CN211937933U - Ceramic plate surface detection and distribution device - Google Patents

Abstract

The utility model mainly discloses a ceramic plate surface detection diverging device, its technical scheme: the device comprises a flow distribution plate which is distributed in an inclined way, the surface of the flow distribution plate is divided into a first conveying channel and a second conveying channel through a partition plate, a separating device matched with the partition plate is further arranged on the flow distribution plate, and a feeding channel corresponding to the first conveying channel is arranged at the front end of the flow distribution plate; the feed channel is provided with a detection frame, the detection frame is provided with a mounting plate, two stop rods penetrate through the mounting plate, the bottom of the mounting plate is provided with a cleaning head and a detection head, the cleaning head is positioned at the front part of the stop rod at the most front side, the detection head is positioned between the two stop rods, the detection frame is further provided with a push cylinder, and the push cylinder pushes the stop rod to move up and down through a pressing plate. The utility model has the characteristics of detect accurate, the convenient safety of reposition of redundant personnel.

Description

Ceramic plate surface detection and distribution device

Technical Field

The utility model relates to a ceramic plate detects technical field, especially a ceramic plate surface detects diverging device.

Background

In the prior art, a linear array camera with a fixed position is usually arranged above a sheet for surface detection of a ceramic plate, and during the conveying movement of the ceramic plate, the linear array camera scans and images the ceramic plate and then performs flaw analysis on the formed image. However, when the relative movement speed of the ceramic plate and the scanning camera is high, the scanning time is too short, the detection cannot be performed fully, the motion blur of the image is improved, the micro flaws cannot be clearly imaged and are difficult to find or distinguish, the detection precision needs to be enhanced, and when a plurality of ceramic plates are continuously scanned and detected, the phenomenon of detection omission is easily caused when the movement speed is too high; after the detection, generally, push into another passageway through the push rod with the ceramic plate and shunt the processing, and when the ceramic plate velocity of motion was very fast, the unable accuracy of push rod aimed at the ceramic plate, lead to the phenomenon of reposition of redundant personnel error, and the striking of push rod also causes wearing and tearing easily to the surface of ceramic plate.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model provides a ceramic plate surface detects diverging device, the utility model has the characteristics of detect accurate, the convenient safety of reposition of redundant personnel.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a ceramic plate surface detection flow distribution device comprises a flow distribution plate which is obliquely distributed, wherein the surface of the flow distribution plate is divided into a first conveying channel and a second conveying channel through a partition plate, a separation device matched with the partition plate is further arranged on the flow distribution plate, and a feeding channel corresponding to the first conveying channel is arranged at the front end of the flow distribution plate; the feed channel is provided with a detection frame, the detection frame is provided with a mounting plate, two stop rods penetrate through the mounting plate, the bottom of the mounting plate is provided with a cleaning head and a detection head, the cleaning head is positioned at the front part of the stop rod at the most front side, the detection head is positioned between the two stop rods, the detection frame is further provided with a push cylinder, and the push cylinder pushes the stop rod to move up and down through a pressing plate.

The utility model discloses further set up to: the tail ends of the first conveying channel and the second conveying channel are respectively connected with a first discharging channel and a second discharging channel.

The utility model discloses further set up to: the separating device comprises a rotating rod matched with the front end of the isolating plate, a protective layer is arranged on the side face of the rotating rod, the front end of the isolating plate inclines towards the second conveying channel, a stepping motor is arranged at the bottom of the flow distribution plate, and the stepping motor is connected with the rotating rod through a rotating shaft.

The utility model discloses further set up to: the both sides of flow distribution plate all are equipped with the baffle, are equipped with the breach on the baffle of first transfer passage department, the dwang is located the breach.

The utility model discloses further set up to: the top and the clamp plate that block the pole are connected, block and are equipped with the limiting plate on the pole, block the outside cover of pole and be equipped with the spring, the upper end and the limiting plate of spring are connected, and the lower extreme and the mounting panel of spring are connected, and the bottom parcel that blocks the pole has the cushion.

The utility model discloses further set up to: and the two sides of the feeding channel are provided with a centering cylinder at the front end of the detection frame, and a centering plate is arranged on a piston rod of the centering cylinder.

The utility model discloses it does to have beneficial effect: the utility model conveys and detects the ceramic plates through the feeding channel, and leads the ceramic plates into the first conveying channel or the second conveying channel on the splitter plate respectively through the separating device according to the detection result to carry out split-flow treatment; the arranged feeding channel and the flow distribution plate are obliquely arranged, so that the ceramic plate is convenient to transport, and power resources are saved; during detection, the ceramic plate is cleaned by the arranged cleaning head, so that the surface cleanness of the ceramic plate is ensured, and the accuracy of subsequent detection is improved; two of setting block the pole and play the effect to ceramic plate location, keep apart under the effect that promotes the cylinder, make the accurate static below that detects the head of ceramic plate and have sufficient time to detect, improve and detect the accuracy, also keep apart subsequent ceramic plate simultaneously for the ceramic plate can detect one by one, accurately, avoids lou examining.

Further, according to the detection result, if the surface quality of the ceramic plate is unqualified, the stepping motor drives the rotating rod to rotate, so that the rotating rod rotates to be in contact with the isolation plate, the first conveying channel is blocked, and the unqualified ceramic plate enters the second conveying channel; if the surface quality of the ceramic plate is qualified, the qualified ceramic plate directly enters the first conveying channel, so that the qualified ceramic plate and the unqualified ceramic plate are shunted for subsequent operation, the whole structure is simple, shunting is convenient and safe, and the surface of the ceramic plate cannot be damaged;

further, before detecting, the centering cylinder pushes the centering plate to adjust the position of the ceramic plate, so that the ceramic plate accurately passes through the cleaning head and the detection head, and the detection accuracy is improved.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a top view of the present invention.

Reference numerals: 1. a flow distribution plate; 11. a baffle plate; 12. a notch; 2. a separator plate; 21. a first conveyance path; 22. a second conveyance path; 23. a first discharge channel; 24. a second discharge channel; 3. a separation device; 31. rotating the rod; 32. a stepping motor; 4. a feed channel; 41. a detection frame; 42. mounting a plate; 43. a blocking lever; 431. a limiting plate; 432. a spring; 433. a soft cushion; 44. cleaning the head; 45. a detection head; 46. a push cylinder; 47. pressing a plate; 51. a straightening cylinder; 52. and (5) a correcting plate.

Detailed Description

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

As shown in fig. 1-2, a ceramic plate surface detection flow distribution device includes a flow distribution plate 1 which is obliquely distributed, the surface of the flow distribution plate 1 is divided into a first conveying channel 21 and a second conveying channel 22 by a partition plate 2, a separation device 3 which is matched with the partition plate 2 is further arranged on the flow distribution plate 1, and a feeding channel 4 which corresponds to the first conveying channel 21 is arranged at the front end of the flow distribution plate 1; be equipped with on feed channel 4 and detect frame 41, be equipped with mounting panel 42 on detecting frame 41, it has two to block pole 43 to run through on the mounting panel 42, and the bottom of mounting panel 42 is equipped with cleaning head 44 and detects head 45, and cleaning head 44 is located the anterior portion that blocks pole 43 of foremost side, detects head 45 and is located two and blocks between the pole 43, still is equipped with on detecting frame 41 and promotes cylinder 46, and promotion cylinder 46 promotes through clamp plate 47 and blocks pole 43 and reciprocate.

The flow distribution plate 1 and the feeding channel 4 are obliquely arranged, power transmission is not needed, the ceramic plate can be conveyed only by means of gravity, and equipment and electric power cost are saved.

The ends of the first conveying channel 21 and the second conveying channel 22 are respectively connected with a first discharging channel 23 and a second discharging channel 24.

Separator 3 includes with the front end complex dwang 31 of division board 2, and the side of dwang 31 is equipped with the protective layer, and the front end of division board 2 inclines to second transfer passage 22, and 1 bottom of flow distribution plate is equipped with step motor 32, and step motor 32 is connected with dwang 31 through the pivot.

The stepping motor 32 rotates the rotation lever 31 by the rotation shaft, so that the rotation lever 31 rotates, and when the end of the rotation lever 31 contacts the front end of the partition plate 2 to block the first conveying passage 21, the ceramic plate enters the second conveying passage 22. The slope setting of 2 front ends of division board for when dwang 31 rotate to with 2 front end contacts of division board, the product can enter into second transfer passage 22 smoothly along the inclined plane of division board 2, and the reposition of redundant personnel is more smooth and easy, and the ceramic plate has also been protected to the protective layer of side, avoids taking place wearing and tearing phenomenon.

Baffle 11 is all equipped with to the both sides of flow distribution plate 1, is equipped with breach 12 on the baffle 11 of first transfer passage 21 department, dwang 31 is located breach 12. The baffle 11 that sets up avoids dropping of product, improves the transport stability of ceramic plate, sets up dwang 31 in breach 12, compact structure, and can not disturb the normal transmission of ceramic plate.

The top of blocking the pole 43 is connected with clamp plate 47, blocks to be equipped with limiting plate 431 on the pole 43, blocks the outside cover of pole 43 and is equipped with spring 432, and spring 432's upper end is connected with limiting plate 431, and spring 432's lower extreme is connected with mounting panel 42, and the bottom of blocking pole 43 wraps up there is cushion 433. Set up spring 432 on blockking pole 43, have certain cushioning effect, blockked the bottom of pole 43 simultaneously and set up cushion 433, avoided causing wearing and tearing to the surface of ceramic plate when stopping.

The two sides of the feeding channel 4 are provided with a centering cylinder 51 at the front end of the detection frame 41, and a centering plate 52 is arranged on a piston rod of the centering cylinder 51.

During normal work, the ceramic plate enters from the feeding channel 4, the ceramic plate is straightened under the pushing of the straightening cylinder 51 by utilizing the straightening plate 52, when the ceramic plate passes through the detection frame 41, the ceramic plate is cleaned by the cleaning head 44, impurities such as dust on the surface of the ceramic plate are removed, the cleanness of the surface of the ceramic plate is ensured, the accuracy of subsequent detection is improved, then the pushing cylinder 46 pushes the two blocking rods 43 to move downwards through the pressing plate 47, the ceramic plate is limited under the detection head 45, the detection head 45 accurately detects the surface of the static ceramic plate, the detection is accurate, meanwhile, the blocking rods 43 also prevent the subsequent ceramic plate from being conveyed, the ceramic plate can be fully detected one by one, and the phenomenon of missed detection is avoided; after detection is finished, the blocking rod 43 is lifted, the ceramic plate enters the flow distribution plate 1, if the detection head 45 detects that the surface quality of the ceramic plate is unqualified, the stepping motor 32 drives the rotating rod 31 to rotate, so that the rotating rod 31 rotates to be in contact with the partition plate 2, the first conveying channel 21 is blocked, the unqualified ceramic plate enters the second conveying channel 22, and then the ceramic plate is output through the second discharging channel 24 for subsequent treatment; if the detection head 45 detects that the surface quality of the ceramic plate is qualified, the qualified ceramic plate directly enters the first conveying channel 21 and is then output through the first discharging channel 23 for subsequent processing.

The above embodiments are only used for explaining the inventive concept of the present invention, and not for limiting the protection of the claims of the present invention, and all the insubstantial modifications of the present invention made by using the above inventive concept shall fall within the protection scope of the present invention.

Claims (6)

1. The utility model provides a ceramic plate surface detects diverging device which characterized in that: the device comprises a flow distribution plate (1) which is distributed in an inclined way, the surface of the flow distribution plate (1) is divided into a first conveying channel (21) and a second conveying channel (22) through a separation plate (2), a separation device (3) matched with the separation plate (2) is further arranged on the flow distribution plate (1), and a feeding channel (4) corresponding to the first conveying channel (21) is arranged at the front end of the flow distribution plate (1); be equipped with on feed channel (4) and detect frame (41), be equipped with mounting panel (42) on detecting frame (41), it has two to block pole (43) to run through on mounting panel (42), the bottom of mounting panel (42) is equipped with cleaning head (44) and detects head (45), cleaning head (44) are located the front portion that blocks pole (43) of foremost side, it is located two and blocks between pole (43) to detect head (45), still be equipped with on detecting frame (41) and promote cylinder (46), it reciprocates to promote cylinder (46) and block pole (43) through clamp plate (47) promotion.

2. The ceramic plate surface detection shunt device according to claim 1, wherein: the tail ends of the first conveying channel (21) and the second conveying channel (22) are respectively connected with a first discharging channel (23) and a second discharging channel (24).

3. The ceramic plate surface detection shunt device according to claim 1, wherein: separator (3) include with front end complex dwang (31) of division board (2), the side of dwang (31) is equipped with the protective layer, the front end of division board (2) to second transfer passage (22) slope, flow distribution plate (1) bottom is equipped with step motor (32), step motor (32) are connected with dwang (31) through the pivot.

4. A ceramic plate surface detecting and shunting device according to claim 3, wherein: both sides of flow distribution plate (1) all are equipped with baffle (11), are equipped with breach (12) on baffle (11) of first transfer passage (21) department, dwang (31) are located breach (12).

5. The ceramic plate surface detection shunt device according to claim 1, wherein: the top and the clamp plate (47) of blockking pole (43) are connected, block to be equipped with limiting plate (431) on pole (43), and the outside cover that blocks pole (43) is equipped with spring (432), and the upper end and limiting plate (431) of spring (432) are connected, and the lower extreme and mounting panel (42) of spring (432) are connected, and the bottom parcel that blocks pole (43) has cushion (433).

6. The ceramic plate surface detection shunt device according to claim 1, wherein: the front end of the two sides of the feeding channel (4) positioned on the detection frame (41) is provided with a centering cylinder (51), and a piston rod of the centering cylinder (51) is provided with a centering plate (52).

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