CN212554193U - Prevent cutting system of bad outflow - Google Patents

Abstract

The embodiment of the utility model discloses prevent die cutting system of bad outflow. The utility model discloses a prevent die cutting system of bad outflow, include: cross cutting machine, conveyor, camera, controller and hold-down mechanism, cross cutting machine is used for cutting the paper that has the sign, and conveyor sets up the play paper department at cross cutting machine, and conveyor is used for receiving the paper that cross cutting machine sent out and carries to preset position, and the camera setting is in the top of the play paper department of cross cutting machine, and hold-down mechanism sets up the top at conveyor, and the controller is used for controlling hold-down mechanism, and the controller is used for controlling opening of cross cutting machine and stops. The utility model discloses a prevent cross cutting system of bad outflow, the sign of gathering through the camera with predetermine the sign and compare, press down the paper that has the problem through controller control hold-down mechanism, through controller control module cutter stop work simultaneously, then the staff will have the problem paper to take out and resume work, can effectively solve anti-paper, paper skip printing or partial printing, compounding scheduling problem.

Description

Prevent cutting system of bad outflow

Technical Field

The utility model relates to a printing packaging technical field, concretely relates to prevent cross cutting system of bad outflow.

Background

The packaging and printing industry generally adopts paper materials to manufacture outer packages of products, printed paper can be die-cut one by one, and the paper is cut by a die-cutting machine to be formed and then is subsequently processed. Due to the fact that the types and sizes of products needing to be processed are multiple categories, and due to the fact that the products need to be placed manually, the paper subjected to die cutting by the die cutting machine is prone to problems of missing marks, offset marks, reverse paper placement, wrong paper placement and the like, and the accuracy of the obtained products is affected.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a prevent die cutting system of bad outflow sets up the camera on cross cutting machine, gather the sign on the paper through the camera, and be provided with controller and press mechanism, the sign that can gather through the camera compares with presetting the sign, press down the paper that has a problem through controller control hold-down mechanism, simultaneously through controller control module cutter stop work, then the staff will have the problem paper to take out and continue work again, can effectively solve anti-paper, the paper is leaked to seal or is printed partially, the compounding scheduling problem.

The embodiment of the utility model provides a prevent die cutting system of bad outflow, include: the device comprises a die cutting machine, a conveying device, a camera, a controller and a pressing mechanism;

the die cutting machine is used for cutting paper with marks, the conveying device is arranged at the paper outlet of the die cutting machine, and the conveying device is used for receiving the paper sent out by the die cutting machine and conveying the paper to a preset position;

the camera is arranged above the paper outlet of the die-cutting machine and used for acquiring the mark on the paper;

the camera is electrically connected with the controller;

the pressing mechanism is arranged above the conveying device and electrically connected with the controller, and the controller is used for controlling the pressing mechanism to press the paper on the conveying device;

the controller with cross cutting machine electric connection, the controller is used for controlling opening of cross cutting machine stops.

In one possible embodiment, the method further comprises: an electric eye detection device;

the electric eye detection device is arranged below the conveying device, a detection hole is formed in the conveying device, the electric eye detection device is electrically connected with the controller, the controller is used for controlling starting and stopping of the electric eye detection device, and the electric eye detection device is used for detecting paper on the conveying device.

In one possible embodiment, the method further comprises: a mobile device;

the camera is arranged on the mobile device, and the mobile device is used for driving the camera to move.

In one possible solution, the conveying device comprises: the device comprises two supporting side plates, two first fixed bearing seats, two sliding bearing seats, a driving roller, a driven roller, a front side belt, a rear side belt and a supporting plate;

the supporting side plates are arranged on the right side of the die-cutting machine, the two supporting side plates are symmetrically arranged in the front and back direction, and a first fixing hole and a second fixing hole are formed in each of the two supporting side plates;

the two first fixed bearing seats are respectively arranged on the front side and the rear side of the two supporting side plates, the two sliding bearing seats are respectively arranged on the front side and the rear side of the two supporting side plates, the first fixed bearing seats are arranged on the first fixed holes, and the sliding bearing seats are arranged on the second fixed holes;

the driving roller is arranged on the two first fixed bearing seats, and the driven roller is arranged on the two sliding bearing seats;

the front side belt and the rear side belt are arranged on the driving roller and the driven roller respectively, and are arranged in a front-back clearance manner;

the supporting plate is arranged on the two supporting side plates, and the detection holes are formed in the supporting plate.

In one possible approach, the mobile device includes: the device comprises two transverse driving mechanisms, two fixing plates, a cross beam, a first mounting plate and a second mounting plate;

the two transverse driving mechanisms are symmetrically arranged in front and back, and the two fixing plates are respectively arranged on the two transverse driving mechanisms;

two ends of the cross beam are respectively arranged on the two fixing plates;

the first mounting plate is arranged on the cross beam;

the second mounting panel sets up on the first mounting panel, the camera sets up on the second mounting panel.

In a feasible scheme, a first waist-shaped hole is formed in the cross beam and arranged in the front-back direction, and two third fixing holes matched with the first waist-shaped hole are formed in the first mounting plate;

the second mounting plate is provided with two second waist-shaped holes, the two second waist-shaped holes are vertically arranged, and the first mounting plate is provided with two fourth fixing holes matched with the two second waist-shaped holes.

In one possible approach, the lateral drive mechanism includes: the motor, the coupler, the mounting seat, the screw rod shaft, the screw rod pair, the two second fixed bearing seats and the mounting block;

the mounting seat is arranged on the die cutting machine and the supporting side plate, the motor is arranged on the mounting seat, the two second fixed bearing seats are arranged on the mounting seat, and the screw shaft is arranged on the two second fixed bearing seats;

two ends of the coupler are respectively and coaxially arranged with the rotating shaft of the motor and the screw shaft;

the screw rod pair is arranged on the screw rod shaft, the mounting block is arranged on the screw rod pair, and the fixing plate is arranged on the mounting block.

In one possible solution, the pressing mechanism includes: the cylinder, the supporting seat and the third mounting plate;

the supporting seat is arranged on the two supporting side plates, the third mounting plate is arranged on the supporting seat, and the air cylinder is arranged on the third mounting plate.

In one possible solution, the lateral drive mechanism further comprises: two guide rails and two sliding blocks;

the two guide rails are arranged on the mounting base in an up-and-down symmetrical mode, the two sliding blocks are arranged on the two guide rails respectively, and the fixing plate is arranged on the two sliding blocks.

In one possible embodiment, the method further comprises: a display;

the display is electrically connected with the controller and used for displaying the identification acquired by the camera.

According to the above technical scheme, the utility model discloses a prevent die cutting system of bad outflow, include: the device comprises a die-cutting machine, a conveying device, a camera, a controller and a pressing mechanism, wherein the camera, the pressing mechanism and the die-cutting machine are respectively electrically connected with the controller, the conveying device is arranged at a paper outlet of the die-cutting machine, the pressing mechanism is arranged above the conveying device, the die-cutting machine conveys paper subjected to die cutting to the conveying device, then the conveying device conveys the paper subjected to die cutting to a preset position, the camera is arranged above the paper outlet of the die-cutting machine, when the paper conveyed by the die-cutting machine passes through the camera, the camera collects marks on the paper, then whether the marks collected by the camera are different from preset marks is detected through manual comparison or a detector, when the collected marks are found to be incorrect, the camera sends a signal to the controller, the controller controls the pressing mechanism to press downwards so as to press the incorrect paper tightly on the conveying device, and the controller controls the die-, then the paper that the staff will compress tightly takes out, consequently the utility model discloses a prevent die cutting system of bad outflow can reject the paper that has problems such as anti-paper, misprint, hourglass seal, partial seal, improves the finished product exactness.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a schematic view of the overall structure of a die cutting system according to an embodiment of the present invention;

fig. 2 is a schematic sectional front view of a die cutting system according to an embodiment of the present invention;

fig. 3 is a schematic view of a part of the structure of the die cutting system according to an embodiment of the present invention.

Reference numbers in the figures:

1. die-cutting machine; 2. a conveying device; 3. a mobile device; 4. a hold-down mechanism; 5. a detection hole; 6. a camera;

21. supporting the side plates; 22. a first fixed bearing seat; 23. sliding a bearing seat; 24. a drive roll; 25. a driven roller; 26. a front side belt; 27. a rear side belt; 28. a support plate;

31. a lateral drive mechanism; 32. a fixing plate; 33. a cross beam; 34. a first mounting plate; 35. a second mounting plate;

311. a motor; 312. a coupling; 313. a mounting seat; 314. a screw shaft; 315. a screw pair; 316. a second fixed bearing seat; 317. mounting blocks; 318. a guide rail; 319. a slider;

41. a cylinder; 42. a supporting seat; 43. and a third mounting plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "axial," "radial," "circumferential," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the present invention and for simplicity in description, and are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and are not to be construed as limiting the present invention.

In the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly, e.g., as a fixed connection, a detachable connection, or an integral part; the connection can be mechanical connection, electrical connection or communication connection; either directly or indirectly through intervening media, either internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

The technical solution of the present invention will be described in detail with specific examples. The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments.

Fig. 1 is the overall structure schematic diagram of the die cutting system in the embodiment of the present invention, fig. 2 is the embodiment of the present invention is a front view section schematic diagram of the die cutting system, fig. 3 is the embodiment of the present invention is a partial structure schematic diagram of the die cutting system. As shown in fig. 1 to 3, the die cutting system for preventing bad outflow of the present embodiment includes: cross cutting machine 1, conveyor 2, camera 6, controller (not shown in the figure) and hold-down mechanism 4, cross cutting machine 1 is used for cutting the paper that has the sign, conveyor 2 sets up the play paper department at cross cutting machine 1, conveyor 2 is used for receiving the paper that cross cutting machine 1 seen off and carries to preset position, camera 6 sets up the top at the play paper department of cross cutting machine 1, camera 6 is used for acquireing the sign on the paper, camera 6 and controller electric connection, hold-down mechanism 4 sets up the top at conveyor 2, hold-down mechanism 4 and controller electric connection, the controller is used for controlling hold-down mechanism 4 to compress tightly the paper on conveyor 2, controller and cross cutting machine 1 electric connection, the controller is used for controlling opening of cross cutting machine 1 and stops.

Specifically, the processed paper is provided with an identification of different letters such as H, E, or N, and the die cutting machine 1 is a device for rolling and cutting a print or a paperboard into a certain shape by applying a certain pressure through a platen by using a die cutter, a steel knife, a hardware die, a steel wire and the like, and can be purchased in the market. In this embodiment, cross cutting machine 1 carries the fashioned cardboard of cross cutting to being located the conveyor 2 on 1 exit slot right side of cross cutting machine through the tooth row of nipping paper isotructure, camera 6 erects the top at the exit slot, hold-down mechanism 4 sets up on conveyor 2, controller (not shown in the figure) respectively with camera 6, cross cutting machine 1, conveyor 2 and hold-down mechanism 4 electric connection, conveyor 2 delivers to conveyor 2 with cross cutting machine 1 the paper of conveying and carries to conveyor 2's right side end, camera 6 shoots and carries image information to the controller to the paper that cross cutting machine 1 carried, the controller can control opening of cross cutting machine 1 and stop, and the controller can control hold-down mechanism 4 and compress tightly downwards and retract.

Before the paper cutting machine is used, the position of the camera 6 is adjusted to be positioned in a vertical plane the same as the movement path of the mark, the height of the camera 6 is adjusted to enable the camera to be just capable of shooting image information the same as the size of the preset mark, in addition, in-place sensors and timers which are electrically connected with a controller can be arranged for enabling the shot image information to be more accurate, the in-place sensors are erected above the paper outlet of the paper cutting machine 1, then the paper cutting machine 1, the conveying device 2 and the like are started, when the paper which is subjected to the die cutting is conveyed to the conveying device 2 by the die cutting machine 1, the in-place sensors send signals to the controller after detecting the paper, the controller controls the counter to start counting, when the counter counts for a certain time, the counter sends signals to the controller, the controller controls the camera 6 to shoot, and then the image information shot by the camera, when the mark or the mark offset or the mark error is not found, the controller controls the cutting machine 1 to stop working, controls the pressing mechanism 4 to press downwards, presses the paper with the problem on the conveying device 2, takes out the paper with the problem by a worker, and controls the parts to continue working through the controller.

Through the above, it is easy to find that, in the process that the die-cut paper is conveyed to the conveying device 2 by the die-cutting machine 1, when the paper with the mark passes below the camera 6, the camera 6 shoots image information on the paper, and when the shot image information does not display the mark, one condition may be that the mark offset is too large, and the other condition may be that the mark is missed to be printed on the detected paper, or that the paper is reversed; when only the marked part is shot, the offset problem occurs; when the sign of shooing and predetermine the sign inconsistent, then the compounding problem has taken place, is controller control cutting machine 1 stop work when taking place above-mentioned problem to control hold-down mechanism 4 and compress tightly the paper that has the problem, consequently should prevent that die cutting system of bad outflow can press on conveyor 2 with paper of anti-paper, skip printing, partial seal, compounding, then take out the wrong paper by the manual work, improves the rate of accuracy of the product that die cutting system obtained.

In addition, in an application, the controller and the camera 6 of the die cutting system for preventing bad outflow are respectively electrically connected with an image detector (not shown in the figure), the camera 6 transmits shot image information to the image detector, when the image detector detects that the shape and the size of the mark in the image information are the same as those of the preset mark, the image detector or the camera 6 does not send a signal or send a correct signal to the controller, the controller does not send a signal to the pressing mechanism 4 and the die cutting machine 1, the die cutting machine 1 and the conveying device 2 normally work, when the image detector detects that the shape and the size of the mark in the image information are different from those of the preset mark, the image detector or the camera 6 sends an electric signal to the controller, the controller controls the die cutting machine 1 to send wrong paper to the conveying device 2 and then stops working, then the controller controls the pressing device to press the wrong paper on the conveying device 2, the wrong paper is then manually ejected.

Further, the method also comprises the following steps: electric eye detection device (not shown in the figure), electric eye detection device set up in conveyor 2's below, are equipped with inspection hole 5 on conveyor 2, and electric eye detection device and controller electric connection, controller are used for controlling opening of electric eye detection device and stop, and electric eye detection device is used for detecting the paper on conveyor 2.

Specifically, in this embodiment, the electric eye detection device is an infrared sensing device, the supporting plate 28 of the conveying device 2 is provided with the detection hole 5, the electric eye detection device is arranged on the lower side of the conveying device 2, and the electric eye detection device is electrically connected with the controller, when the controller controls the pressing mechanism 4 to press downwards, the controller controls the electric eye detection device to start working, the electric eye detection device detects the existence of the problematic paper pressed by the pressing mechanism 4, when the worker removes the problematic paper, the electric eye detection device cannot detect the problematic paper, and then the electric eye detection device sends a reset signal to the controller, the controller controls the pressing mechanism 4 to retract, the controller controls the cutting machine 1 to continue working, and the controller controls the electric eye detection device to stop working, so that a working closed loop is formed, the smoothness of working is improved, and manual work is reduced.

Further, the method also comprises the following steps: the mobile device 3 and the camera 6 are arranged on the mobile device 3, and the mobile device 3 is used for driving the camera 6 to move.

Specifically speaking, in this embodiment, set up camera 6 on mobile device 3, when camera 6 shot image information, mobile device 3 drove camera 6 and is compared and to wait to detect the paper and do synchronous motion, can make the image information of shooing more accurate.

Further, the conveying device 2 includes: two supporting side plates 21, two first fixed bearing seats 22, two sliding bearing seats 23, a driving roller 24, a driven roller 25, a front side belt 26, a rear side belt 27 and a supporting plate 28, wherein the supporting side plate 21 is arranged on the right side of the die cutting machine 1, the two supporting side plates 21 are symmetrically arranged in front and back, the two supporting side plates 21 are respectively provided with a first fixed hole and a second fixed hole, the two first fixed bearing seats 22 are respectively arranged on the front side and the rear side of the two supporting side plates 21, the two sliding bearing seats 23 are respectively arranged on the front side and the rear side of the two supporting side plates 21, the first fixed bearing seats 22 are arranged on the first fixed holes, the sliding bearing seats 23 are arranged on the second fixed holes, the driving roller 24 is arranged on the two first fixed bearing seats 22, the driven roller 25 is arranged on the two sliding bearing seats 23, the front side belt 26 and the rear side belt 27 are both arranged on the driving roller 24 and the, and the front side belt 26 and the rear side belt 27 are arranged with a front-back clearance, the support plate 28 is arranged on the two support side plates 21, and the detection hole 5 is arranged on the support plate 28.

Specifically, in the present embodiment, the conveying device 2 is disposed at the right side of the paper outlet of the die cutting machine 1, two supporting side plates 21 are symmetrically disposed in front and back, the left and right ends of the supporting side plates 21 are respectively provided with a first fixing hole and a second fixing hole, the second fixing hole is a waist-shaped hole disposed in left and right, a first fixing bearing seat 22 is disposed on the first fixing hole of the supporting side plate 21, a sliding bearing seat 23 is disposed on the second fixing hole of the supporting side plate 21, a driving roller 24 is disposed on the two first fixing bearing seats 22 at the left end, a driven roller 25 is disposed on the two sliding bearing seats 23 at the right end, the driving roller 24 is driven by a motor 311, the motor 311 drives the driving roller 24 to rotate clockwise, a front belt 26 and a rear belt 27 are disposed in front and back on the driving roller 24 and the driven roller 25, a gap is left between the front belt 26 and the rear belt 27, a supporting plate 28 is disposed in parallel to the side plates, and the front and back ends of the supporting plate, the detection hole 5 is provided on the pallet 28, the detection hole 5 is provided at a gap between the front belt 26 and the rear belt 27, and the pressing mechanism 4 is provided above the gap between the front belt 26 and the rear belt 27. During the use, when pressing means compressed tightly the paper that has the problem downwards, pressing means 4 pressed the paper on layer board 28, and conveyor 2 continued the operation this moment, and conveyor 2 continued other papers to be transported right to conveyor 2's right side end, caused the influence to the position of other papers when avoiding artifical removal problem paper, set up sliding bearing frame 23 and waist type hole tensioning belt of being convenient for in addition, set up the upper surface that layer board 28 guaranteed the belt and keep the level.

Further, the moving device 3 includes: two horizontal actuating mechanism 31, two fixed plates 32, crossbeam 33, first mounting panel 34 and second mounting panel 35, two horizontal actuating mechanism 31 front and back symmetry set up, two fixed plates 32 set up respectively on two horizontal actuating mechanism 31, the both ends of crossbeam 33 set up respectively on two fixed plates 32, first mounting panel 34 sets up on crossbeam 33, second mounting panel 35 sets up on first mounting panel 34, camera 6 sets up on second mounting panel 35.

Specifically speaking, in this embodiment, two horizontal driving mechanism 31 symmetry sets up both sides around the paper exit of cross cutting machine 1, two fixed plates 32 set up respectively on two horizontal driving mechanism 31, horizontal driving mechanism 31 is used for driving fixed plate 32 and removes about, the both ends of crossbeam 33 set up respectively on two fixed plates 32, first mounting panel 34 and second mounting panel 35 are L shape, one section level of first mounting panel 34 is set up on crossbeam 33, another section vertical setting of first mounting panel 34, the one end setting of second mounting panel 35 is on the vertical section of first mounting panel 34, another section level setting of second mounting panel 35, camera 6 sets up on second mounting panel 35, when cross cutting machine 1 transports the paper, horizontal driving mechanism 31 drives camera 6 synchronous motion, make the identification information of gathering more accurate.

Furthermore, be equipped with first waist type hole on the crossbeam 33, and first waist type hole fore-and-aft direction sets up, be equipped with on the first mounting panel 34 with two third fixed orificess that first waist type hole matches, be equipped with two second waist type holes on the second mounting panel 35, and two vertical settings in second waist type hole, be equipped with on the first mounting panel 34 with two fourth fixed orificess that two second waist type holes match.

Specifically speaking, in this embodiment, set up first waist type hole and second waist type hole and be convenient for adjust the fore-and-aft direction's that is located position, and then be convenient for adjust camera 6 and the sign on the paper that awaits measuring is located the coplanar, also be convenient for adjust camera 6's upper and lower position simultaneously, and then change the image size that camera 6 gathered. Secondly, still be equipped with the scale on the crossbeam 33, be convenient for more accurate removal camera 6 front and back position.

Further, the lateral driving mechanism 31 includes: the die cutting machine comprises a motor 311, a coupler 312, a mounting seat 313, a screw shaft 314, a screw pair 315, two second fixed bearing seats 316 and a mounting block 317, wherein the mounting seat 313 is arranged on the die cutting machine 1 and the supporting side plate 21, the motor 311 is arranged on the mounting seat 313, the two second fixed bearing seats 316 are arranged on the mounting seat 313, the screw shaft 314 is arranged on the two second fixed bearing seats 316, two ends of the coupler 312 are respectively coaxially arranged with a rotating shaft of the motor 311 and the screw shaft 314, the screw pair 315 is arranged on the screw shaft 314, the mounting block 317 is arranged on the screw pair 315, and the fixing plate 32 is arranged on the mounting block 317.

Specifically, in the present embodiment, taking the front lateral driving mechanism 31 as an example, the mounting seat 313 is i-shaped, a rib is provided between the mounting seats 313, the mounting seat 313 is horizontally disposed on the die cutting machine 1 and the supporting side plate 21, the motor 311 is a stepping motor 311, the motor 311 is electrically connected to a power source and is disposed on the right side of the mounting seat 313, a through hole is provided on the side plate on the right side of the mounting seat 313, two second fixed bearing seats 316 are disposed on the front side of the mounting seat 313, the two second fixed bearing seats 316 are horizontally disposed on the left and right, two ends of the screw shaft 314 are disposed on the two second fixed bearing seats 316, the screw shaft 314 is disposed coaxially with the motor 311 shaft, two ends of the coupling 312 are respectively connected to the motor 311 shaft and the screw shaft 314, the screw pair 315 is disposed on the screw, a rectangular through hole is provided on the middle side plate of the mounting seat 313, the mounting block 317 is disposed on the screw pair 315, when the device is used, the motor 311 is started, and the camera 6 can be driven to move left and right by controlling the forward and reverse rotation of the motor 311.

Further, the pressing mechanism 4 includes: the supporting seat 42 is arranged on the two supporting side plates 21, the third mounting plate 43 is arranged on the supporting seat 42, and the air cylinder 41 is arranged on the third mounting plate 43.

Specifically, in this embodiment, the supporting seat 42 is N-shaped, two ends of the supporting seat 42 are respectively disposed on the two supporting side plates 21, the third mounting plate 43 is L-shaped, a section of the third mounting plate 43 is horizontally erected on the supporting seat 42 and is fixed by a bolt, a waist-shaped hole is disposed on the upper surface of the supporting seat 42, so that the front and rear positions of the third mounting plate 43 can be adjusted conveniently, the air cylinder 41 is disposed on the vertical section of the third mounting plate 43, and the detection hole 5 is disposed on the supporting plate 28 below the air cylinder 41 and on the right side. In addition, when the staff removed wrong paper, can be with the one end of wrong paper turn-up, make electric eye detection device can not detect wrong paper and then send a signal to control, controller control cylinder 41 withdraws, and the staff can take out wrong paper is whole behind the people, need not to destroy the paper, can be convenient for partly miss the paper reprocessing use of seal, compounding, anti-paper, save raw materials.

Further, the lateral driving mechanism 31 further includes: two guide rails 318 and two sliding blocks 319, the two guide rails 318 are symmetrically arranged on the mounting base 313 up and down, the two sliding blocks 319 are respectively arranged on the two guide rails 318, and the fixing plate 32 is arranged on the two sliding blocks 319.

Specifically, in the present embodiment, taking the front-side transverse driving mechanism 31 as an example, the two guide rails 318 are disposed one above the other on the rear side surface of the middle side plate of the mounting base 313, the two sliders 319 are disposed on the two guide rails 318, respectively, and the rear side surfaces of the two sliders 319 are fixedly disposed with the fixed plate 32, so that the arrangement of the guide rails 318 and the sliders 319 can reduce the load bearing amount of the screw shaft 314, and reduce the risk of the screw shaft 314 being bent.

Further, the method also comprises the following steps: and the display (not shown) is electrically connected with the controller and is used for displaying the mark acquired by the camera 6.

Specifically speaking, in this embodiment, the display (not shown in the figure) respectively with controller and camera 6 electric connection, camera 6 will acquire the image and carry to the display, and be provided with the image sign of standard in the display, operating personnel through the sign and the predetermined sign of comparing camera 6 collection, judge whether the paper is wrong paper, when the staff finds that the paper is for wrong paper, the staff sends an electric signal to the controller through pressing the button on the display, then controller control hold-down mechanism 4 compresses tightly to control cross cutting machine 1 stop work. Set up like this, observe the change in the scene for the display is observed, and the display is observed and can be solved the observer station angle difference and cause and observe inaccurate, partial image undersize causes and observe inaccurate, the image reflection of light causes and observes inaccurate scheduling problem, compares and observes whether the paper has the problem more easily in the scene to it is safer.

In the present application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may be directly contacting the first feature or the second feature or indirectly contacting the first feature or the second feature through an intermediate.

Also, a first feature "on," "above," and "over" a second feature may mean that the first feature is directly above or obliquely above the second feature, or that only the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lower level than the second feature.

In the description herein, reference to the description of the term "one embodiment," "some embodiments," "an example," "a specific example" or "some examples," or the like, means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. A die cutting system for preventing undesirable outflow, comprising: the device comprises a die cutting machine, a conveying device, a camera, a controller and a pressing mechanism;

the die cutting machine is used for cutting paper with marks, the conveying device is arranged at the paper outlet of the die cutting machine, and the conveying device is used for receiving the paper sent out by the die cutting machine and conveying the paper to a preset position;

the camera is arranged above the paper outlet of the die-cutting machine and used for acquiring the mark on the paper;

the camera is electrically connected with the controller;

the pressing mechanism is arranged above the conveying device and electrically connected with the controller, and the controller is used for controlling the pressing mechanism to press the paper on the conveying device;

the controller with cross cutting machine electric connection, the controller is used for controlling opening of cross cutting machine stops.

2. The die cutting system of claim 1, further comprising: an electric eye detection device;

the electric eye detection device is arranged below the conveying device, a detection hole is formed in the conveying device, the electric eye detection device is electrically connected with the controller, the controller is used for controlling starting and stopping of the electric eye detection device, and the electric eye detection device is used for detecting paper on the conveying device.

3. The die cutting system of claim 2, further comprising: a mobile device;

the camera is arranged on the mobile device, and the mobile device is used for driving the camera to move.

4. The die cutting system of claim 3, wherein said conveying means comprises: the device comprises two supporting side plates, two first fixed bearing seats, two sliding bearing seats, a driving roller, a driven roller, a front side belt, a rear side belt and a supporting plate;

the supporting side plates are arranged on the right side of the die-cutting machine, the two supporting side plates are symmetrically arranged in the front and back direction, and a first fixing hole and a second fixing hole are formed in each of the two supporting side plates;

the two first fixed bearing seats are respectively arranged on the front side and the rear side of the two supporting side plates, the two sliding bearing seats are respectively arranged on the front side and the rear side of the two supporting side plates, the first fixed bearing seats are arranged on the first fixed holes, and the sliding bearing seats are arranged on the second fixed holes;

the driving roller is arranged on the two first fixed bearing seats, and the driven roller is arranged on the two sliding bearing seats;

the front side belt and the rear side belt are arranged on the driving roller and the driven roller respectively, and are arranged in a front-back clearance manner;

the supporting plate is arranged on the two supporting side plates, and the detection holes are formed in the supporting plate.

5. The die cutting system of claim 4, wherein said moving means comprises: the device comprises two transverse driving mechanisms, two fixing plates, a cross beam, a first mounting plate and a second mounting plate;

the two transverse driving mechanisms are symmetrically arranged in front and back, and the two fixing plates are respectively arranged on the two transverse driving mechanisms;

two ends of the cross beam are respectively arranged on the two fixing plates;

the first mounting plate is arranged on the cross beam;

the second mounting panel sets up on the first mounting panel, the camera sets up on the second mounting panel.

6. The die cutting system according to claim 5, wherein a first kidney-shaped hole is formed in the cross beam, the first kidney-shaped hole is arranged in a front-back direction, and two third fixing holes matched with the first kidney-shaped hole are formed in the first mounting plate;

the second mounting plate is provided with two second waist-shaped holes, the two second waist-shaped holes are vertically arranged, and the first mounting plate is provided with two fourth fixing holes matched with the two second waist-shaped holes.

7. The die cutting system of claim 5, wherein said lateral drive mechanism comprises: the motor, the coupler, the mounting seat, the screw rod shaft, the screw rod pair, the two second fixed bearing seats and the mounting block;

the mounting seat is arranged on the die cutting machine and the supporting side plate, the motor is arranged on the mounting seat, the two second fixed bearing seats are arranged on the mounting seat, and the screw shaft is arranged on the two second fixed bearing seats;

two ends of the coupler are respectively and coaxially arranged with the rotating shaft of the motor and the screw shaft;

the screw rod pair is arranged on the screw rod shaft, the mounting block is arranged on the screw rod pair, and the fixing plate is arranged on the mounting block.

8. The die cutting system of claim 7, wherein said hold down mechanism comprises: the cylinder, the supporting seat and the third mounting plate;

the supporting seat is arranged on the two supporting side plates, the third mounting plate is arranged on the supporting seat, and the air cylinder is arranged on the third mounting plate.

9. The die cutting system of claim 8, wherein said lateral drive mechanism further comprises: two guide rails and two sliding blocks;

the two guide rails are arranged on the mounting base in an up-and-down symmetrical mode, the two sliding blocks are arranged on the two guide rails respectively, and the fixing plate is arranged on the two sliding blocks.

10. The die cutting system of claim 1, further comprising: a display;

the display is electrically connected with the controller and used for displaying the identification acquired by the camera.

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