CN211917062U

CN211917062U - CCD die-cutting machine

Info

Publication number: CN211917062U
Application number: CN201922280810.8U
Authority: CN
Inventors: 徐万志; 贺洪文
Original assignee: Dongguan Hongwen Machinery Technology Co ltd
Current assignee: Dongguan Weide Automation Equipment Technology Co ltd
Priority date: 2019-12-18
Filing date: 2019-12-18
Publication date: 2020-11-13
Anticipated expiration: 2029-12-18

Abstract

The utility model discloses a CCD die-cutting machine, which comprises a workbench, a frame and a computer; the automatic feeding device also comprises an alignment platform, a feeding mechanism, a blanking mechanism, a die cutting mechanism and a CCD visual assembly; the feeding mechanism and the blanking mechanism are arranged on the alignment platform and used for drawing processing materials; the die cutting mechanism is arranged between the feeding mechanism and the blanking mechanism and is used for processing materials which are pulled by the feeding mechanism and the blanking mechanism; the CCD visual assembly comprises a CCD visual camera electrically connected with the computer; the vision direction of the CCD vision camera is aligned to the die cutting mechanism, the image of the processing material is acquired, the information is sent to the computer for analysis, and when the central point of the mark of the processing material is coincident with the central point set by the computer, the computer sends an instruction to the die cutting mechanism for die cutting; compare in cross cutting machine in the past, the utility model has the advantages of automatic die-cut, processing position are accurate, and it is few to produce the waste material.

Description

CCD die-cutting machine

Technical Field

The utility model relates to a cross cutting machine technical field, in particular to CCD cross cutting machine.

Background

The existing die cutting machine generally adopts a mechanism for manually feeding and discharging or automatically feeding and discharging, materials are placed in a jig to be fixed, and then starting equipment is started to perform die cutting, the die cutting mode needs mature technology and is relatively low in cost, but the processing mode is a processing mode, the processing materials are generally fed at intervals, and only one direction can be used for die cutting during die cutting, so that more waste materials can be generated, the materials with complex typesetting cannot be processed, the gap feeding can lead to position tolerance of the materials, when the processing times are more, the tolerance is larger, manual adjustment is needed, and for keyboard thin film circuit boards, printed matters and other materials with high precision, more accurate jigs are needed to be fixed, and the parameters of the feeding and discharging mechanism need to be debugged for many times, the thinner the material is, the higher the accurate requirement on the boundary is higher, and the processing. Therefore, it is necessary to develop a device capable of automatically identifying a processing point, automatically adjusting a material position, automatically loading and unloading and punching, so as to solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a CCD cross cutting machine to solve above-mentioned problem.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

a CCD die-cutting machine comprises a workbench, a frame arranged on the workbench and a computer; the automatic feeding device also comprises an alignment platform, a feeding mechanism, a blanking mechanism, a die cutting mechanism and a CCD visual assembly; the alignment platform is arranged on the workbench; the feeding mechanism and the blanking mechanism are arranged on the alignment platform, are respectively positioned on the front side and the rear side of the upper part of the workbench and are used for drawing processing materials; the die cutting mechanism is arranged between the feeding mechanism and the blanking mechanism, is positioned at the upper part of the workbench and is used for processing materials which are pulled by the feeding mechanism and the blanking mechanism; the CCD visual assembly comprises a CCD visual camera electrically connected with the computer; the CCD vision camera is arranged at the lower part of the frame, the vision direction of the CCD vision camera is aligned with the die cutting mechanism, the image of the processing material is acquired, the information is sent to the computer for analysis, and when the central point of the mark of the processing material is coincident with the central point set by the computer, the computer sends an instruction to the die cutting mechanism for die cutting.

Further, the feeding mechanism comprises a feeding guide plate and a feeding platform; the feeding platform is arranged on the front side of the upper part of the alignment platform, a plurality of negative pressure holes externally connected with a negative pressure device are arranged on the feeding platform, and the width of the negative pressure holes is below the gap between adjacent columns of the frame; the feeding material guide plate is arranged on the front side of the feeding platform and comprises a mounting plate, a guide roller and a limiting plate; the mounting plates are arranged at two ends of the front side of the feeding platform; the guide plate is arranged between the mounting plates, and a plurality of negative pressure holes externally connected with a negative pressure device are formed in the guide plate; the guide roller is arranged between the mounting plates and is positioned at the rear side of the guide plate; the limiting plates are provided with a group and are correspondingly sleeved on the guide rollers, and the positions of the limiting plates can be fixed by adjusting the first adjusting bolts on the limiting plates.

Further, the blanking mechanism comprises a blanking traction seat and a blanking platform; the blanking platform is arranged on the rear side of the upper part of the alignment platform, a plurality of negative pressure holes externally connected with a negative pressure device are arranged on the blanking platform, the width of the negative pressure holes is below the gap between adjacent columns of the frame, and a strip through groove penetrates through the blanking platform; the strip through groove is parallel to the front end face and the rear end face of the blanking platform, and a group of second adjusting bolts are arranged on the strip through groove; the blanking traction seat is arranged at the rear side of the blanking platform and comprises a traction frame, a traction driving roller and an adjusting roller; the traction frame is arranged on the rear side of the blanking platform; the traction driving roller is arranged in the traction frame, and the outer side of the traction driving roller is in driving connection with a traction motor; the traction motor is electrically connected with the computer; the adjusting roller is positioned on the upper portion of the traction driving roller and is arranged in the traction frame through a cam block, the cam block is externally connected with an adjusting handle, and the distance between the adjusting roller and the traction driving roller can be adjusted by screwing the adjusting handle, so that feeding is facilitated.

Furthermore, the die cutting mechanism adopts a four-column three-plate structure and comprises a die cutting top plate, a die cutting knife mounting seat, a die cutting base and a die cutting driving device; the punching top plate is arranged above the workbench through four guide posts and is positioned between the feeding mechanism and the blanking mechanism; the punching cutter mounting seat is arranged at the lower part of the punching top plate and is provided with a punching cutter; the punching base is correspondingly arranged below the punching cutter mounting seat, and a guiding space for guiding punching materials is arranged below the punching base; the punching driving device is arranged in the workbench and is in driving connection with the guide pillar; CCD vision through holes penetrate through the die-cutting top plate and the die-cutting knife mounting seat, and the CCD vision through holes are located on two sides of the center point of the die-cutting top plate.

Furthermore, the CCD vision assembly also comprises an adjusting slide rail, a pair of camera fixing plates and a light source; the adjusting slide rail is arranged at the lower part of the frame, and the camera fixing plate is connected to the adjusting slide rail in a sliding manner; the CCD vision camera is arranged on the camera fixing plate, and the vision directions of the CCD vision camera are respectively aligned to the CCD vision through holes; the light source is arranged on the upper portion of the punching base.

Furthermore, the alignment platform is an XYR alignment platform which comprises a top plate, a bottom plate and a driving module; the bottom plate is arranged on the upper part of the workbench; the driving modules are provided with three groups, are arranged on the edge of the upper part of the bottom plate in different axial arrangements and comprise stepping motors and ball screws in driving connection with the stepping motors; the stepping motor is electrically connected with the computer; the top plate is arranged at the upper part of the driving module and is provided with a clearance groove allowing the die cutting mechanism to pass through.

Furthermore, the frame corresponds the right side of die-cutting mechanism still is equipped with infrared ray hand protector.

The utility model has the advantages that 1, the processing position is accurate, and the produced waste is less; the utility model is provided with an alignment platform, a feeding mechanism, a blanking mechanism, a die cutting mechanism and a CCD visual assembly; the feeding mechanism and the blanking mechanism are arranged on the alignment platform, the die cutting mechanism is arranged in a clearance groove in the middle of the alignment platform, the CCD visual assembly is used for collecting images of materials and aligning the positions by adjusting the alignment platform, high-precision products can be processed, the position alignment is carried out once during each processing, tolerance accumulation is avoided, complicated typesetting materials can be processed, the alignment platform is adjusted, the materials which cannot be processed in the prior art can be processed, the materials can be utilized to the maximum extent, and waste materials are reduced; 2. automatic feeding and discharging, and avoiding dislocation; the limiting plates on the feeding mechanism are provided with a group and are correspondingly sleeved on the guide rollers, the position can be fixed by adjusting the first adjusting bolts on the limiting plates, the width of the material is adjusted correspondingly during adjustment, the width of the left side and the width of the right side of the material are fixed, and the material is prevented from running; the blanking mechanism is provided with a strip through groove, a pair of second adjusting bolts are arranged on the strip through groove, the gap between the second adjusting bolts can be adjusted by adjusting the second adjusting bolts to correspond to the width of the material, the width of the left side and the right side of the material is fixed, and the material is prevented from running; in addition, the feeding platform and the discharging platform are provided with negative pressure holes, so that adsorption can be performed in the process of transporting the processed materials, and the materials are further prevented from being out of position; 3. the vision capture is accurate; a CCD visual through hole penetrates through the punching cutter mounting seat and is positioned on two sides of the central point of the punching top plate; the two CCD vision cameras are arranged and respectively correspond to the CCD vision through holes for image acquisition, and the problem that a blade needs to be placed at the center of the die cutting mechanism, and an image cannot be accurately acquired by a single CCD vision camera at one side of the center is solved.

Drawings

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

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

FIG. 3 is a schematic view of the overall structure of the present invention;

fig. 4 is a partial enlarged view of fig. 3 at B;

fig. 5 is a schematic view of a partial structure of the present invention;

fig. 6 is a schematic view of a partial structure of the present invention.

100. A work table; 101. a frame; 102. an infrared hand protector; 103. a negative pressure hole; 200. aligning the platform; 201. a top plate; 202. a base plate; 203. a stepping motor; 204. a ball screw; 205. an empty avoiding groove; 300. a feeding mechanism; 301. a feeding and material guiding plate; 302. a feeding platform; 303. mounting a plate; 304. a guide plate; 305. a guide roller; 306. a limiting plate; 307. a first adjusting bolt; 400. a blanking mechanism; 401. a blanking traction seat; 402. a blanking platform; 403. a strip through groove; 404. a second adjusting bolt; 405. a traction frame; 406. a traction driving roller; 407. a leveling roller; 408. a traction motor; 409. a cam block; 410. an adjusting handle; 500. a die-cutting mechanism; 501. punching a top plate; 502. a punching knife mounting seat; 503. punching a base; 504. a guide post; 505. punching and cutting the knife; 506. installing a bolt; 507. a blade fixing bolt; 508. a hand-pulled collection box body; 600. a CCD vision component; 601. a CCD vision camera; 602. adjusting the slide rail; 603. a camera fixing plate.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. It should be noted that the drawings of the present invention are simplified and use non-precise ratios, and are only used for the purpose of facilitating and clearly assisting the description of the embodiments of the present invention.

As shown in fig. 1 to 6, the utility model discloses a CCD die-cutting machine, which comprises a workbench 100, a frame 101 arranged on the workbench 100, and a computer; the automatic blanking machine also comprises an alignment platform 200, a feeding mechanism 300, a blanking mechanism 400, a die-cutting mechanism 500 and a CCD visual assembly 600; the right side of the frame 101 corresponding to the die-cutting mechanism 500 is also provided with an infrared hand guard device 102;

the alignment platform 200 is disposed on the worktable 100; the alignment platform 200 is an XYR alignment platform, and comprises a top plate 201, a bottom plate 202 and a driving module; the bottom plate 202 is arranged on the upper part of the workbench 100; the driving modules are provided with three groups, are arranged on the edge of the upper part of the bottom plate 202 in different axial directions and comprise a stepping motor 203 and a ball screw 204 in driving connection with the stepping motor 203; the top plate 201 is arranged at the upper part of the driving module, and is provided with a clearance groove 205 for allowing the die cutting mechanism 500 to pass through;

the feeding mechanism 300 and the blanking mechanism 400 are arranged on the alignment platform 200 and are respectively positioned on the front side and the rear side of the upper part of the workbench 100; the feeding mechanism 300 comprises a feeding guide plate 301 and a feeding platform 302; the feeding platform 302 is arranged on the front side of the upper part of the alignment platform 200, and is provided with a plurality of negative pressure holes 103 externally connected with a negative pressure device, and the width of the negative pressure holes is below the gap between adjacent columns of the frame 101; the feeding material guide plate 301 is arranged on the front side of the feeding platform 302 and comprises a mounting plate 303, a guide plate 304, a guide roller 305 and a limiting plate 306; the mounting plates 303 are arranged at two ends of the front side of the feeding platform 302; the guide plate 304 is arranged between the mounting plates 303, and a plurality of negative pressure holes 103 externally connected with a negative pressure device are formed in the guide plate; the guide roller 305 is disposed between the mounting plates 303 and located at the rear side of the guide plate 304; the group of limiting plates 306 are correspondingly sleeved on the guide roller 305, the position of the limiting plates can be fixed by adjusting the first adjusting bolts 307 on the group of limiting plates, the width of the corresponding material is adjusted during adjustment, the width of the feeding materials on the left side and the right side is fixed, and the material is prevented from running;

the blanking mechanism 400 comprises a blanking traction seat 401 and a blanking platform 402; the blanking platform 402 is arranged at the rear side of the upper part of the alignment platform 200, is provided with a plurality of negative pressure holes 103 externally connected with a negative pressure device, has a width below the gap between adjacent columns of the frame 101, and is provided with a strip through groove 403 in a penetrating manner; the strip through groove 403 is parallel to the front end face and the rear end face of the blanking platform 402, and a group of second adjusting bolts 404 are arranged on the strip through groove 403; the blanking traction seat 401 is arranged at the rear side of the blanking platform 402 and comprises a traction frame 405, a traction driving roller 406 and an adjusting roller 407; the traction frame 405 is arranged at the rear side of the blanking platform 402; the traction driving roller 406 is arranged in the traction frame 405, and the outer side of the traction driving roller is connected with a traction motor 408 in a driving way; the adjusting roller 407 is positioned on the upper part of the traction driving roller 406 and is arranged in the traction frame 405 through a cam block, the cam block is externally connected with an adjusting handle 410, and the distance between the adjusting roller 407 and the traction driving roller 406 can be adjusted by screwing the adjusting handle 410, so that feeding is facilitated; the gap between the second adjusting screws can be adjusted by adjusting the second adjusting bolts 404 corresponding to the width of the material, so that the width of the left and right feeding materials is fixed, and the material is prevented from running;

the die-cutting mechanism 500 is arranged between the feeding mechanism 300 and the blanking mechanism 400 and is positioned at the upper part of the workbench 100, and the die-cutting mechanism 500 adopts a four-column three-plate structure and comprises a die-cutting top plate 501, a die-cutting knife mounting seat 502, a die-cutting base 503 and a die-cutting driving device; the die-cut top plate 501 is arranged above the workbench 100 through four guide posts 504 and is positioned between the feeding mechanism 300 and the blanking mechanism 400; the punching knife mounting seat 502 is arranged at the lower part of the punching top plate 501, and a punching knife 505 is mounted on the punching top plate; a mounting bolt 506 is connected to the upper part of the punching top plate 501, and the punching knife mounting seat 502 is fixed through the mounting bolt 506; a cutting blade fixing bolt 507 is provided on the front side of the cutting blade mounting seat 502, and the cutting blade 505 is fixed by the cutting blade fixing bolt 507; the punching base 503 is correspondingly arranged below the punching knife mounting base 502, is positioned in the clearance groove 205 of the alignment platform 200, and has a guiding space for guiding punching materials below; in this embodiment, the guiding space is provided with a hand-pulling type collecting box 508, or is externally connected with a collecting frame according to actual production requirements; the punching driving device is disposed in the worktable 100 and is in driving connection with the guide pillar 504, in this embodiment, the punching driving device is a hydraulic cylinder; CCD visual through holes penetrate through the die-cutting top plate 501 and the die-cutting knife mounting seat 502, and are positioned on two sides of the center point of the die-cutting top plate 501;

the CCD vision assembly 600 includes a CCD vision camera 601 electrically connected with the computer, an adjustment slide rail 602, a pair of camera fixing plates 603, and a light source; the adjusting slide rail 602 is disposed at the lower portion of the frame 101, and the camera fixing plate 603 is slidably connected to the adjusting slide rail 602; the two CCD vision cameras 601 are respectively arranged on the two camera fixing plates 603, and the vision directions thereof are respectively aligned with the CCD vision through holes; the light source set up in die-cut base 503 upper portion need lay the cutter because of the cross cutting center, only sets up a CCD vision camera 601 and can't catch the inside all positions of cross cutting, the utility model discloses a be equipped with a CCD vision camera 601 respectively in central point both sides to merge through the computer and catch, guaranteed that the field of vision in the die-cutting mechanism 500 is complete, avoid the problem of omitting. By capturing an image of the work material and sending the information to the computer for analysis, the computer sends a command to the die-cutting mechanism 500 to perform die-cutting when the center point of the work material mark coincides with the center point set by the computer.

The working principle is as follows: firstly, materials to be processed enter from the feeding guide plate 301 and are placed in the blanking traction seat 401 for traction and sliding, wherein the feeding platform 302 at the rear side of the feeding guide plate 301 and the blanking platform 402 at the front side of the blanking traction seat 401 are both provided with negative pressure holes 103, so that the materials can be adsorbed in the process of transporting the processed materials, and the materials are further prevented from running; then the CCD vision camera 601 picks up the image of the material in the die-cutting mechanism 500 through the CCD vision through hole, captures the mark point thereon, and sends it to the computer for recognition, when the material mark point is not aligned with the center point set by the computer, the computer controls the alignment platform 200 to adjust the position, the computer drives the stepping motor 203 on the alignment platform 200 to adjust the position of its XYR, because the feeding mechanism 300 and the blanking mechanism 400 are both arranged on the alignment platform 200, the adjustment of the position of the alignment platform 200 can adjust the position of the material at the same time, after the position is adjusted, the computer stops the driving of the traction motor 408 in the lower two mechanisms, and controls the die-cutting driving mechanism to drive the die-cutting top plate 501 and the die-cutting knife mounting seat 502 to move downwards and to die-cut the material at the same time, the die-cut material drops extremely in deriving the space, afterwards traction motor 408 continues the drive to pull the material and transport, prepare die-cut processing next time, processing at every turn, all carry out a position calibration, avoid accumulation tolerance, guarantee the high accuracy and process, and this kind of processing method can process the material of complicated composing, through right counterpoint platform 200 adjusts, realizes can not process the material of complicated composing in the past, and this kind of mode can the maximize utilize the material, reduces the production of waste material.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A CCD die-cutting machine comprises a workbench, a frame arranged on the workbench and a computer; the method is characterized in that: the automatic feeding device also comprises an alignment platform, a feeding mechanism, a blanking mechanism, a die cutting mechanism and a CCD visual assembly; the alignment platform is arranged on the workbench; the feeding mechanism and the blanking mechanism are arranged on the alignment platform, are respectively positioned on the front side and the rear side of the upper part of the workbench and are used for drawing processing materials; the die cutting mechanism is arranged between the feeding mechanism and the blanking mechanism, is positioned at the upper part of the workbench and is used for processing materials which are pulled by the feeding mechanism and the blanking mechanism; the CCD visual assembly comprises a CCD visual camera electrically connected with the computer; the CCD vision camera is arranged at the lower part of the frame, the vision direction of the CCD vision camera is aligned with the die cutting mechanism, the image of the processing material is acquired, the information is sent to the computer for analysis, and when the central point of the mark of the processing material is coincident with the central point set by the computer, the computer sends an instruction to the die cutting mechanism for die cutting.

2. The CCD die cutting machine according to claim 1, wherein: the feeding mechanism comprises a feeding material guide plate and a feeding platform; the feeding platform is arranged on the front side of the upper part of the alignment platform, a plurality of negative pressure holes externally connected with a negative pressure device are arranged on the feeding platform, and the width of the negative pressure holes is below the gap between adjacent columns of the frame; the feeding material guide plate is arranged on the front side of the feeding platform and comprises a mounting plate, a guide roller and a limiting plate; the mounting plates are arranged at two ends of the front side of the feeding platform; the guide plate is arranged between the mounting plates, and a plurality of negative pressure holes externally connected with a negative pressure device are formed in the guide plate; the guide roller is arranged between the mounting plates and is positioned at the rear side of the guide plate; the limiting plates are provided with a group and are correspondingly sleeved on the guide rollers, and the positions of the limiting plates can be fixed by adjusting the first adjusting bolts on the limiting plates.

3. The CCD die cutting machine according to claim 1, wherein: the blanking mechanism comprises a blanking traction seat and a blanking platform; the blanking platform is arranged on the rear side of the upper part of the alignment platform, a plurality of negative pressure holes externally connected with a negative pressure device are arranged on the blanking platform, the width of the negative pressure holes is below the gap between adjacent columns of the frame, and a strip through groove penetrates through the blanking platform; the strip through groove is parallel to the front end face and the rear end face of the blanking platform, and a group of second adjusting bolts are arranged on the strip through groove; the blanking traction seat is arranged at the rear side of the blanking platform and comprises a traction frame, a traction driving roller and an adjusting roller; the traction frame is arranged on the rear side of the blanking platform; the traction driving roller is arranged in the traction frame, and the outer side of the traction driving roller is in driving connection with a traction motor; the traction motor is electrically connected with the computer; the adjusting roller is positioned on the upper portion of the traction driving roller and is arranged in the traction frame through a cam block, the cam block is externally connected with an adjusting handle, and the distance between the adjusting roller and the traction driving roller can be adjusted by screwing the adjusting handle, so that feeding is facilitated.

4. The CCD die cutting machine according to claim 1, wherein: the die cutting mechanism is of a four-column three-plate type structure and comprises a die cutting top plate, a die cutting knife mounting seat, a die cutting base and a die cutting driving device; the punching top plate is arranged above the workbench through four guide posts and is positioned between the feeding mechanism and the blanking mechanism; the punching cutter mounting seat is arranged at the lower part of the punching top plate and is provided with a punching cutter; the punching base is correspondingly arranged below the punching cutter mounting seat, and a guiding space for guiding punching materials is arranged below the punching base; the punching driving device is arranged in the workbench and is in driving connection with the guide pillar; CCD vision through holes penetrate through the die-cutting top plate and the die-cutting knife mounting seat, and the CCD vision through holes are located on two sides of the center point of the die-cutting top plate.

5. The CCD die cutting machine according to claim 4, wherein: the CCD visual component also comprises an adjusting slide rail, a pair of camera fixing plates and a light source; the adjusting slide rail is arranged at the lower part of the frame, and the camera fixing plate is connected to the adjusting slide rail in a sliding manner; the CCD vision camera is arranged on the camera fixing plate, and the vision directions of the CCD vision camera are respectively aligned to the CCD vision through holes; the light source is arranged on the upper portion of the punching base.

6. The CCD die cutting machine according to claim 1, wherein: the alignment platform is an XYR alignment platform and comprises a top plate, a bottom plate and a driving module; the bottom plate is arranged on the upper part of the workbench; the driving modules are provided with three groups, are arranged on the edge of the upper part of the bottom plate in different axial arrangements and comprise stepping motors and ball screws in driving connection with the stepping motors; the stepping motor is electrically connected with the computer; the top plate is arranged at the upper part of the driving module and is provided with a clearance groove allowing the die cutting mechanism to pass through.

7. The CCD die cutting machine according to claim 1, wherein: the frame corresponds die-cutting mechanism's right side still is equipped with infrared ray hand protector.