CN213423000U - Full-automatic cross cutting detects machine - Google Patents

Abstract

The utility model discloses a full-automatic cross cutting detects machine, include: the discharging device is used for containing a die-cut product to be detected, and the die-cut product to be detected is formed by rolling a film to be detected; the roller mechanism is used for loosening and pressing the film to be detected; the coil motor is used for driving the roller mechanism to operate through a belt and driving the film to be detected to advance; the material receiving device is used for accommodating the detected die-cut products; the detection processing device is used for feeding back the line frequency to the image acquisition device in real time; the image acquisition device is used for ceaselessly acquiring and generating an image of the membrane to be detected according to line frequency connection; the detection processing device is also used for detecting the image of the film to be detected in real time, detecting and marking the defective die-cutting products in real time and informing the code spraying device of the detection result of the defective die-cutting products; and the code spraying device is used for spraying codes and printing labels on the bad die-cutting products according to the detection result of the bad die-cutting products. Through the embodiment of the utility model provides a, can realize incessantly detecting the product in succession, can mark bad cross cutting product, satisfy high-speed flexibility demand.

Description

Full-automatic cross cutting detects machine

Technical Field

The utility model relates to a cross cutting product detection area, in particular to full-automatic cross cutting detects machine.

Background

The detection of die-cut products is a very critical link in the processing and manufacturing of the die-cut products. In electronic communication digital products such as electronics, electric appliances, copiers, digital cameras, notebook computers, mobile phones, automobiles, instruments and meters and the like, die-cutting products are required to be used for insulation, fixation, dust prevention, shock absorption, sealing and the like. Along with the development of production in the directions of automation, intellectualization, precision, high speed, flexibility and the like, higher requirements are provided for the phenomena of size precision, glue shortage, hole blocking and the like of die-cut products, and the detection difficulty is continuously increased due to the diversification of the forms, colors and materials of the die-cut products.

The existing semi-automatic die-cutting detection equipment can only detect single materials, colors and shapes, has the defects of single color, poor compatibility, low speed and low precision of detected product materials, cannot perform full-detection defective product marking on the product, has high cost and low capacity, has limitation on the detectable product, and cannot meet the requirements of flexible and high-speed detection of a die-cutting production line.

SUMMERY OF THE UTILITY MODEL

In view of this, the embodiment of the utility model provides a full-automatic cross cutting detects machine can realize incessantly detecting the product in succession, treats the cross cutting until the same volume and detects the product detection completion, and can mark bad cross cutting product to can detect multiple product, compatible high, detect fast, the precision is high, can satisfy high-speed flexibility demand.

The utility model provides an above-mentioned technical problem adopted technical scheme as follows:

according to an aspect of the embodiment of the utility model provides a pair of full-automatic cross cutting detects machine, include: the device comprises a feeding device, a roller mechanism, a receiving device, a coiling motor, a detection processing device, an image acquisition device and a code spraying device; wherein:

the discharging device is used for containing a die-cut product to be detected, and the die-cut product to be detected is formed by rolling a film to be detected;

the roller mechanism is used for loosening and pressing the film to be detected;

the coil motor is used for driving the roller mechanism to operate through a belt and driving the film to be detected to advance;

the material receiving device is used for containing the detected die-cut products;

the detection processing device is used for feeding back line frequency to the image acquisition device in real time;

the image acquisition device is arranged above the advancing direction of the film to be detected of the roller mechanism and is used for ceaselessly acquiring and generating an image of the film to be detected according to the line frequency connection fed back by the detection processing device in real time;

the detection processing device is also used for detecting the image of the film to be detected in real time, detecting and marking the defective die-cutting product in real time and informing the code spraying device of the detection result of the defective die-cutting product;

and the code spraying device is used for spraying a code on the bad die-cutting product and printing a label on the bad die-cutting product according to the detection result of the bad die-cutting product.

In one possible design, the inspection machine further includes: the automatic feeding device comprises a shell and a fixed beam, wherein the roller mechanism, a coil motor, a detection processing device, an image acquisition device and a code spraying device are arranged in the shell, and the feeding device and the receiving device are arranged outside the shell; the fixed beam penetrates through one side edge of the shell.

In one possible design, the inspection machine further includes: and the material belt position adjusting mechanism is used for adjusting the front and back offset positions of the film to be detected.

In one possible design, the emptying device comprises: the device comprises a front discharging shaft, a front discharging disc, a front discharging motor, a front magnetic powder brake and a vacuum adsorption motor; wherein:

the front discharging shaft is transversely arranged at one end of the fixed beam;

the front magnetic powder brake is arranged on the front discharging shaft;

the front discharging motor drives the front discharging shaft to operate through a front magnetic powder brake, and the discharging speed is adjusted by adjusting the tension of the front magnetic powder brake;

the front discharging disc is used for containing a die-cutting product to be detected and is fixed on the front discharging shaft together with the die-cutting product to be detected during working;

the vacuum adsorption motor is used for generating vacuum suction force, and adsorbing the film to be detected on the material belt position adjusting mechanism, so that the film to be detected is prevented from generating displacement.

In one possible design, the roller mechanism includes: the front roller mechanism, the middle roller mechanism and the rear roller mechanism; wherein:

preceding cylinder mechanism sets up material area position adjustment mechanism rear, well cylinder mechanism sets up preceding cylinder mechanism with between the rear roller mechanism, preceding cylinder mechanism, well cylinder mechanism, rear roller mechanism all are used for loosening and compress tightly wait to examine the membrane, and the membrane advances to be examined in the drive.

In one possible design, the image capturing apparatus includes: the linear array camera and the lens are mounted below the linear array camera;

the linear array camera is arranged above the middle position of the advancing direction of the film to be detected between the front roller mechanism and the middle roller mechanism, and the linear array camera is matched with the lens to continuously acquire and generate the image of the film to be detected between the front roller mechanism and the middle roller mechanism according to the line frequency connection fed back by the detection processing device in real time.

In one possible design, the inspection machine further includes: a coaxial line light source, the coaxial line light source comprising: go up three-colour line light source and lower three-colour line light source, go up three-colour line light source and install under the camera lens with lower three-colour line light source, wait to examine the membrane and be in go up three-colour light source and go forward with the centre of lower three-colour light source, go up three-colour line light source and be used for passing down the membrane of waiting to examine of drum mechanism is polished.

In one possible design, the detection processing device is arranged to be pressed against the intermediate roller mechanism and operates together with the intermediate roller mechanism during operation;

the detection processing device feeds back the speed change of the coil motor in real time and feeds back line frequency to the image acquisition device in real time; and detecting the image of the film to be detected fed back by the image acquisition device in real time, detecting and marking the defective die-cutting products in real time, tracking and positioning the defective die-cutting products in real time, determining the code spraying and marking positions of the defective die-cutting products, and informing the code spraying and marking positions of the defective die-cutting products to the code spraying device.

In one possible design, the code spraying device includes: the ink-jet printer comprises an ink-jet printer nozzle and an ink-jet printer controller;

the ink-jet printer nozzle is arranged on the rear roller mechanism, and the ink-jet position is aligned with the middle position of the advancing of the film to be detected;

and the code spraying machine controller is used for controlling the spray head of the code spraying machine to spray a code at the marking position of the bad die-cutting product and mark a label according to the detection result of the bad die-cutting product of the detection processing device.

In one possible design, the material receiving device includes: a rear material receiving shaft, a rear material receiving disc, a rear material receiving motor and a rear magnetic powder brake; wherein:

the rear material receiving shaft is transversely arranged at the other end of the fixed beam;

the rear magnetic powder brake is arranged on the rear material receiving shaft;

the rear material receiving motor drives the rear material receiving shaft to rotate through the rear magnetic powder brake, and the material receiving speed is adjusted by adjusting the tension of the rear magnetic powder brake;

the rear material receiving plate is used for containing die-cutting products which are detected completely, and the die-cutting products which are detected completely are fixed on the rear material receiving motor shaft during working.

Compared with the prior art, the embodiment of the utility model provides a pair of full-automatic cross cutting detects machine, include: the device comprises a feeding device, a roller mechanism, a receiving device, a coiling motor, a detection processing device, an image acquisition device and a code spraying device; wherein: the discharging device is used for containing a die-cut product to be detected, and the die-cut product to be detected is formed by rolling a film to be detected; the roller mechanism is used for loosening and pressing the film to be detected; the coil motor is used for driving the roller mechanism to operate through a belt and driving the film to be detected to advance; the material receiving device is used for containing the detected die-cut products; the detection processing device is used for feeding back line frequency to the image acquisition device in real time; the image acquisition device is arranged above the advancing direction of the film to be detected of the roller mechanism and is used for ceaselessly acquiring and generating an image of the film to be detected according to the line frequency connection fed back by the detection processing device in real time; the detection processing device is also used for detecting the image of the film to be detected in real time, detecting and marking the defective die-cutting product in real time and informing the code spraying device of the detection result of the defective die-cutting product; and the code spraying device is used for spraying a code on the bad die-cutting product and printing a label on the bad die-cutting product according to the detection result of the bad die-cutting product. Through the embodiment of the utility model, the roller mechanism and the film to be detected are driven to move forward by the high-precision coil motor, the detection processing device is matched with the image acquisition device in real time to continuously acquire the image of the film to be detected, detecting the image of the film to be detected in real time, detecting a poorly marked (NG) die-cut product in real time, and code-spraying and marking a label at the marking position of the poorly marked die-cut product, can realize continuous detection of products until the detection of the same roll of products to be die-cut is finished, can mark defective die-cut products, can detect various products, has high compatibility, high detection speed and high precision, can meet the requirements of high-speed flexibility, therefore, the problems that the existing semi-automatic die cutting detection equipment cannot continuously detect, poor die cutting products are not marked, the detection products are single, and the high-speed flexibility requirement cannot be met can be solved.

Drawings

Fig. 1 is the embodiment of the utility model provides a structural schematic diagram of a full-automatic cross cutting detection machine.

Fig. 2 is the embodiment of the utility model provides a structural schematic diagram of a full-automatic cross cutting detection machine.

Fig. 3 is a schematic structural diagram of a full-automatic die cutting detection machine provided by the embodiment of the utility model.

Fig. 4 is the embodiment of the utility model provides a structural schematic diagram of a full-automatic cross cutting detection machine.

Fig. 5 is a schematic structural view of a full-automatic die cutting detection machine provided by the embodiment of the utility model.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention clearer and more obvious, the following description of the present invention with reference to the accompanying drawings and embodiments is provided for further details. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the following description, suffixes such as "module", "part", or "unit" used to denote elements are used only for the convenience of description of the present invention, and have no specific meaning in itself. Thus, "module", "component" or "unit" may be used mixedly.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order.

In one embodiment, as shown in fig. 1, the utility model provides a full-automatic die cutting detection machine, the detection machine includes an axially disposed emptying device 10, a roller mechanism 20, a material receiving device 30, a coil motor 40, a detection processing device 50, an image collecting device 60, and a code spraying device 70; wherein:

blowing device 10 for hold and wait to examine the cross cutting product, wait to examine the cross cutting product and form for waiting to examine the rolling of membrane 18.

The roller mechanism 20 is used for loosening and pressing the film to be inspected 18.

And the coil motor 40 is used for driving the roller mechanism 20 to operate through a belt, and driving the film 18 to be detected to advance.

The material receiving device 30 is used for accommodating the detected die-cut products; the film 18 to be detected stably penetrates through the roller mechanism 20 and then is fixed on the material receiving device 30, and tension between the material discharging device 10 and the material receiving device 30 is adjusted to enable the film 18 to be detected to be straightened and tensioned.

The detection processing device 50 is configured to feed back the speed change of the coil motor 40 in real time, and feed back the line frequency to the image acquisition device 60 in real time.

The image acquisition device 60 is arranged above the advancing direction of the film 18 to be detected of the roller mechanism 20 and is used for continuously acquiring and generating an image of the film to be detected passing through the roller mechanism 20 according to the line frequency connection fed back by the detection processing device 50 in real time.

The detection processing device 50 is further configured to detect the image of the film to be detected in real time, detect and mark a defective (NG) die-cut product in real time, and notify the code spraying device 70 of the detection result of the defective die-cut product.

The code spraying device 70 is used for spraying a code on the bad die-cutting product and printing a label on the bad die-cutting product according to the detection result of the bad die-cutting product of the detection processing device 50.

In the embodiment, the roller mechanism and the film to be detected are driven to advance by the high-precision coil motor, the detection processing device is matched with the image acquisition device in real time to continuously acquire the image of the film to be detected, detecting the image of the film to be detected in real time, detecting a poorly marked (NG) die-cut product in real time, and code-spraying and marking a label at the marking position of the poorly marked die-cut product, can realize continuous detection of products until the detection of the same roll of products to be die-cut is finished, can mark defective die-cut products, can detect various products, has high compatibility, high detection speed and high precision, can meet the requirements of high-speed flexibility, therefore, the problems that the existing semi-automatic die cutting detection equipment cannot continuously detect, poor die cutting products are not marked, the detection products are single, and the high-speed flexibility requirement cannot be met can be solved.

In one embodiment, as shown in fig. 2 and 5, the inspection machine further comprises: the shell 80, the roller mechanism 20, the coil motor 40, the detection processing device 50, the image acquisition device 60 and the code spraying device 70 are arranged in the shell 80, and the discharging device 10 and the receiving device 30 are arranged outside the shell 80.

In one embodiment, as shown in fig. 2 and 3, the inspection machine further comprises: and the fixed beam 90 penetrates through one side edge of the shell 80.

In one embodiment, as shown in fig. 2, the inspection machine further comprises: the tape position adjusting mechanism 81 is used for adjusting the front and rear offset positions of the film to be inspected 18.

In one embodiment, as shown in fig. 2, the discharging device 10 includes: the device comprises a front discharging shaft 11, a front discharging disc 12, a front discharging motor 13, a front magnetic powder brake 14 and a vacuum adsorption motor 15. Wherein:

the front discharging shaft 11 is transversely arranged at one end of the fixed beam 90.

The front magnetic powder brake 14 is arranged on the front discharging shaft 11.

The front discharging motor 13 drives the front discharging shaft 11 to operate through a front magnetic powder brake 14, and the discharging speed is adjusted through adjusting the tension of the front magnetic powder brake 14.

Preceding blowing dish 12 for hold and wait to examine the cross cutting product, the during operation is fixed with waiting to examine the cross cutting product on the preceding blowing axle 11.

Vacuum adsorption motor 15 sets up preceding blowing motor 13 rear for produce vacuum suction, wait to examine the membrane and adsorb on material area position adjustment mechanism, prevent to examine that membrane 18 produces the displacement.

In one embodiment, as shown in fig. 4, the roller mechanism 20 includes: a front roller mechanism 21 and a rear roller mechanism 23. Wherein:

the front roller mechanism 21 is arranged behind the material belt position adjusting mechanism 81 and used for loosening and pressing the film 18 to be detected and driving the film 18 to be detected to advance.

The rear roller mechanism 23 is arranged behind the front roller mechanism 21 and used for opening and pressing the film 18 to be detected and driving the film 18 to be detected to advance.

Preferably, the drum mechanism 20 further includes: and the middle roller mechanism 22 is arranged between the front roller mechanism 21 and the rear roller mechanism 23 and used for loosening and pressing the film 18 to be detected and driving the film 18 to be detected to advance.

Preferably, the front roller mechanism 21, the middle roller mechanism 22 and the rear roller mechanism 23 are three same mechanisms, which can loosen and press the film 18 to be inspected, and the front roller mechanism 21, the middle roller mechanism 22 and the rear roller mechanism 23 are driven by the material coiling motor 40 through a belt to operate during operation, so as to drive the film 18 to be inspected to advance.

In this embodiment, through two cylinder mechanism high accuracy servo drive of preceding cylinder mechanism and rear roller mechanism, can the tensioning treat the cross cutting and detect the product, reduce to treat that the cross cutting detects the product motion in-process and rock.

In one embodiment, as shown in fig. 4, the image capturing device 60 includes: a line camera 61 and a lens 62. The lens 62 is mounted below the line camera 61.

The linear array camera 61 is arranged above the middle position of the advancing direction of the film 18 to be detected between the front roller mechanism 21 and the rear roller mechanism 23, and continuously collects and generates an image of the film to be detected between the front roller mechanism 21 and the rear roller mechanism 23 through the lens 62 according to line frequency connection fed back by the detection processing device 50 in real time.

Preferably, the line camera 61 is disposed above the middle position of the advancing direction of the film to be inspected 18 between the front roller mechanism 21 and the middle roller mechanism 22, and continuously collects and generates an image of the film to be inspected passing through between the front roller mechanism 21 and the middle roller mechanism 22 according to the line frequency connection fed back by the detection processing device 50 in real time by matching with the lens 62.

In one embodiment, as shown in fig. 4, the inspection machine further includes: and the coaxial line light source is arranged below the lens 62 and is used for polishing the film to be inspected 18 passing through the roller mechanism 20 so as to achieve the optimal polishing effect.

Preferably, the coaxial line light source includes: go up three-colour line light source 54 and three-colour line light source 55 down, go up three-colour line light source 54 and three-colour line light source 55 installation under camera lens 62, it is in to wait to examine membrane 18 go up three-colour light source 54 and three-colour light source 55's centre forward down, it is used for passing to go up three-colour line light source 54 and three-colour line light source 55 down waiting to examine membrane 18 and polish to reach the best effect of polishing.

In this embodiment, through two coaxial three-colour line light about providing three-colour line light source and lower three-colour line light source, can compatible multiple material, colour cross cutting product polish, through two coaxial three-colour line light about adjusting simultaneously, can reach the best effect of polishing.

In one embodiment, as shown in fig. 4, the detection processing means 50 is arranged to press against the intermediate roller mechanism 23 and to operate with the intermediate roller mechanism 23.

The detection processing device 50 feeds back the speed change of the coil motor 40 in real time, and feeds back line frequency to the image acquisition device 60 in real time; and detects the image of the film to be detected fed back by the image acquisition device 60 in real time, detects and marks the defective (NG) die-cutting products in real time, tracks and positions the defective die-cutting products in real time, determines the code-spraying and marking positions of the defective die-cutting products, and informs the code-spraying device 70 of the code-spraying and marking positions of the defective die-cutting products.

In one embodiment, as shown in fig. 4, the code spraying device 70 includes: an ink jet printer head 71 and an ink jet printer controller 72.

The ink jet numbering machine sprayer 71 is arranged on the rear roller mechanism 23, and the code jet numbering position is aligned with the middle position of the advancing of the film to be detected 18.

The code spraying machine controller 72 is configured to control the code spraying machine to spray a code at the marking position of the defective die-cut product and print a label according to the detection result of the defective die-cut product of the detection processing device 50.

In this embodiment, it can be realized that the inkjet printer controller controls the inkjet printer nozzle to mark the bad die-cut product on line, the size of the marked characters can be edited at will, and the surface of the die-cut product is not damaged.

In one embodiment, the winding motor 40 is disposed at a side of the rear roller mechanism 23, and is configured to operatively drive the front roller mechanism 21, the middle roller mechanism 22, and the rear roller mechanism 23 via a belt, so as to advance the film 18 to be inspected.

In one embodiment, as shown in fig. 3 and 4, the material receiving device 30 includes: a rear material receiving shaft 31, a rear material receiving disc 32, a rear material receiving motor 33 and a rear magnetic powder brake 34. Wherein:

the rear material receiving shaft 31 is transversely arranged at the other end of the fixed beam 90.

The rear magnetic powder brake 34 is arranged on the rear material receiving shaft 31.

The rear material receiving motor 33 drives the rear material receiving shaft 31 to operate through the rear magnetic powder brake 34, and adjusts the material receiving speed through adjusting the tension of the rear magnetic powder brake 34.

The rear material receiving plate 32 is used for containing die-cut products which are detected completely, and is fixed on the rear material receiving motor shaft 31 together with the die-cut products which are detected completely during working.

In the embodiment, the high-precision coiling motor drives the front and the rear roller mechanisms and the film to be detected to move forward, the upper and the lower coaxial three-color line lights can meet the polishing requirements of various materials and colors, meanwhile, the detection processing device is matched with the image acquisition device in real time to continuously acquire the image of the film to be detected, detecting the image of the film to be detected in real time, detecting a poorly marked (NG) die-cut product in real time, and code-spraying and marking a label at the marking position of the poorly marked die-cut product, can realize continuous detection of products, can mark bad die-cutting products, can detect various products, can meet the requirements of high-speed flexibility, therefore, the problems that the existing semi-automatic die cutting detection equipment cannot continuously detect, poor die cutting products are not marked, the detection products are single, and the high-speed flexibility requirement cannot be met can be solved.

In one embodiment, as shown in fig. 2 and 5, the inspection machine further comprises: and the heat dissipation device 92 is arranged at one side of the outer part of the shell 80, and is used for dissipating heat of the detection machine.

Preferably, the heat sink 92 is a heat dissipation fan.

In one embodiment, as shown in fig. 2 and 5, the inspection machine further comprises: and the operation panel 93 is arranged on one side of the outer part of the shell 80, is an operation platform of the whole detection machine, and controls the operation of the detection machine through the operation panel 93. The operation panel 93 is provided with buttons including start, stop, jog, continuous and the like.

Preferably, the operation panel 93 is disposed on top of an outer surface of the heat sink 92.

In one embodiment, as shown in fig. 2 and 5, the inspection machine further comprises: and the display device 94 is arranged on one side of the shell 80 and used for displaying the operation process and the detection result of the detection machine.

The utility model provides a full-automatic cross cutting detects machine, its work flow as follows:

the coiled die-cutting product to be detected is placed on the front feeding plate, the front feeding plate is locked, and the front feeding plate and the die-cutting product to be detected are fixed on the front feeding shaft together. Wherein, the die cutting product of waiting to examine is examined the membrane roll-up and is formed.

Sequentially loosening the front roller mechanism, the middle roller mechanism and the rear roller mechanism, sequentially passing the die-cut product to be detected through the material belt position adjusting mechanism, the front roller mechanism, the middle roller mechanism and the rear roller mechanism, and then sticking the die-cut product to be detected on the rear material collecting disc by using transparent adhesive; and locking the rear material receiving disc to be fixed on the rear material receiving shaft.

The positions of the front discharging disc and the rear receiving disc are adjusted to enable the front discharging disc and the rear receiving disc to be in a straight line, so that the die-cutting product to be detected is prevented from deflecting in the winding process. And the front roller mechanism is tightly pressed, and the operation direction of the front discharging motor and the tension of the front magnetic powder brake are adjusted, so that the film to be detected is in a tension state between the front discharging shaft and the front roller mechanism. Then, the operation direction of the rear material receiving motor and the tension of the rear magnetic powder brake are adjusted to enable the film to be detected to be in a tensioning state, the middle roller mechanism and the rear roller mechanism are sequentially pressed, and the inching button on the operation panel is clicked to enable the film to be detected to be stably wound on the rear material receiving shaft in a straight line.

And opening the linear array camera, and adjusting the brightness of upper and lower coaxial line lights of the upper three-color line light source and the lower three-color line light source to achieve the optimal polishing effect.

Starting the full-automatic die cutting detection machine, and driving the three roller mechanisms of the front roller mechanism, the middle roller mechanism and the rear roller mechanism and the film to be detected to advance by the coil motor.

The speed change of the coil motor is fed back by the detection processing device in real time in the operation process, the linear array camera generates an image of the film to be detected between the front roller mechanism and the rear roller mechanism according to the line frequency continuous acquisition fed back by the detection processing device in real time, and one image of the film to be detected is generated according to the line frequency setting.

The detection processing device carries out various detection judgments on the image of the film to be detected and marks a poor die-cutting product on the image. The detection processing device tracks and positions the bad die-cutting products in real time, determines the code-spraying marking positions of the bad die-cutting products, and informs the code-spraying marking positions of the bad die-cutting products to the code-spraying machine to mark.

And controlling a spray head of the code spraying machine to spray a code at the marking position of the bad die-cutting product and mark a label according to the detection result of the bad die-cutting product of the detection processing device by the code spraying machine controller.

The full-automatic die cutting detection machine continuously performs the operations of drawing, detection and marking of poor die cutting products according to the setting until the detection of a roll of die cutting products to be detected is completed.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The above embodiment numbers of the present invention are only for description, and do not represent the advantages and disadvantages of the embodiments.

While the embodiments of the present invention have been described with reference to the accompanying drawings, the present invention is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many modifications may be made by one skilled in the art without departing from the spirit and scope of the present invention as defined in the appended claims.

Claims (10)

1. The utility model provides a full-automatic cross cutting detects machine which characterized in that, it includes to detect the machine: the device comprises a feeding device, a roller mechanism, a receiving device, a coiling motor, a detection processing device, an image acquisition device and a code spraying device; wherein:

the discharging device is used for containing a die-cut product to be detected, and the die-cut product to be detected is formed by rolling a film to be detected;

the roller mechanism is used for loosening and pressing the film to be detected;

the coil motor is used for driving the roller mechanism to operate through a belt and driving the film to be detected to advance;

the material receiving device is used for containing the detected die-cut products;

the detection processing device is used for feeding back line frequency to the image acquisition device in real time;

the image acquisition device is arranged above the advancing direction of the film to be detected of the roller mechanism and is used for ceaselessly acquiring and generating an image of the film to be detected according to the line frequency connection fed back by the detection processing device in real time;

the detection processing device is also used for detecting the image of the film to be detected in real time, detecting and marking the defective die-cutting product in real time and informing the code spraying device of the detection result of the defective die-cutting product;

and the code spraying device is used for spraying a code on the bad die-cutting product and printing a label on the bad die-cutting product according to the detection result of the bad die-cutting product.

2. The inspection machine of claim 1, further comprising: the automatic feeding device comprises a shell and a fixed beam, wherein the roller mechanism, a coil motor, a detection processing device, an image acquisition device and a code spraying device are arranged in the shell, and the feeding device and the receiving device are arranged outside the shell; the fixed beam penetrates through one side edge of the shell.

3. The inspection machine of claim 2, further comprising: and the material belt position adjusting mechanism is used for adjusting the front and back offset positions of the film to be detected.

4. The inspection machine of claim 3, wherein said emptying device comprises: the device comprises a front discharging shaft, a front discharging disc, a front discharging motor, a front magnetic powder brake and a vacuum adsorption motor; wherein:

the front discharging shaft is transversely arranged at one end of the fixed beam;

the front magnetic powder brake is arranged on the front discharging shaft;

the front discharging motor drives the front discharging shaft to operate through a front magnetic powder brake, and the discharging speed is adjusted by adjusting the tension of the front magnetic powder brake;

the front discharging disc is used for containing a die-cutting product to be detected and is fixed on the front discharging shaft together with the die-cutting product to be detected during working;

the vacuum adsorption motor is used for generating vacuum suction force, and adsorbing the film to be detected on the material belt position adjusting mechanism, so that the film to be detected is prevented from generating displacement.

5. The inspection machine of claim 4, wherein said roller mechanism comprises: the front roller mechanism, the middle roller mechanism and the rear roller mechanism; wherein:

preceding cylinder mechanism sets up material area position adjustment mechanism rear, well cylinder mechanism sets up preceding cylinder mechanism with between the rear roller mechanism, preceding cylinder mechanism, well cylinder mechanism, rear roller mechanism all are used for loosening and compress tightly wait to examine the membrane, and the membrane advances to be examined in the drive.

6. The inspection machine of claim 5, wherein said image acquisition device comprises: the linear array camera and the lens are mounted below the linear array camera;

the linear array camera is arranged above the middle position of the advancing direction of the film to be detected between the front roller mechanism and the middle roller mechanism, and the linear array camera is matched with the lens to continuously acquire and generate the image of the film to be detected between the front roller mechanism and the middle roller mechanism according to the line frequency connection fed back by the detection processing device in real time.

7. The inspection machine of claim 6, further comprising: a coaxial line light source, the coaxial line light source comprising: go up three-colour line light source and lower three-colour line light source, go up three-colour line light source and install under the camera lens with lower three-colour line light source, wait to examine the membrane and be in go up three-colour light source and go forward with the centre of lower three-colour light source, go up three-colour line light source and be used for passing down the membrane of waiting to examine of drum mechanism is polished.

8. The inspection machine of claim 5 wherein said inspection processing means is arranged to press against said intermediate roller means and to operate with said intermediate roller means in operation;

the detection processing device feeds back the speed change of the coil motor in real time and feeds back line frequency to the image acquisition device in real time; and detecting the image of the film to be detected fed back by the image acquisition device in real time, detecting and marking the defective die-cutting products in real time, tracking and positioning the defective die-cutting products in real time, determining the code spraying and marking positions of the defective die-cutting products, and informing the code spraying and marking positions of the defective die-cutting products to the code spraying device.

9. The detector according to claim 5, wherein the code spraying device comprises: the ink-jet printer comprises an ink-jet printer nozzle and an ink-jet printer controller;

the ink-jet printer nozzle is arranged on the rear roller mechanism, and the ink-jet position is aligned with the middle position of the advancing of the film to be detected;

and the code spraying machine controller is used for controlling the spray head of the code spraying machine to spray a code at the marking position of the bad die-cutting product and mark a label according to the detection result of the bad die-cutting product of the detection processing device.

10. The detector of claim 2, wherein the material receiving device comprises: a rear material receiving shaft, a rear material receiving disc, a rear material receiving motor and a rear magnetic powder brake; wherein:

the rear material receiving shaft is transversely arranged at the other end of the fixed beam;

the rear magnetic powder brake is arranged on the rear material receiving shaft;

the rear material receiving motor drives the rear material receiving shaft to rotate through the rear magnetic powder brake, and the material receiving speed is adjusted by adjusting the tension of the rear magnetic powder brake;

the rear material receiving plate is used for containing die-cutting products which are detected completely, and the die-cutting products which are detected completely are fixed on the rear material receiving motor shaft during working.

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