CN217225848U - High-efficient visual detection cross cutting machine - Google Patents

Abstract

The utility model relates to a high-efficiency visual detection die-cutting machine, which comprises a frame, a die-cutting assembly, a feeding assembly, a receiving assembly and an identification position-following assembly; the die cutting assembly comprises a lower die, an upper die, a die cutting rule and a die cutting driving device; the feeding assembly comprises a feeding frame and a feeding plate; the receiving assembly comprises a receiving seat and a receiving driving motor; the identification tracking component comprises a position adjusting frame, an identification camera and a light source; the utility model discloses a be equipped with discernment and chase after position subassembly, the discernment camera that it includes can cooperate the computer to use, required processing position on the mark material area, and the linkage is received material driving motor and is stimulateeed the material area, move to the cross cutting subassembly with correct transport speed with it, guarantee that the material area carries out the cross cutting with correct processing position, compare in cross cutting machine in the past, the cutting die of cross cutting machine need not set up the pilot pin, do not need to be in advance at the material on the area in advance towards the locating hole, the cross cutting subassembly does not need additionally to set up bounce mechanism and makes the material area break away from the pilot pin, and the production cost is reduced, the efficiency of cross cutting is improved.

Description

High-efficient visual detection cross cutting machine

Technical Field

The utility model relates to a cross cutting machine technical field especially relates to a high-efficient visual detection cross cutting machine.

Background

In the die cutting field, a material strip of a feeding roller in a die cutting machine passes through a die cutting station and is finally collected into a collecting roller, and during the process, a cutting die in the die cutting station cuts and processes the material to complete the die cutting of the material. In order to ensure the position accuracy during cutting, the existing die cutting machine adopts a sleeve position positioning mode to position materials, positioning holes need to be punched in advance on a material belt, positioning needles are arranged on a cutting die, the positioning needles correspond to the sleeve positions with the positioning holes during die cutting, positioning cutting is completed, a bouncing mechanism needs to be arranged before a material receiving roller is taken in to separate a coil material from the cutting die, the debugging difficulty of an operator is high, and the die cutting efficiency is low. Therefore, improvements are needed.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model provides a high-efficient visual detection cross cutting machine.

In order to realize the utility model discloses a purpose, the utility model discloses a following technical scheme:

an efficient visual detection die-cutting machine comprises a machine frame, a die-cutting assembly, a feeding assembly, a receiving assembly and an identification position-following assembly; the die cutting assembly comprises a lower die, an upper die, a die cutting rule and a die cutting driving device; the lower die is arranged on the rack; the upper die is arranged above the lower die through a guide pillar; the die-cutting rule is arranged at the lower part of the upper die; the die cutting driving device is arranged in the rack and is in driving connection with the upper die; the feeding assembly comprises a feeding frame and a feeding plate; the feeding frame is arranged on the front side of the rack; the material passing plates are arranged on the left side and the right side of the die cutting assembly; the receiving assembly comprises a receiving seat and a receiving driving motor; the material receiving seat is arranged on the rear side of the rack; the material receiving driving motor is in driving connection with the material receiving seat; the identification tracking module comprises a position adjusting frame, an identification camera and a light source; the position adjusting frame is arranged between the feeding assembly and the receiving assembly; the identification camera is arranged on the position adjusting frame and is electrically connected with the material receiving driving motor; the light source is arranged beside the identification camera.

Furthermore, the front sides of the lower die and the upper die are provided with sliding guide rails.

Further, the feeding frame comprises a feeding side plate, a feeding guide roller and a feeding fixing plate; the feeding side plate is arranged on the front side of the rack; the feeding guide plate is arranged between the feeding side plates; the feeding guide roller is arranged on the rear side of the feeding guide plate; the feeding fixing plate is hinged to the upper side of the feeding guide plate.

Furthermore, a width limiting component is arranged on the material passing plate; the width limiting assembly comprises a width limiting groove and a width limiting material passing block; the width limiting groove is arranged on the material passing plate; the width limiting material passing block is connected with the width limiting groove in a sliding mode.

Furthermore, negative pressure holes are formed in the material passing plate and the lower die; the negative pressure hole is connected with a negative pressure device.

Furthermore, the material receiving seat comprises a seat body side plate, a material pulling roller and a material pressing wheel; the seat body side plate is arranged on the rear side of the rack; the material pulling roller is arranged between the side plates of the seat body; the pressing wheel is arranged on the upper side of the pulling roller; the material receiving driving motor is in driving connection with the material pulling roller.

Further, the material pressing wheel is connected with an adjusting component; the adjustment assembly comprises a connecting rod; the connecting rod is arranged on the outer side of the seat body side plate, one end of the connecting rod is connected with the pressing wheel, the other end of the connecting rod is connected with the spring seat, and the outer side of the connecting rod is connected with the handle; the spring seat comprises a seat body and a sliding block; the seat body is arranged on the seat body side plate; the sliding block is connected with the seat body in a sliding manner and is connected with the connecting rod; a spring is connected between the top of the sliding block and the base body.

Furthermore, the receiving seat also comprises a waste discharge plate; the waste discharge plate is arranged on the rear side of the pulling roller through a waste discharge bracket; and a waste discharge guide rod is arranged at the rear side of the waste discharge plate.

Further, the material receiving driving motor is a DD direct driving motor.

Further, the position adjusting frame comprises a transverse guide rail pair and a vertical guide rail pair.

The beneficial effects of the utility model reside in that:

1. the production cost is reduced, and the die cutting efficiency is improved. The utility model discloses a be equipped with discernment and chase after position subassembly, the discernment camera that it includes can cooperate the computer to use, mark the required processing position in the material area, and the linkage is received material driving motor and is stimulateeed the material area, move to the cross cutting subassembly with correct transport speed with it, guarantee that the material area carries out the cross cutting with correct processing position, contrast in the counterpoint mode that the cross cutting machine in the past adopted pilot pin and locating hole, the cutting die of this cross cutting machine need not set up the pilot pin, also need not be in advance at the material area in advance towards the locating hole, it makes the material area break away from the pilot pin not need additionally to set up the bounce material area mechanism on the cross cutting subassembly, and the production cost is reduced, and the cross cutting efficiency is improved.

2. The structure is compact. The DD direct drive motor is selected for the material receiving drive motor, the output torque is large, and different from the traditional motor, the large torque of the motor enables the DD direct drive motor to be directly connected with the material pulling roller, so that connecting mechanisms such as a speed reducer, a gear box and a belt pulley are omitted, and the DD direct drive motor has the advantages of being compact in structure, improving assembly efficiency and reducing the whole size.

Drawings

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

fig. 2 is a schematic structural view of the die cutting assembly of the present invention;

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

fig. 4 is a schematic structural diagram of the feeding assembly and the recognition position-following assembly of the present invention;

fig. 5 is a schematic structural view of the material receiving assembly of the present invention.

100. A frame; 200. a die cutting assembly; 210. a lower die; 220. an upper die; 230. a die-cutting rule; 240. a die-cutting drive means; 250. a waste discharge port; 260. a waste discharge channel; 300. a feeding assembly; 310. feeding a material frame; 311. feeding a side plate; 312. feeding a guide plate; 313. feeding guide rollers; 314. feeding a fixed plate; 320. a material passing plate; 321. a width limiting groove; 322. a width limiting material passing block; 400. a material receiving assembly; 410. a material receiving seat; 411. a seat body side plate; 412. a material pulling roller; 413. a material pressing wheel; 414. a connecting rod; 415. a handle; 416. a base body; 417. a slider; 418. a spring; 420. a material receiving driving motor; 430. waste discharge plate; 431. a waste discharge guide rod; 500. identifying a position-following component; 510. identifying a camera; 520. a light source; 530. a transverse guide rail pair; 540. a vertical guide rail pair; 600. and (4) negative pressure holes.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As shown in fig. 1-5, an efficient visual inspection die-cutting machine includes a frame 100, a die-cutting assembly 200, a feeding assembly 300, a receiving assembly 400, and an identification catching assembly 500;

the die cutting assembly 200 comprises a lower die 210, an upper die 220, a die cutting rule 230 and a die cutting driving device 240; the lower die 210 is arranged on the rack 100, and is provided with a waste discharge port 250, and the waste discharge port 250 is connected with a waste discharge channel 260; the upper die 220 is arranged above the lower die 210 through a guide pillar; the die-cutting rule 230 is disposed at the lower portion of the upper die 220; the die cutting driving device 240 is arranged in the frame 100 and is in driving connection with the upper die 220; in this embodiment, the die cutting driving device 240 is a motor, and is connected to the upper mold 220 through a cam structure (not shown), so as to realize the up-and-down repeated movement of the upper mold 220; in addition, the front sides of the lower die 210 and the upper die 220 are provided with sliding guide rails, so that the lower die 210 plate and the upper die 220 plate can be dragged along the sliding guide rails in the processes of installation, disassembly and maintenance, the labor burden is reduced, and the convenience of assembly, disassembly and maintenance is improved;

the feeding assembly 300 comprises a feeding frame 310 and a feeding plate 320; the material inlet frame 310 is arranged on the front side of the rack 100; the material passing plate 320 is arranged at the left side and the right side of the die cutting assembly 200; in this embodiment, the feeding frame 310 includes a feeding side plate 311, a feeding guide plate 312, a feeding guide roller 313 and a feeding fixing plate 314; the feeding side plate 311 is arranged on the front side of the rack 100; the feeding guide plate 312 is arranged between the feeding side plates 311; the feeding guide roller 313 is arranged at the rear side of the feeding guide plate 312; the feeding fixing plate 314 is hinged to the upper side of the feeding guide plate 312, a material belt firstly enters the die-cutting machine through the feeding frame 310, the material belt can enter by bypassing the feeding guide rollers 313 when entering, so that left and right displacement is avoided, the feeding fixing plate 314 can press the material belt to the feeding guide plate 312, and the material belt is prevented from jumping upwards; the material passing plate 320 is provided with a width limiting component; the width limiting assembly comprises a width limiting groove 321 and a width limiting material passing block 322; the width limiting groove 321 is disposed on the material passing plate 320; the width limiting block 322 is connected with the width limiting groove 321 in a sliding manner; the width limiting and passing block 322 is adjusted according to the width of the material belt, the left outer side and the right outer side of the material belt can be contacted with the width limiting and passing block 322 in the transportation process of the die-cutting machine, and the material belt is further prevented from sliding and running from side to side;

the receiving assembly 400 comprises a receiving seat 410 and a receiving driving motor 420; the material receiving seat 410 is arranged at the rear side of the rack 100; the material receiving driving motor 420 is in driving connection with the material receiving seat 410; in this embodiment, the material receiving seat 410 includes a seat body side plate 411, a material pulling roller 412 and a material pressing wheel 413; the seat side plate 411 is disposed at the rear side of the rack 100; the material pulling roller 412 is arranged between the base body side plates 411; the material pressing wheel 413 is arranged on the upper side of the material pulling roller 412; the material receiving driving motor 420 is in driving connection with the material pulling roller 412; the material receiving driving motor 420 is a DD direct drive motor, the output torque is large, and different from the traditional motor, the large torque of the motor can directly connect the material receiving driving motor with the material pulling roller 412, so that connecting mechanisms such as a speed reducer, a gear box, a belt pulley and the like are omitted, and the material receiving driving motor has the advantages of compact structure, improved assembly efficiency and reduced overall volume;

the material pressing wheel 413 is connected with an adjusting component; the adjustment assembly includes a link 414; the connecting rod 414 is arranged outside the seat body side plate 411, one end of the connecting rod is connected with the pinch roller 413, the other end of the connecting rod is connected with a spring 418 seat, and the outer side of the connecting rod is connected with a handle 415; the spring 418 seat comprises a seat body 416 and a sliding block 417; the seat body 416 is disposed on the seat body side plate 411; the sliding block 417 is connected with the seat 416 in a sliding manner and is connected with the connecting rod 414; a spring 418 is connected between the top of the slide 417 and the seat 416; by arranging the adjusting component, when the handle 415 is manually shaken, the connecting rod 414 tilts along the shaking direction, and the material pressing wheel 413 is taken away from the material pulling roller 412, so that the material belt loading and unloading of the feeding and the discharging are facilitated; moreover, the spring 418 seat can provide downward pressure to the material pressing wheel 413, so that the material pressing wheel can be close to the material pulling roller 412 at any time, and the material pulling stability is ensured;

the receiving base 410 further comprises a waste discharge plate 430; the waste discharge plate 430 is arranged on the rear side of the pulling roller 412 through a waste discharge bracket; a waste discharge guide rod 431 is arranged at the rear side of the waste discharge plate 430; the waste discharge plate 430 is arranged to assist the material belt in a waste discharge process, and after die cutting, the material belt passes through the waste discharge plate 430, is scraped by the waste discharge plate 430 and is discharged through the waste discharge guide rod 431;

the recognition tracking assembly 500 includes a position adjusting frame, a recognition camera 510 and a light source 520; the position adjusting frame is arranged between the feeding assembly 300 and the receiving assembly 400; the recognition camera 510 is disposed on the position adjusting frame and electrically connected to the material receiving driving motor 420; the light source 520 is disposed beside the recognition camera 510; in this embodiment, the position adjustment frame includes a transverse guide pair 530 and a vertical guide pair 540; the light source 520 is disposed on the material passing plate 320, and the direction of the light source 520 points upward; the recognition camera 510 is a CCD camera, and can be adjusted in the horizontal and vertical directions according to a position adjusting frame; the identification camera 510 is arranged and can be used in cooperation with a computer to mark a required processing position on a material belt, and is linked with the material receiving driving motor 420 to pull the material belt, so that the material belt is driven to move to the die cutting assembly 200 at a correct transportation speed, the material belt is guaranteed to be die-cut at the correct processing position, compared with a traditional die-cutting machine adopting a positioning needle and positioning hole alignment mode, a cutting die of the die-cutting machine does not need to be provided with a positioning needle, the positioning hole is not required to be pre-punched on the material belt in advance, and an ejection material belt mechanism is not required to be additionally arranged on the die cutting assembly 200 to enable the material belt to be separated from the positioning needle, so that the production cost is reduced, and the die-cutting efficiency is improved;

in this embodiment, the material passing plate 320 and the lower mold 210 are both provided with negative pressure holes 600; negative pressure hole 600 is connected with negative pressure device, can provide decurrent adsorption affinity to the material area at the in-process of cross cutting, guarantees the plane roughness, improves the machining precision.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides a high-efficient visual detection cross cutting machine which characterized in that includes: the automatic feeding and positioning device comprises a rack, a die cutting assembly, a feeding assembly, a receiving assembly and an identification position tracking assembly; the die cutting assembly comprises a lower die, an upper die, a die cutting rule and a die cutting driving device; the lower die is arranged on the rack; the upper die is arranged above the lower die through a guide pillar; the die-cutting rule is arranged at the lower part of the upper die; the die cutting driving device is arranged in the rack and is in driving connection with the upper die; the feeding assembly comprises a feeding frame and a feeding plate; the feeding frame is arranged on the front side of the rack; the material passing plates are arranged on the left side and the right side of the die cutting assembly; the receiving assembly comprises a receiving seat and a receiving driving motor; the material receiving seat is arranged on the rear side of the rack; the material receiving driving motor is in driving connection with the material receiving seat; the identification tracking assembly comprises a position adjusting frame, an identification camera and a light source; the position adjusting frame is arranged between the feeding assembly and the receiving assembly; the identification camera is arranged on the position adjusting frame and is electrically connected with the material receiving driving motor; the light source is arranged beside the identification camera.

2. The die cutting machine according to claim 1, wherein slide rails are arranged on the front sides of the lower die and the upper die.

3. The die cutting machine according to claim 1, wherein the feeding frame comprises a feeding side plate, a feeding guide roller and a feeding fixing plate; the feeding side plate is arranged on the front side of the rack; the feeding guide plate is arranged between the feeding side plates; the feeding guide roller is arranged on the rear side of the feeding guide plate; the feeding fixing plate is hinged to the upper side of the feeding guide plate.

4. The die cutting machine according to claim 1, wherein a width limiting assembly is arranged on the material passing plate; the width limiting assembly comprises a width limiting groove and a width limiting material passing block; the width limiting groove is arranged on the material passing plate; the width limiting material passing block is connected with the width limiting groove in a sliding mode.

5. The die cutting machine according to claim 1, wherein negative pressure holes are formed in the material passing plate and the lower die; the negative pressure hole is connected with a negative pressure device.

6. The die cutting machine according to claim 1, wherein the receiving base comprises a base side plate, a pulling roller and a nip wheel; the seat body side plate is arranged on the rear side of the rack; the material pulling roller is arranged between the side plates of the seat body; the pressing wheel is arranged on the upper side of the pulling roller; the material receiving driving motor is in driving connection with the material pulling roller.

7. The die cutting machine according to claim 6, wherein the nip wheel is connected with an adjusting assembly; the adjustment assembly comprises a connecting rod; the connecting rod is arranged on the outer side of the seat body side plate, one end of the connecting rod is connected with the pressing wheel, the other end of the connecting rod is connected with the spring seat, and the outer side of the connecting rod is connected with the handle; the spring seat comprises a seat body and a sliding block; the seat body is arranged on the seat body side plate; the sliding block is connected with the seat body in a sliding manner and is connected with the connecting rod; a spring is connected between the top of the sliding block and the base body.

8. The die cutting machine according to claim 6, wherein said receiving base further comprises a waste discharge plate; the waste discharge plate is arranged on the rear side of the pulling roller through a waste discharge bracket; and a waste discharge guide rod is arranged at the rear side of the waste discharge plate.

9. The die cutting machine according to claim 1, wherein the material receiving drive motor is a DD direct drive motor.

10. The die cutting machine according to claim 1, wherein said position adjustment frame comprises a pair of transverse rails and a pair of vertical rails.

Images