CN112356092A

CN112356092A - High-speed precision slitting paper cutter

Info

Publication number: CN112356092A
Application number: CN202011263015.9A
Authority: CN
Inventors: 段彬
Original assignee: Shenzhen Gereke Machinery Co ltd
Current assignee: Shenzhen Gereke Machinery Co ltd
Priority date: 2020-11-12
Filing date: 2020-11-12
Publication date: 2021-02-12

Abstract

The invention provides a high-speed precise slitting paper cutter, and belongs to the field of paper cutting equipment structures. The invention comprises a workbench, a control mechanism arranged below the workbench, and a tablet plate blanking mechanism, a tablet plate feeding mechanism, a slitting mechanism, a tablet displacement mechanism, a tablet taking and placing mechanism and a tablet intelligent storage and sequencing mechanism which are sequentially arranged on the workbench according to production flow procedures, wherein the control mechanism respectively controls the tablet plate blanking mechanism, the tablet plate feeding mechanism, the slitting mechanism, the tablet displacement mechanism, the tablet taking and placing mechanism and the tablet intelligent storage and sequencing mechanism to move, the tablet intelligent storage and sequencing mechanism is provided with a plurality of tablet storage tanks arranged in an array, and the tablet intelligent storage and sequencing mechanism sequences and stores the tablets in the tablet storage tanks. The invention has the beneficial effects that: the problem of the unable storage after the agent strip cuts is solved, stability of the equipment of providing by a wide margin, and work efficiency.

Description

High-speed precision slitting paper cutter

Technical Field

The invention relates to paper cutting equipment, in particular to a high-speed precise slitting paper cutter.

Background

Chemical reagent strips (hereinafter, the chemical reagent strips are simply referred to as reagent strips) are required to be installed in new coronavirus reagent cards in the existing market, the reagent strips are core products, the requirements on assembly are high, the manual operation efficiency is low, and the reagent strips are manually contacted, so that the product and people are harmed in quality and health.

Because there is glue to have higher technical difficulty to automation equipment on the agent strip, the viscose problem of agent strip can not all be solved to equipment on the existing market, leads to accomplishing quick branch and to the storage function of agent strip.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a high-speed precise slitting paper cutter.

The invention comprises a workbench, a control mechanism arranged below the workbench, a tablet plate blanking mechanism, a tablet plate feeding mechanism, a slitting mechanism, a tablet strip displacement mechanism, a tablet strip taking and placing mechanism and a tablet strip intelligent storage and sequencing mechanism which are arranged on the workbench, wherein the control mechanism respectively controls the tablet plate blanking mechanism, the tablet plate feeding mechanism, the slitting mechanism, the tablet strip displacement mechanism, the tablet strip taking and placing mechanism and the tablet strip intelligent storage and sequencing mechanism to move,

the agent plate blanking mechanism comprises a material bearing plate arranged on the workbench, and is used for conveying the agent plate to be cut into strips to the material bearing plate on the workbench;

the agent plate feeding mechanism is used for fixing and conveying the agent plate to the slitting mechanism;

the slitting mechanism is arranged at the output end of the agent plate feeding mechanism and is used for slitting the agent plate in cooperation with the agent plate feeding mechanism;

the agent strip displacement mechanism is linked with the strip cutting mechanism and is used for transferring the agent strips cut by the strip cutting mechanism one by one;

the agent strip taking and placing mechanism is used for grabbing the agent strips transferred by the agent strip displacement mechanism onto the agent strip intelligent storage sequencing mechanism;

the intelligent tablet storage and sorting mechanism is provided with a plurality of tablet storage grooves arranged in an array, and stores the tablet in the tablet storage grooves in a sorting mode.

The invention is further improved, and the device also comprises a reagent strip detection mechanism arranged on the workbench, wherein the reagent strip detection mechanism is arranged above the reagent strip displacement mechanism through a fixed upright post and is used for detecting the reagent strips transferred by the reagent strip displacement mechanism.

The invention is further improved and also comprises a reagent strip waste removing mechanism which is arranged at the other end of the reagent strip displacement mechanism relative to the strip cutting structure and is used for sorting the reagent strips detected by the reagent strip detection mechanism.

The invention is further improved, the agent strip waste removing mechanism comprises a linear rail, a moving plate, a second material receiving block and a cylinder for driving the moving plate to linearly move along the linear rail, the second material receiving block is arranged at the top of the moving plate and is positioned at the discharge end of the agent strip displacement mechanism, and the agent strip waste removing mechanism also comprises a recovery box which is arranged below the moving plate and is used for collecting non-qualified products.

The invention is further improved, the agent plate blanking mechanism comprises a material bearing plate arranged above the workbench, a connecting plate arranged above the material bearing plate through a supporting block, the connecting plate is provided with an agent plate stacking position, a plurality of adjusting blocks and a limiting column arranged at the top of the adjusting blocks, the limiting column is arranged around the periphery of the agent plate stacking position and limits the plane position of the agent plate,

the agent board unloading mechanism still includes that the agent board snatchs the structure and divides the material structure, the connecting plate below is equipped with the first through-hole that supplies the agent board to pass through, hold the flitch below and be equipped with the vertical motion module, the agent board snatchs the structure setting and is in the motion off-axial top of vertical motion module, it is equipped with the second through-hole that supplies the agent board to snatch the structure vertical motion to hold on the blowing position of flitch, divide the material structure to set up the agent board pile position periphery, it can with the agent board of agent board holding tank bottom snatchs to the holding flitch of below on.

The invention is further improved, the agent plate feeding mechanism comprises an agent plate cylinder arranged below the material bearing plate, an agent plate pushing plate arranged on the material bearing plate and driven by the agent plate cylinder, an agent plate limiting plate arranged on the material bearing plate, parallel to the agent plate pushing plate and arranged in the material pushing direction of the agent plate pushing plate, a fixing structure arranged between the agent plate pushing plate and the agent plate limiting plate and used for fixing the agent plate, and a horizontal moving mechanism connected with the fixing structure and used for driving the fixing structure and the fixed agent plate to move on the material bearing plate towards the slitting mechanism.

The invention is further improved, the slitting mechanism comprises a main fixing plate arranged on the workbench, a driving mechanism arranged below the main fixing plate, a lower cutter arranged above the main fixing plate through a lower cutter fixing plate, and an upper cutter arranged corresponding to the lower cutter, the upper cutter is arranged on an upper cutter connecting plate, the upper cutter connecting plate is arranged on the upper cutter fixing plate, a limiting block is arranged on the upper cutter fixing plate, the upper cutter connecting plate can move in the vertical direction driven by the driving mechanism,

the driving mechanism comprises a servo motor, a cutter cam, a swing rod and a connecting rod, the cutter cam, the swing rod and the connecting rod are matched with the servo motor to rotate, a swing rod fixing block is arranged on the main fixing plate, one end of the swing rod is movably connected to the swing rod fixing block, the other end of the swing rod is hinged to one end of the connecting rod, the other end of the connecting rod is fixedly connected with an upper cutter connecting plate, and the swing rod is matched with the cutter cam to drive the connecting rod to vertically move.

The invention is further improved, the agent strip displacement mechanism comprises a displacement mechanism fixing plate arranged on the main fixing plate, a first material receiving block arranged on the displacement mechanism fixing plate and used for receiving the agent strips cut by the strip cutting mechanism, two second linear rails arranged on the displacement mechanism fixing plate in parallel, a sliding plate arranged on the two second linear rails and capable of sliding along the second linear rails, a lifting structure arranged on the displacement mechanism fixing plate, an agent strip displacement block arranged on the lifting structure, a clamping groove for fixing the agent strips arranged at the top of the agent strip displacement block, a side fixing block arranged on the sliding plate, an agent strip supporting block and a supporting material limiting block fixed at the top of the side fixing block, an agent strip conveying channel for enabling the agent strips to move between the agent strip supporting block and the supporting material limiting block, and an agent strip conveying channel linked with the lifting structure and arranged at the top of the supporting material limiting block, A spacing structure for spacing the tablet strip in the tablet strip conveying channel,

the agent strip displacement mechanism further comprises a power mechanism for driving the lifting structure and the displacement mechanism fixing plate, the power mechanism comprises a moving cam and a lifting cam, the moving cam is arranged on the servo motor transmission shaft, a moving follow-up cam is arranged on the moving cam, the displacement mechanism fixing plate is connected with the moving follow-up bearing through a displacement connecting plate, a lifting follow-up bearing is arranged on the lifting cam, and the lifting structure is connected with the lifting follow-up bearing through a lifting connecting plate.

The invention is further improved, the agent strip taking and placing mechanism comprises a linear motion module which is arranged above the agent strip displacement mechanism and arranged along the agent strip conveying direction, a vertical motion module is arranged on the linear motion module, a driving shaft of the vertical motion module is connected with a transfer block, and a clamping piece for clamping and taking and placing the agent strips is arranged at the bottom of the transfer block.

The invention is further improved, the intelligent agent strip storage and sorting mechanism comprises a belt conveying line arranged above a workbench, the belt conveying line comprises a synchronous belt rotating along a synchronous belt wheel, a plurality of notches for separating and storing agent strips are uniformly arranged on the synchronous belt along the width direction, an agent strip position sensor for detecting whether the notches are provided with the agent strips is arranged on the side surface of the belt conveying line, the vacant agent strip positions on the synchronous belt are supplemented, the intelligent agent strip storage and sorting mechanism also comprises a sensor for detecting the agent strips at the tail end of the synchronous belt, the sensor is provided for the next station to grab, and when one agent strip is taken away, the synchronous belt moves forwards to further supplement the tail end of the synchronous belt.

Compared with the prior art, the invention has the beneficial effects that: utilize each part cooperation to form one set of automatic flow, arrange the pay-off in order to the tablet, reach the purpose of dividing the strip to detect storage, this system adopts servo motor and cam to and hold-in range structure, effective reduction in production cost and cost of labor improve production speed and beat greatly, effectively improve production machining efficiency, the commonality is strong.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of a worktable according to the present invention;

FIG. 3 is a schematic structural view of a tablet blanking mechanism;

FIG. 4 is a schematic structural view of a tablet feeding mechanism;

FIG. 5 is a schematic structural view of a pushing plate of the agent plate feeding mechanism;

FIG. 6 is a schematic structural view of a slitting mechanism;

FIG. 7 is a schematic structural view of a feeding structural surface of the slitting mechanism near the agent plate;

FIG. 8 is a schematic view of the structure of the dose strip displacement mechanism;

FIG. 9 is a schematic view of the power mechanism of the tablet feeding mechanism;

FIG. 10 is a schematic view of a position-limiting structure of the dose strip displacement mechanism;

FIG. 11 is an enlarged view of a portion of FIG. 10;

FIG. 12 is a schematic view of the structure of a test strip mechanism;

FIG. 13 is a schematic structural view of a waste strip removing mechanism;

FIG. 14 is a schematic view of the cooperation structure of the dose waste removing mechanism and the dose displacement mechanism;

FIG. 15 is a schematic view of the structure of the tablet pick and place mechanism;

FIG. 16 is a schematic view of the other side of the tablet pick and place mechanism;

FIG. 17 is a schematic view of a clip connection;

fig. 18 and 19 are schematic structural views of the intelligent storage and sorting mechanism for tablets.

Detailed Description

The invention relates to a device for intelligently sequencing and feeding on the premise of ensuring high precision and quality of agent strips by aiming at quick slitting of the agent strips.

The invention can be widely applied to virus reagent cards of various sizes, pregnancy test cards, reagent cards for various human health detections, and quick and high-precision automatic cutting and sorting of medical treatment, food, medicine and electronic products.

The present invention will be described in further detail with reference to the accompanying drawings and examples.

As shown in fig. 1, the high-speed precise slitting paper cutter of the invention is provided with a case 1, a workbench is arranged at the upper part of the case 1, a full-automatic executing mechanism 5 of the invention is completely arranged on the workbench, an electric control box 2 for controlling the full-automatic executing mechanism 5 is also arranged in the case 1, and a protective cover 4 is arranged at the periphery of the workbench.

Preferably, the case 1 of the embodiment is formed by welding 3mm metal plates, the strength, the stability and the attractiveness of equipment are ensured, the electric cabinet 2 is placed in the case, the space is saved, the cost is reduced, the touch screen 3 is further arranged on the protective cover 4, the operating button is further arranged below the touch screen, the touch screen 3 is placed above the protective cover 4 to facilitate an operator to maintain and debug the equipment, the operating height of the touch screen is 1.4M, the operator is more comfortable, the protective cover 4 is formed by matching metal plates and transparent organic glass, the action of the equipment can be more visually seen outside, the indicator lamp is further arranged above the protective cover 4, and the bottom of the case 1 is provided with the roller which facilitates moving of the paper cutter. The intelligent agent strip storage and sorting mechanism 13 of the full-automatic actuating mechanism 5 is arranged at the outermost end of the workbench and outside the protective cover 4, so that the full-automatic actuating mechanism can be conveniently butted with equipment in the next procedure for taking materials.

As shown in fig. 2, the fully automatic executing mechanism 5 of this embodiment includes a tablet blanking mechanism 6, a tablet feeding mechanism 7, a slitting mechanism 8, a tablet displacement mechanism 9, a tablet detecting mechanism 10, a tablet waste rejecting mechanism 11, a tablet picking and placing mechanism 12, and a tablet intelligent storage and sorting mechanism 13, which are sequentially arranged according to the paper cutting process flow, wherein,

the agent plate blanking mechanism 6 comprises a material bearing plate arranged on the workbench, and the agent plate blanking mechanism is used for conveying the agent plate to be cut into strips to the material bearing plate on the workbench.

The agent plate feeding mechanism 7 is used for fixing and conveying the agent plate to the slitting mechanism 8.

The slitting mechanism 8 is arranged at the output end of the agent plate feeding mechanism 7 and is used for matching with the agent plate feeding mechanism 7 to slit the agent plate.

The agent strip displacement mechanism 9 is linked with the strip cutting mechanism 8 and is used for transferring the agent strips cut by the strip cutting mechanism 8 one by one.

The agent strip detection mechanism 10 is arranged above the agent strip displacement mechanism through a fixed upright column and is used for detecting the agent strips transferred by the agent strip displacement mechanism 9.

The agent strip waste removing mechanism 11 is arranged at the other end of the agent strip displacement mechanism relative to the strip cutting structure and is used for sorting the agent strips detected by the agent strip detection mechanism.

The agent strip taking and placing mechanism 12 is used for grabbing the agent strips transferred by the agent strip displacement mechanism onto the agent strip intelligent storage sequencing mechanism.

As shown in fig. 3, the tablet discharging mechanism 6 of this embodiment includes a panel 601 fixed above the cabinet 1, a material-receiving plate 603 is supported and fixed by 4 supporting columns 602, two front and rear supporting blocks 604 fix two connecting plates 605, in this embodiment, a plurality of notches are arranged in parallel at the top ends of the supporting blocks 604, and the widths of the two connecting plates 605 can be adjusted by the notches. Of course, the width of the two connection plates 605 can be adjusted by the structure of the guide rail and the slide block, and the slide block is driven by the motor. As another embodiment of the present invention, the width adjustment structure may be disposed on the material receiving plate 603, and the supporting blocks 604 are cylindrical, and the top of the supporting blocks is fixed with the connecting plate, so as to adjust the distance between the two supporting blocks 604, thereby indirectly adjusting the distance between the connecting plates 605 on the supporting blocks 604.

As a third embodiment of the present invention, the number of the connecting plates 605 is 1 in this example, the agent plate stacking position is provided on the connecting plates 605, and a width adjusting mechanism for adjusting the agent plate stacking width is provided on the outer periphery of the agent plate stacking position.

The periphery of the agent plate stacking position is limited by a limiting

column

607, 8 adjusting blocks 606 are symmetrically fixed on two connecting plates 605 respectively in the embodiment, the limiting column 607 is fixed on the adjusting block 606, a product agent plate 608 is placed in the middle of the limiting column, products with different widths can be placed according to requirements, longitudinally-arranged notches are also formed in the connecting plates 605, the adjusting block 606 is fixed on the notches, the corresponding length and width are adjusted by the adjusting block 606, and the adjusting block 606 is further provided with a material stirring wheel 609 for supporting the product agent plate 608.

The driving device of the embodiment drives vertically, pulls the agent plate 608 down to the material bearing plate 603 below the agent plate stacking position, is vertically arranged, has short movement stroke and smaller space area, is arranged below the agent plate stacking position, is not easy to interfere with the manual work, and has higher safety performance.

The driving device of this example is a pull-down cylinder 611, the pull-down cylinder 611 is fixed on a cylinder fixing plate 610, the cylinder fixing plate 610 is locked on the bottom surface of the panel 601, a cylinder connecting plate 612 is fixed on a movable block of the pull-down cylinder 611, the cylinder acts to drive the cylinder connecting plate 612 to move up and down, a sucker connecting shaft 613 is fixed on the cylinder connecting plate 612, a vacuum sucker 614 is mounted on the sucker connecting shaft 613 (in this example, the tablet 608 is obliquely arranged in order to see the vacuum sucker 614), the vacuum sucker 614 is sucked on the lowermost tablet 608 in the tablet stacking position, the pull-down cylinder 611 moves down, then the feeding mechanism pushes the feeding material, the pull-down cylinder 611 continues to move up, the lowermost tablet 608 in the tablet stacking position is sucked again, then the downward movement sucks the tablet 608 down and places the tablet 603 on the material-receiving plate, and the process. Is pulled down by a dial

The agent board blanking mechanism 6 of the invention has the following advantages:

1. the whole structure design adopts a top feeding mode, when the number of the additive plates is reduced, the machine does not need to be stopped, and the materials can be added to the additive plates at the top when the equipment is in an operating state;

2. the agent board is stored by being limited by the pillars, so that the structure is simple, the cost is low, a larger space is opened, and the manual agent board supplementing materials are convenient;

3. the limiting width of the agent plate storage limiting column can be adjusted according to products, agent plates with different sizes can be used universally, and the structure universality is high;

4. perpendicular unloading, the space occupies fewly, can not interfere with the manual work, and the security is higher.

As shown in fig. 4 and 5, the agent plate feeding mechanism 7 of this embodiment includes an agent plate cylinder 701 disposed below the material receiving plate, an agent plate pushing plate 703 disposed on the material receiving plate 603 and driven by the agent plate cylinder 701, an agent plate limiting plate 705 disposed on the material receiving plate 603 and parallel to the agent plate pushing plate 703 and disposed in the pushing direction of the agent plate pushing plate 703, a fixing structure disposed between the agent plate pushing plate 703 and the agent plate limiting plate 705 and fixing the agent plate 608, and a horizontal moving mechanism connected to the fixing structure and driving the fixing structure and the fixed agent plate to move on the material receiving plate in the direction of the slitting mechanism. The fixing structure of this example can be the centre gripping finger, can also be structures such as preforming, and the horizontal movement mechanism of this example is linear moving module, such as linear motor etc..

Specifically, the agent plate pushing plate 703 of the present embodiment is fixed on the cylinder connecting block 702, and is guided by the linear rail 706, when the agent plate blanking mechanism 6 performs blanking, the mixture plate cylinder 701 is in an open state, after blanking is completed, the mixture plate cylinder 701 is combined to drive the agent plate pushing plate 703 to move, so that the agent plate 608 is pushed to the agent plate limiting plate 705 to stop, the horizontal moving mechanism is a standard sliding table module 707, the lead screw and the linear rail are used as guiding, the servo motor 708 is used for driving, the sliding table 709 fixing block is connected to the sliding table module 707, and is connected through the sliding table connecting block 710, and one end of the connecting rod 711 is fixed on the sliding table connecting block 710.

The material bearing plate 603 is further provided with a guide rail for moving the agent plate fixing structure, the agent plate fixing structure comprises an agent plate clamping finger 713 and an agent plate clamping cylinder 712 for driving the agent plate clamping hand to clamp and release the agent plate 713, the agent plate fixing structure further comprises a sliding block matched with the guide rail, and the agent plate clamping cylinder 712 is arranged on the sliding block.

A sliding block or agent plate clamping cylinder 712 is fixedly connected with a connecting rod 711, the whole agent plate fixing structure moves together with the connecting rod 711, an agent plate clamping finger 713 is installed on the agent plate clamping cylinder 712, after the agent plate clamping finger 713 clamps the agent plate, the sliding table module 77 moves to push the agent plate 608 forwards and provide the agent plate 608 for the slitting mechanism 8, the 3mm slitting mechanism is pushed once each time until the whole agent plate is slit, the pushing distance of each time can be set according to the width requirement of a product, the agent plate clamping finger 713 is driven by the module sliding table 77 to return to the original point, and the agent plate clamping finger 713 is loosened to throw waste materials on the agent plate clamping finger 713 into a waste box 714 below the material bearing plate 603.

The sliding table module is arranged on one side of the material pushing plate of the agent plate position adjusting structure, so that the length of the whole device is favorably shortened, and the structure of the device is more compact. Of course, if the length is not a concern, then the connecting rod is not needed and is driven directly at the end.

The feeding mechanism 7 of the chemical plate of the embodiment can feed materials fully automatically, and a servo mechanism is adopted for feeding materials to the beveling knife edges, so that the speed is high, and the precision is high. The cutting width of the agent strip can be different in width according to product requirements, only the servo feeding distance needs to be modified, and the universality is high.

As shown in fig. 6 and 7, the slitting mechanism 8 of this embodiment includes a main fixing plate 801 disposed on the table, a driving mechanism disposed below the main fixing plate 801, a lower cutter 817 disposed above the main fixing plate 801 through a lower cutter fixing plate 816, and an upper cutter 820 disposed corresponding to the lower cutter 817, wherein the upper cutter 820 is disposed on an upper cutter connecting plate 819, the upper cutter connecting plate 819 is disposed on the upper cutter fixing plate 818, a stopper is disposed on the upper cutter fixing plate 818, and the upper cutter connecting plate 819 is movable in a vertical direction driven by the driving mechanism.

The driving mechanism of the embodiment comprises a servo motor 803, a cutter cam 808, a swing rod 813 and a connecting rod 814, wherein the cutter cam 808, the swing rod 813 and the connecting rod 814 are matched with the servo motor 803 to rotate, a swing rod fixing block 812 is arranged on the main fixing plate 801, one end of the swing rod 813 is movably connected to the swing rod fixing block 812, the other end of the swing rod 813 is hinged to one end of the connecting rod 814, the other end of the connecting rod 814 is fixedly connected with an upper cutter connecting plate 819, and the swing rod 813 is matched with the cutter cam 808 to drive the connecting rod.

Specifically, the main fixing plate 801 of this embodiment is fixed on the panel 601, the speed reducer 802 fixing plate is fixed under the panel 601, the servo motor 803 and the speed reducer 804 are predetermined on the speed reducer fixing plate 802, the transmission shaft 810 is driven to rotate by the coupler 805, the transmission shaft fixing plate 806 is fixed on the lower bottom surface of the main fixing plate 801, the bearing 811 is installed to limit the transmission shaft 806, the swing link fixing plate 812 is fixed on the lower bottom surface of the main fixing plate 801, the swing link 813 is connected to the swing link fixing plate 812, the follower bearing 809 is installed in the swing link 813, the cutter cam 808 drives the follower bearing 809 to swing the swing link 813 up and down to drive the connecting rod 814 to move up and down, the connecting rod limiting block 815 is fixed on the lower cutter fixing plate 816 to limit the connecting rod 814, the connecting rod 814 is connected with the swing link 825 between the connecting rod 814 and the swing link 813, the upper cutter connecting plate 819 is connected with the left cutter movement limiting block 821 through the fixed shaft 822, the left cutter movement limiting block 821 limits the left side of the upper cutter connecting plate 819, the cutter movement connecting shaft 824 connects the right side of the upper cutter connecting plate 819 with the connecting rod 814, so that the upper cutter 820 moves downwards, the lower cutter 817 and the upper cutter 820 are combined to cut the chemical sheet, the cutter is machined by tungsten steel with higher hardness in the embodiment, the service life is longer, the cut chemical sheet is more attractive and stable, the right cutter movement limiting block 823 limits the upper cutter to protect the cutter from being damaged, a guide hole for the chemical sheet to pass through and limit is formed in the chemical sheet guide block 826 to guide the chemical sheet, the chemical sheet can be conveyed to the upper surface of the lower cutter through the guide hole in the back of the upper cutter fixing plate to complete cutting, the cutting precision of the chemical sheet is guaranteed, and the chemical sheet guide block 826 can be adjusted to a proper position according to the width of the chemical, the universality is stronger.

As another embodiment of the present invention, a swing link may also be directly disposed on the cutter cam 808 or the transmission shaft, and one end of the swing link is hinged to the connecting rod, so as to drive the connecting rod to swing up and down, and further drive the upper cutter to press down, thereby completing cutting. Of course, the vertical movement of the upper cutter can be realized by adopting the mode of the air cylinder and the guide shaft. In this embodiment, the cutter mechanism and the agent stick displacement mechanism are driven simultaneously by the same driving mechanism to be interlocked with each other, and therefore, the first embodiment is preferable.

The slitting mechanism 8 of the invention has the following advantages:

1. the cutter is made of tungsten steel materials, so that the service life is long;

2. the cutter adopts servo motor cooperation cam as power, and is more smooth and stable when cutting.

As shown in fig. 8-11, the agent strip displacement mechanism 9 of this embodiment includes a displacement mechanism fixing plate 901 disposed on the main fixing plate 801, a first material receiving block 902 disposed on the displacement mechanism fixing plate 901 and used for receiving the agent strips 910 cut by the strip cutting mechanism 8, two second line rails 903 disposed on the displacement mechanism fixing plate 901 in parallel, a sliding plate 904 disposed on the two second line rails 903 and capable of sliding along the second line rails 903, the sliding plate 904 being fixedly connected to the main fixing plate 801, a lifting structure disposed on the displacement mechanism fixing plate 901, an agent strip displacement block 907 disposed on the lifting structure, the lifting structure and the agent strip displacement block together forming a lifting and clamping structure, a plurality of slots for fixing the agent strips 910 are disposed on the top of the agent strip displacement block 907, a side fixing block 909 disposed on the sliding plate 904, an agent strip supporting block 917 and a supporting and a limiting block 918 fixed on the top of the side fixing block 909, a dose strip conveying channel for enabling the dose strip 910 to move between the dose strip supporting block 917 and the supporting limiting block 918 is arranged between the dose strip supporting block and the supporting limiting block 918, and the top of the supporting limiting block 918 is further provided with a limiting structure which is linked with the lifting structure and limits the dose strip in the dose strip conveying channel. The lifting mechanism also comprises a first driving structure for driving the shifting mechanism fixing plate to horizontally move and a second driving structure for driving the lifting structure. In both the first drive structure and the second drive structure of this embodiment, the servo motor 803 of the slitting mechanism 8 and the speed reducer 804 are used as the same power source, and both rotate together with the transmission shaft of the speed reducer 804.

Specifically, the lifting structure of this embodiment includes a lifting guide plate 905, a lifting movable plate 906 and a lifting limiting block 908, the lifting guide plate 905 is connected with the lifting limiting block 908, and fixed on a shift mechanism fixing plate 901 to guide and limit the lifting movable plate 906, two strip shift blocks 907 are fixed on the lifting movable plate 906, a shift connecting plate 911 is fixed on the shift mechanism fixing plate 901, a shift cam 912 is fixed on a transmission shaft 810 and rotates along with the transmission shaft 810, the shift connecting plate 911 is moved by a shift follower bearing 913, at the same time, the shift mechanism fixing plate 901 is displaced by 15mm to move the strips 910 on the first strip receiving block 902 by 15mm, both ends of the strips 910 slide into the strip conveying passage, simultaneously, a lifting cam 914 is fixed on the transmission shaft 810 to rotate, the lifting connecting plate 916 is driven by the lifting follower bearing 915 to move upwards, the lifting connecting plate 916 is connected with the lifting movable plate 906, the dosage strips 910 are caught by the catching grooves on the top of the dosage strip shifting block 907, then, as the transmission shaft 810 rotates, the shifting cam 912 drives the first material receiving block 902 to return to the original position, in this case, the side fixing block 909 is fixed on the sliding plate 904, the press-attaching block 919 and the press-attaching lifting block 920 are connected to the lifting movable plate 906 to move up and down together, the press-attaching pins 921 are installed in the press-attaching blocks 919, the press-attaching pins 921 are sealed with the middle placing springs by the cover plate 922 to press the dosage strips 910 to prevent the dosage strips 910 from running out of position during shifting. The strip cutting mechanism 8 and the strip displacement mechanism 9 are linked in sequence, and the strips 910 move step by step towards the waste strip removing mechanism 11 one by one.

The agent strip displacement mechanism 9 adopts a servo motor of the slitting mechanism 8 to match with a displacement cam and a lifting cam as power, and is matched with a linear rail to carry out displacement driving, so that the stability is good, the speed is high, and the efficiency is high. In addition, the agent strip is pressed by skillfully utilizing a tiny spring design, so that the play is prevented.

As shown in FIG. 12, the strip inspection mechanism 10 of the present invention is a CCD visual inspection mechanism, and specifically, in this example, a camera fixing base plate 1001 is fixed on a panel 601, a camera fixing post 1002 is connected to the camera fixing base plate 1001, a camera fixing plate 1003 is fixed on the top end of the fixing post 1002, and is arranged vertically with the fixed upright column 1002, the camera 1014 is fixed at the end of the camera fixing plate 1003 through the camera adapter plate 1005, the camera 1004 takes pictures and takes pictures of the agent strip, the integrity of the product is detected, whether the product is qualified or not is detected, if the defective products cannot be found, the defective product removing mechanism 11 removes the defective products, a fixing plate of a light source 1006 is fixed on a fixing upright column 1002 of the camera, a light source 1008 is fixed on the fixing plate 1006 of the light source through a light source adapter plate 1007, the light source 1008 polishes the defective products, the pictures shot by the camera are guaranteed to be clearer and more stable, and a recovery box 1009 below the defective product removing mechanism 11 is used for collecting defective products.

As shown in fig. 13 and 14, the scrap removing mechanism 11 of the present embodiment includes a track 1101, a moving plate 1102, a second material receiving block 1106, and an air cylinder 1104 for driving the moving plate 1102 to move linearly along the track, wherein the second material receiving block 1106 is disposed on the top of the moving plate 1102 and is located at the discharge end of the scrap moving mechanism 9, and the scrap removing mechanism 11 further includes a recycling box 1009 disposed below the moving plate for collecting non-qualified products. Of course, the second material receiving block 1106 of this embodiment may be provided as a separate transfer member, and the recovery box 1009 may be provided separately.

The wire track 1101 of the embodiment is fixed on the shifting mechanism fixing plate 901, the moving plate 1102 is fixed on the wire track sliding block to slide, the air cylinder 1104 is connected to the shifting mechanism fixing plate 901 through an air cylinder fixing block 1103 and is connected with the moving plate 1102 through a floating joint 1105, the movement of the air cylinder 1104 directly drives the moving plate 1102 to move back and forth so as to drive the second material receiving block 1106 to move, if the product detected by the agent strip detecting mechanism 10 is qualified, the second material receiving block 1106 receives the agent strip and provides the agent strip for the agent strip taking and placing mechanism 12 to grab, and if the product is unqualified, the air cylinder 1104 moves to remove the product and drops into the recovery box 1009 for recovery.

As shown in fig. 15-17, the dose picking and placing mechanism 12 of this embodiment includes a linear motion module 1202 disposed above the dose displacement mechanism 9 and the dose waste removing mechanism 11 and along the dose conveying direction, a servo motor 1203 for driving the linear motion module 1202, a vertical motion module provided on the linear motion module 1202, a driving shaft of the vertical motion module is connected to a transfer block, and a clamping member for clamping and picking and placing the dose is provided at the bottom of the transfer block.

The bottom plate 1201 of the storage mechanism of this example is connected and fixed with the panel 601, the linear motion module 1202 of this example is a sliding table module, the sliding table module is a synchronous belt and linear rail structure, and is driven by the servo motor 1203 to drive the sliding table cylinder fixing plate 1207 to move. If the output direction of the tablets and the input direction of the intelligent tablet storage and sorting mechanism 13 are not arranged in the same direction, the linear motion module can be simultaneously provided with an X-direction motion module and a Y-direction motion module which are matched with each other, so that the clamping piece can be translated in any direction on the plane.

The vertical motion module of this example is cylinder vertical motion module, module fixed plate 1204 fixes the slip table module, be connected with fixed bottom plate 1206 through 1205 strengthening rib, fix on storage mechanism bottom plate 1201, slip table cylinder 1208 fixes on slip table cylinder fixed plate 1207, cylinder switching piece 1209 fixes on slip table cylinder motion piece 1208, carry out the up-and-down motion, finger cylinder 1211 is connected with cylinder switching piece 1209 through finger cylinder fixed block 1210, finger cylinder 1211 descends left finger 1212 and right finger 1213 and snatchs the agent strip, the centre gripping is pressed the piece and is spacing to the agent strip simultaneously, prevent that two finger atress unbalance from making the agent strip slope, thereby cause the centre gripping unfavorable, make the agent strip drop. Slip table cylinder 1208 goes upward, and the slip table module sends the agent strip to agent strip intelligence and stores sequencing mechanism 13.

The agent strip taking and placing mechanism 12 adopts a servo module as the power for quick movement, and has high speed and high precision; the slip table cylinder is matched with the finger cylinder for grabbing the agent strips, so that the agent strips are grabbed accurately, the structure is simple, and the cost is low; finger using SUS304

The stainless steel material prevents the product from being polluted after rusting, and the fingers are subjected to surface treatment of spraying teflon (polytetrafluoroethylene) to prevent the adhesive strips from being taken and placed.

As shown in fig. 18 and 19, the smart storage and sorting mechanism 13 of the present embodiment includes a belt conveyor line disposed above the work bench, the belt conveyor line is fixed on the bottom plate 1201 of the storage mechanism through a first belt line support plate 1301 and a second belt line support plate 1302, the middle is reinforced and stabilized by a plate connecting rod 1303, a belt line synchronous driving wheel 1304 is fixed on a synchronous wheel driving shaft 1312, a belt line synchronous driven wheel 1305 is fixed on a synchronous wheel driven shaft 1313 and is connected and rotated by two customized synchronous belts 1307, a plurality of notches are uniformly formed on the upper surface of the synchronous belt 1307 in the width direction, and the notches on the synchronous belts 1307 are used for placing the strips, separating and storing the strips, and preventing the glues of the strips from adhering to each other.

The synchronous belt limiting plate 1306 limits the synchronous belt 1307 to prevent deviation, the servo motor 1308 is fixed on a servo motor fixing plate 1309, the synchronous belt fixing plate 1310 is connected to a first belt line supporting plate 1301 for fixing, the coupling 1311 is adopted between the servo motor 1308 and a synchronous wheel driving shaft 1312 for connecting and driving a synchronous wheel, the driving wheel bearing 1314 fixes and limits the synchronous wheel driving shaft 1312, the driven wheel bearing 1315 fixes and limits a synchronous wheel driven shaft 1313 for enabling the synchronous wheel to rotate more smoothly, the agent strip supporting plate 1322 supports and holds the agent strips to prevent middle sagging, the agent strip supporting block 1316 supports and fixes the agent strip supporting plate 1322, the first agent strip side limiting plate 1317 and the second agent strip side limiting plate 1318 are fixed between the first belt line supporting plate 1301 and the second belt line supporting plate 1302 to perform side limiting protection on the agent strips.

The embodiment is further provided with a sensing device, specifically, the sensor 1321 is fixed on the second agent strip side limiting plate 1318 through a sensor fixing plate 1320 to detect the agent strip at the tail end, the agent strip is provided for other equipment to grab, the tail end is supplemented by moving forward once a agent strip synchronous belt is taken away, meanwhile, an agent strip position sensor 1319 is arranged on the side surface of the second agent strip side limiting plate 1318, the existence of the agent strip is detected by adopting a tiny optical fiber head, and when the agent strip is detected to be not arranged in the notch, the agent strip taking and placing mechanism 12 supplements the vacant agent strip position on the synchronous belt until the agent strip position is supplemented, so that the purposes of intelligent storage and sorting of the agent strips are achieved.

The invention utilizes the structural design of the synchronous belt, and solves the problem that the strips are adhered to each other when being sorted and stored; an extremely small optical fiber sensor is designed on the storage position to monitor whether the agent strips exist or not, so that the aim of intelligent storage is fulfilled; the synchronous belt is driven by a servo motor, so that the synchronous belt can run inching, and the synchronous belt has high speed, high precision and good stability.

In conclusion, the invention perfectly solves the problem that the cut agent strips cannot be stored through the matching of all mechanisms and the intelligent storage and sorting, thereby greatly improving the stability and the working efficiency of the equipment.

The above-described embodiments are intended to be illustrative, and not restrictive, of the invention, and all changes that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims

1. The utility model provides a high-speed accurate slitting paper cutter which characterized in that: comprises a workbench, a control mechanism arranged below the workbench, a tablet plate feeding mechanism, a slitting mechanism, a tablet displacement mechanism, a tablet taking and placing mechanism and a tablet intelligent storage and sequencing mechanism which are arranged on the workbench, wherein the control mechanism respectively controls the tablet plate feeding mechanism, the slitting mechanism, the tablet displacement mechanism, the tablet taking and placing mechanism and the tablet intelligent storage and sequencing mechanism to move,

2. The high-speed precision slitting cutter according to claim 1, characterized in that: still including setting up the agent strip detection mechanism on the workstation, agent strip detection mechanism is in through the setting of fixed stand agent strip displacement mechanism top is used for right the agent strip that agent strip displacement mechanism shifted detects.

3. The high-speed precision slitting cutter according to claim 2, characterized in that: the reagent strip waste removing mechanism is arranged at the other end of the reagent strip displacement mechanism, opposite to the strip cutting structure, and is used for sorting the reagent strips detected by the reagent strip detecting mechanism.

4. The high-speed precision slitting cutter according to claim 3, characterized in that: the agent strip waste removing mechanism comprises a linear rail, a moving plate, a second material receiving block and a cylinder for driving the moving plate to linearly move along the linear rail, wherein the second material receiving block is arranged at the top of the moving plate and is positioned at the discharge end of the agent strip displacement mechanism, and the agent strip waste removing mechanism further comprises a recovery box which is arranged below the moving plate and is used for collecting non-qualified products.

5. The high-speed precision slitting cutter according to any one of claims 1 to 4, characterized in that: the agent plate blanking mechanism comprises a material bearing plate arranged above the workbench, a connecting plate arranged above the material bearing plate through a supporting block, an agent plate stacking position, a plurality of adjusting blocks and a limiting column arranged at the top of the adjusting blocks, wherein the limiting column is arranged around the agent plate stacking position to limit the plane position of the agent plate,

6. The high-speed precision slitting cutter according to any one of claims 1 to 4, characterized in that: the agent plate feeding mechanism comprises an agent plate cylinder arranged below the material bearing plate, an agent plate pushing plate arranged on the material bearing plate and driven by the agent plate cylinder, an agent plate limiting plate arranged on the material bearing plate and parallel to the agent plate pushing plate and arranged in the material pushing direction of the agent plate pushing plate, a fixing structure arranged between the agent plate pushing plate and the agent plate limiting plate and used for fixing the agent plate, and a horizontal moving mechanism connected with the fixing structure and used for driving the fixing structure and the fixed agent plate to move in the direction of the slitting mechanism on the material bearing plate.

7. The high-speed precision slitting cutter according to any one of claims 1 to 4, characterized in that: the slitting mechanism comprises a main fixing plate arranged on the workbench, a driving mechanism arranged below the main fixing plate, a lower cutter arranged above the main fixing plate through a lower cutter fixing plate, and an upper cutter arranged corresponding to the lower cutter, wherein the upper cutter is arranged on an upper cutter connecting plate which is arranged on the upper cutter fixing plate, a limit block is arranged on the upper cutter fixing plate, and the upper cutter connecting plate can move in the vertical direction driven by the driving mechanism,

8. The high-speed precision slitting cutter according to claim 7, characterized in that: the agent strip displacement mechanism comprises a displacement mechanism fixing plate arranged on the main fixing plate, a first material receiving block arranged on the displacement mechanism fixing plate and used for receiving agent strips cut by the agent strip mechanism, two second linear rails arranged on the displacement mechanism fixing plate in parallel, a sliding plate arranged on the two second linear rails and capable of sliding along the second linear rails, a lifting structure arranged on the displacement mechanism fixing plate, an agent strip displacement block arranged on the lifting structure, a clamping groove for fixing the agent strips arranged at the top of the agent strip displacement block, a side fixing block arranged on the sliding plate, an agent strip supporting block and a material supporting limiting block fixed at the top of the side fixing block, an agent strip conveying channel for enabling the agent strips to move between the agent strip supporting block and the material supporting limiting block, and an agent strip conveying channel linked with the lifting structure and arranged at the top of the material supporting limiting block, A spacing structure for spacing the tablet strip in the tablet strip conveying channel,

9. The high-speed precision slitting cutter according to any one of claims 1 to 4, characterized in that: the agent strip taking and placing mechanism comprises a linear motion module which is arranged above the agent strip displacement mechanism and arranged along the agent strip conveying direction, a vertical motion module is arranged on the linear motion module, a driving shaft of the vertical motion module is connected with a transfer block, and a clamping piece for clamping and taking the agent strips is arranged at the bottom of the transfer block.

10. The high-speed precision slitting cutter according to any one of claims 1 to 4, characterized in that: the intelligent agent strip storage and sorting mechanism comprises a belt conveying line arranged above a workbench, the belt conveying line comprises a synchronous belt rotating along a synchronous belt wheel, a plurality of notches used for separating and storing agent strips are uniformly formed in the synchronous belt along the width direction, agent strip position sensors used for detecting whether the notches are provided with agent strips or not are arranged on the side face of the belt conveying line, the vacant agent strip positions on the synchronous belt are supplemented, the intelligent agent strip storage and sorting mechanism further comprises a sensor used for detecting the agent strips at the tail end of the synchronous belt, the sensor is provided for the next station to grab, one agent strip is taken away every time, and the synchronous belt moves forwards to further supplement the tail end of the synchronous belt.