate coating quality as claimed in claim 6, wherein there are two connecting rods (12), two ends of the two connecting rods (12) are respectively connected through a connecting plate (16), and the connecting rods (12) are connected with the output shaft of the turning-up motor (11) or the connecting seat (14) through the rod body.

8. The rapid intelligent detection device for the CTP plate coating quality as claimed in claim 7, wherein a guide plate (17) is further disposed on the turning plate (10) in a direction toward the second conveying track (9), an intermediate plate (18) is further disposed between the turning plate (10) and the second conveying track (9), and a position-avoiding groove corresponding to the guide plate (17) is disposed on the intermediate plate (18).

9. The rapid intelligent detection device for the coating quality of the CTP plate as claimed in claim 8, wherein the suction cup mechanism (5) comprises a plurality of electric suction cups arranged on the turning plate (10).

10. The rapid intelligent detection device for the coating quality of the CTP plate material according to claim 9, wherein the electric suction cup comprises a suction cup main body, the middle of the suction cup main body is provided with an air suction hole and an air inlet hole, the air suction hole is connected with a negative pressure fan through a connecting pipe, and the air inlet hole is provided with an electromagnetic valve.

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