CN217432303U - Automatic continuous slitting paper cutter - Google Patents

Abstract

The utility model provides an automatic divide strip paper cutter in succession belongs to agent strip processing equipment structure field. The utility model discloses an automatic continuous slitting paper cutter comprises a supporting panel, a control mechanism arranged below the supporting panel, a tablet feeding and transporting assembly, a slitting mechanism, a tablet displacement mechanism, a tablet detecting mechanism and a tablet waste product rejecting mechanism, wherein the tablet feeding and transporting assembly, the slitting mechanism, the tablet displacement mechanism, the tablet detecting mechanism and the tablet waste product rejecting mechanism are arranged on the supporting panel; the agent waste product rejecting mechanism comprises a first guide rail, a second guide rail, a moving plate, a material receiving assembly, a first driving assembly and a second driving assembly; the second guide rail is fixedly arranged on the moving plate, and the material receiving assembly comprises at least two groups of material receiving blocks. The beneficial effects of the utility model are that: can effectual solution prior art in can only the single channel ejection of compact, the problem that substandard product detection efficiency is low through adopting the device, can improve the efficiency that the agent strip detected, can carry out the material loading to multiunit agent strip simultaneously, improved the material loading efficiency of agent strip to improve the production efficiency of product, improved user's use and experienced.

Description

Automatic continuous slitting paper cutter

Technical Field

The utility model relates to an agent strip processing equipment structure especially relates to an automatic divide strip paper cutter in succession.

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.

Agent board feeding equipment in the existing market mostly adopts and carries out the single channel ejection of compact behind agent board slitting mechanism, it is lower to agent strip material loading efficiency, and often need carry out the substandard product after the agent board slitting and detect, the single channel ejection of compact also leads to the substandard product detection efficiency lower, adopt existing equipment, there is the problem of the feed inefficiency of paper cutter, because the demand of medical industry to the product is great, make the efficiency of existing equipment to agent board slitting feed transportation can't satisfy the trade demand.

SUMMERY OF THE UTILITY MODEL

For solving the problem among the prior art, the utility model provides an automatic divide strip paper cutter in succession has solved and to have had the single channel ejection of compact among the prior art, has the problem that substandard product detection efficiency is low.

The utility model relates to an automatic continuous slitting paper cutter, which comprises a supporting panel, a control mechanism arranged below the supporting panel, a tablet feeding and transporting assembly, a slitting mechanism, a tablet displacement mechanism, a tablet detecting mechanism and a tablet waste product rejecting mechanism, wherein the tablet feeding and transporting assembly, the slitting mechanism, the tablet displacement mechanism, the tablet detecting mechanism and the tablet waste product rejecting mechanism are arranged on the supporting panel;

the agent plate feeding and conveying assembly is used for conveying the agent plates to a designated position for the slitting mechanism to slit the agent plates;

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

the agent strip detection mechanism is used for detecting the agent strips on the agent strip waste removing mechanism;

the agent waste product removing mechanism comprises a first guide rail, a second guide rail, a moving plate, a material receiving assembly, a first driving assembly and a second driving assembly, wherein the first driving assembly drives the moving plate to linearly move along the first guide rail, and the second driving assembly drives the material receiving assembly to linearly move along the second guide rail;

the second guide rail is fixedly arranged on the moving plate, the material receiving assembly comprises at least two groups of material collecting blocks, the agent strip waste removing mechanism is located at the discharge end of the agent strip displacement mechanism, the second driving assembly is used for being matched with the agent strip displacement mechanism to receive the material collecting blocks, and the agent strip waste removing mechanism further comprises a recovery box arranged below the moving plate and used for collecting non-qualified products.

The utility model discloses make further improvement, connect the material subassembly include two montage material pieces and with second guide rail complex direction slider, two montage material pieces and direction slider fixed connection, two sets of material pieces straight lines that connect set up side by side.

The utility model discloses do further improvement, agent board feed transportation subassembly includes agent board unloading subassembly, hold the flitch, agent board position control structure and agent board pushes away the material subassembly, it distinguishes and pushes away the material to be provided with the material loading on the holding flitch, agent board unloading subassembly is fixed to be set up in the material loading district, agent board pushes away the material subassembly and sets up and pushing away the material district, agent board unloading subassembly is used for with the agent board unloading to hold on the flitch, agent board pushes away the material subassembly and is used for driving the agent board and is linear motion, agent board position control structure is used for pushing away the material district with the agent board of material loading district promotion.

The utility model discloses do further improvement, still include the second connecting block, the second connecting block is fixed to be set up between two sets of material pieces that connect, and second drive assembly includes second cylinder and second cylinder fixing base, and the second cylinder passes through the fixed setting on the motion board of second cylinder fixing base, and the motion end fixed connection of second connecting block and second cylinder, the motion end of second cylinder drive two groups material piece and are linear motion along the second guide rail.

The utility model discloses do further improvement, agent board position control structure including set up the agent board scraping wings on the material loading district, with agent board scraping wings parallel arrangement's agent board limiting plate, still include with holding flitch fixed connection's regulation drive assembly, adjust drive assembly and be used for driving agent board scraping wings orientation or keep away from the motion of agent board limiting plate direction.

The utility model discloses do further improvement, agent board unloading subassembly includes that the connecting plate picks the structure with the agent board, is provided with the agent board on the connecting plate and piles the position, and the agent board snatchs the structure and can pile the agent board on the position with the agent board and snatch to the assigned position, and the agent board is piled and is provided with regular structure on the position.

The utility model discloses do further improvement, agent board position control structure is provided with and adjusts guide rail complex regulation guide block on the agent board scraping wings still including setting up the regulation guide rail on holding the flitch.

The utility model discloses do further improvement, it sets up in the material bearing plate below to adjust drive assembly, it includes the motor fixing base to adjust drive assembly, driving motor, the action wheel, from the driving wheel, synchronous belt, transmission shaft subassembly and clamping component, motor fixing base and transmission shaft subassembly respectively with material bearing plate under terminal surface fixed connection, driving motor is fixed to be set up on the motor fixing base, driving motor's motion end is established to the coaxial fixed cover of action wheel, establish on the transmission shaft subassembly from driving wheel movable sleeve, the action wheel with from the driving wheel through synchronous belt transmission, clamping component is fixed to be set up on synchronous belt, clamping component and agent board scraping wings fixed connection.

The utility model discloses do further improvement, the last fixed response piece that is provided with of clamping component is provided with on the holding plate and responds to piece complex photoelectric sensor, through response piece and photoelectric sensor's cooperation, can control driving motor's motion state.

The utility model discloses do further improvement, the quantity of adjusting the guide rail is two sets of, and parallel arrangement between two sets of regulation guide rails, the quantity of adjusting the guide block also is two sets of, and two sets of regulation guide blocks set up respectively at agent board scraping wings both ends, clamping components and agent board scraping wings center fixed connection.

Compared with the prior art, the beneficial effects of the utility model are that: adopt its mechanism, can be effectual can only the single channel ejection of compact among the solution prior art, there is the problem that substandard product detection efficiency is low, connect the cooperation between the material piece through second drive assembly and multiunit to make and to place multiunit agent strip on the material piece that connects that corresponds simultaneously, agent strip detection mechanism can detect multiunit agent strip simultaneously, compare in traditional feed transportation equipment, through adopting the device, can effectual improvement agent strip detection's efficiency, it is qualified to detect simultaneously and can carry out the material loading to multiunit agent strip simultaneously, improve the material loading efficiency of agent strip, thereby improve the production efficiency of product, user's use experience has been improved.

Drawings

In order to illustrate the present application or prior art more clearly, a brief description of the drawings needed for the description of the embodiments or prior art will be given below, it being clear that the drawings in the following description are some embodiments of the present application and that other drawings can be derived from them by a person skilled in the art without inventive effort.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an exploded view of the present invention;

FIG. 3 is a schematic structural view of a waste strip removing mechanism;

FIG. 4 is an exploded view of the adjustment drive assembly;

fig. 5 is an exploded view of the tablet grasping configuration.

In the figure, 1-supporting panel, 2-slitting mechanism, 3-dose strip displacement mechanism, 4-dose strip detection mechanism, 5-dose strip waste rejection mechanism, 51-first guide rail, 52-second guide rail, 53-moving plate, 54-material receiving block, 55-first driving component, 56-second driving component, 57-guide sliding block, 561-second connecting block, 562-second cylinder, 563-second cylinder fixing seat, 551-first cylinder, 552-first cylinder fixing seat, 553-first connecting block, 6-dose plate blanking component, 7-material bearing plate, 8-dose plate position adjusting structure, 9-waste collecting box, 10-dose plate material pushing component, 11-supporting seat, 61-connecting plate, 62-dose plate grabbing structure, 63-structured structure, 71-support column, 72-feeding area, 73-pushing area, 74-waste outlet, 75-tailing baffle, 76-guide hole, 81-agent plate pushing plate, 82-agent plate limiting plate, 83-adjusting guide rail, 84-adjusting guide block, 101-agent plate fixing structure, 102-horizontal moving mechanism, 621-pull-down air cylinder, 622-air cylinder fixing plate, 623-connecting support plate, 624-suction disc hardware, 625-suction disc, 831-motor fixing seat, 832-driving motor, 833-driving wheel, 834-driven wheel, 835-synchronous belt, 836-clamping component, 837-induction sheet, 838-transmission shaft, 839-transmission shaft fixing seat and 840-bearing.

Detailed Description

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; the terminology used in the description of the application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application; the terms "including" and "having," and any variations thereof, in the description and claims of this application and the description of the above figures are intended to cover non-exclusive inclusions. The terms "first," "second," and the like in the description and claims of this application or in the above-described drawings are used for distinguishing between different objects and not for describing a particular order.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings.

As shown in fig. 1-5, the utility model relates to an automatic continuous slitting paper cutter, including supporting panel 1, the control mechanism of setting in supporting panel 1 below, agent board feed transportation subassembly, slitting mechanism 2, agent strip displacement mechanism 3, agent strip detection mechanism 4 and agent strip waste product rejection mechanism 5 of setting on supporting panel 1.

The structure of the slitting mechanism 2, the agent strip displacement mechanism 3 and the agent strip detection mechanism 4 in the scheme is consistent with that of the slitting mechanism, the agent strip displacement mechanism and the agent strip detection mechanism in the Chinese patent application number 202022611777.5 with the patent name of high-speed precise slitting paper cutting machine, and the description is not repeated herein.

The agent plate feeding and conveying assembly is used for conveying the agent plates to a designated position, the agent plates are subjected to slitting by the slitting mechanism 2, the agent plates are linked with the slitting mechanism 2 through the agent plate shifting mechanism 3, the agent strips cut by the slitting mechanism 2 are transferred to the agent strip waste removing mechanism 5 one by one, and the agent strips on the agent strip waste removing mechanism 5 are detected through the agent strip detecting mechanism 4.

The agent waste rejecting mechanism 5 comprises a first guide rail 51, a second guide rail 52, a moving plate 53, a material receiving assembly, a first driving assembly 55 for driving the moving plate 53 to move linearly along the first guide rail 51, and a second driving assembly 56 for driving the material receiving assembly to move linearly along the second guide rail 52.

The second guide rail 52 is fixedly arranged on the moving plate 53, the material receiving assembly comprises two groups of material collecting blocks 54, the agent strip waste removing mechanism 5 is positioned at the discharging end of the agent strip displacement mechanism 3, the second driving assembly 56 is used for matching with the agent strip displacement mechanism 3 to receive the material from the material collecting blocks 54, and the agent strip waste removing mechanism 5 further comprises a recovery box which is arranged below the moving plate 53 and used for collecting non-qualified products.

Make through second drive assembly 56 and two sets of cooperation of connecing between the material piece 54 and place two sets of agent strips on the material piece 54 that connects that corresponds simultaneously, agent strip detection mechanism 4 can detect two sets of agent strips simultaneously, improves the efficiency that agent strip detected, detects simultaneously qualified and can carry out the material loading to two sets of agent strips simultaneously, improves the material loading efficiency of agent strip to improve the production efficiency of product, improved user's use and experienced.

The material receiving assembly further comprises a guide sliding block 57 matched with the second guide rail 52, the two material receiving blocks 54 are fixedly connected with the guide sliding block 57, and the two material receiving blocks 54 are arranged in a linear parallel mode.

The two groups of material receiving blocks 54 are arranged in parallel in a straight line, so that the material receiving blocks 54 can be matched with the agent strip displacement mechanism 3 more conveniently for material displacement.

This automatic continuous slitting paper cutter still includes second connecting block 561, and second connecting block 561 is fixed to be set up between two sets of material piece 54 that connect, and second drive assembly 56 includes second cylinder 562 and second cylinder fixing base 563, and second cylinder 562 passes through second cylinder fixing base 563 fixed the setting on moving plate 53, second connecting block 561 and the moving end fixed connection of second cylinder 562, and the moving end of second cylinder 562 drives two sets of material piece 54 and is linear motion along second guide rail 52.

The two groups of material receiving blocks 54 move linearly along the second guide rail 52 more stably by fixedly arranging the second connecting block 561 between the two groups of material receiving blocks 54.

The first driving assembly 55 includes a first cylinder 551, a first cylinder fixing base 552 and a first connecting block 553, the first cylinder 551 is fixedly disposed on the slitting mechanism 2 through the first cylinder fixing base 552, one end of the first connecting block 553 is fixedly connected with the moving end of the first cylinder 551, and the other end of the first connecting block 553 is fixedly connected with the moving plate 53.

When the detection result of the agent strip on the receiving group is unqualified by the agent strip detection mechanism 4, the moving end of the first air cylinder 551 drives the moving plate 53 to move, the unqualified agent strips are removed, and unqualified waste products are transferred into a recovery box, so that the material removing process is completed.

The agent plate feeding and transporting assembly comprises a supporting panel 1, an agent plate blanking assembly 6, a material bearing plate 7, an agent plate position adjusting structure 8, a waste collecting box 9 and an agent plate pushing assembly 10.

Four groups of supporting columns 71 are fixedly arranged on the lower end face of the material bearing plate 7, the four groups of supporting columns 71 are fixedly connected with the supporting panel 1, and a supporting seat 11 is fixedly arranged below the supporting panel 1.

The material bearing plate 7 is provided with a feeding area 72 and a material pushing area 73, the agent plate blanking assembly 6 is fixedly arranged in the feeding area 72, and the agent plate material pushing assembly 10 is arranged in the material pushing area 73.

By separating the feeding action and the pushing action, the agent plate pushing assembly 10 can feed the agent plate in advance in the pushing process, and when the agent plate pushing assembly 10 is reset, the agent plate position adjusting structure 8 directly pushes the fed agent plate to the pushing area 73 to be matched with the agent plate pushing assembly 10, so that the processing efficiency of agent plate feeding and transportation can be effectively improved.

The agent plate blanking assembly 6 is used for blanking the agent plates onto the material bearing plate 7, the agent plate pushing assembly 10 is used for driving the agent plates to do linear motion, and the agent plate position adjusting structure 8 is used for pushing the agent plates in the feeding area 72 to the pushing area 73.

The agent plate blanking assembly 6 comprises a connecting plate 61 and an agent plate grabbing structure 62, an agent plate stacking position is arranged on the connecting plate 61, and a regular structure 63 is arranged on the agent plate stacking position.

The structure of the connecting plate 61, the agent plate stacking position and the regular structure 63 in the scheme is consistent with that of the connecting plate, the agent plate stacking position and the regular structure in the Chinese patent application number 202022611773.7 with the patent name of 'an agent plate blanking mechanism', and the description is not repeated.

The agent board can be efficiently blanked through the agent board blanking assembly 6.

The agent board grabbing structure 62 comprises a pull-down cylinder 621, a cylinder fixing plate 622, a connecting support plate 623, a sucker fitting 624 and a sucker 625, wherein the cylinder fixing plate 622 is fixedly connected with the lower end face of the support panel 1, the pull-down cylinder 621 is fixedly arranged on the cylinder fixing plate 622, the moving end of the pull-down cylinder 621 is fixedly connected with the connecting support plate 623, one end of the sucker fitting 624 is fixedly arranged on the connecting support plate 623, and the other end of the sucker fitting 624 is fixedly connected with the sucker 625.

Drive sucking disc 625 through drop-down cylinder 621 and rise, sucking disc 625 vacuum suction agent board piles up the agent board on the position, and drop-down cylinder 621 withdraws, places at material loading district 72 after as the agent board, and sucking disc 625 unloads the vacuum, and drop-down cylinder 621 withdraws and resets, accomplishes the unloading action of agent board.

The positions of the material loading area 72 of the material bearing plate 7 corresponding to the material plate blanking assembly 6 are provided with grabbing through holes for the vertical movement of the material plate grabbing structures 62, and the material plate grabbing structures 62 can grab the material plates at the bottom of the material plate stacking positions onto the material bearing plate 7 below.

Through the arrangement of the grabbing through holes, the suction cup hardware 624 and the suction cup 625 can penetrate through the grabbing through holes to grab the agent plate.

The agent plate position adjusting structure 8 comprises an agent plate pushing plate 81 arranged on the feeding area 72, an agent plate limiting plate 82 arranged in parallel with the agent plate pushing plate 81, and an adjusting driving assembly fixedly connected with the material bearing plate 7, wherein the agent plate limiting plate 82 is fixedly arranged in the pushing area 73.

The agent plate pushing plate 81 can be efficiently moved towards or away from the agent plate limiting plate 82 by adjusting the arrangement of the driving assembly.

The chemical plate position adjusting structure 8 further comprises an adjusting guide rail 83 arranged on the material receiving plate 7, and an adjusting guide block 84 matched with the adjusting guide rail 83 is arranged on the chemical plate pushing plate 81.

The setting through adjusting guide block 84 can make the in-process that the adjustment drive assembly moved the dose board scraping wings 81 towards or away from dose board limiting plate 8242 direction more stable, and difficult emergence is rocked.

The adjusting drive assembly is arranged below the material bearing plate 7 and comprises a motor fixing seat 831, a drive motor 832, a driving wheel 833, a driven wheel 834, a synchronous belt 835, a transmission shaft 838 assembly and a clamping assembly 836, the motor fixing seat 831 and the transmission shaft 838 assembly are respectively fixedly connected with the lower end face of the material bearing plate 7, the drive motor 832 is fixedly arranged on the motor fixing seat 831, the driving wheel 833 is coaxially and fixedly sleeved at a moving end of the drive motor 832, the driven wheel 834 is movably sleeved on the transmission shaft 838 assembly, the driving wheel 833 and the driven wheel 834 are driven through the synchronous belt 835, the clamping assembly 836 is fixedly arranged on the synchronous belt 835, and the clamping assembly 836 is fixedly connected with the material pushing plate 81.

Through the rotation of the moving end of the driving motor 832, the clamping assembly 836 can efficiently drive the chemical plate pushing plate 81 to move due to the cooperation among the driving wheel 833, the driven wheel 834 and the timing belt 835.

An induction sheet 937 is fixedly arranged on the clamping component 836, a photoelectric sensor matched with the induction sheet 937 is arranged on the material bearing plate 7, and the motion state of the driving motor 832 can be controlled through the matching of the induction sheet 937 and the photoelectric sensor.

The number of the adjusting guide rails 83 is two, the two groups of adjusting guide rails 83 are arranged in parallel, the number of the adjusting guide blocks 84 is also two, the two groups of adjusting guide blocks 84 are respectively arranged at two ends of the injection plate pushing plate 81, the clamping component 836 is fixedly connected with the center of the injection plate pushing plate 81, the material bearing plate 7 is provided with guide holes 76 matched with the two groups of adjusting guide blocks 84 and the clamping component 836, and the two groups of adjusting guide blocks 84 and the clamping component 836 respectively penetrate through the corresponding guide holes 76 to be fixedly connected with the injection plate pushing plate 81.

The stability of the adjustment driving assembly for moving the agent plate pushing plate 81 towards or away from the agent plate limiting plate 82 is further improved by the arrangement of the two sets of adjustment guide rails 83.

The transmission shaft 838 subassembly includes transmission shaft 838, transmission shaft fixing base 839 and bearing 840, and the transmission shaft 838 passes through bearing 840 and fixes the setting on transmission shaft fixing base 839, can make difficult emergence wearing and tearing between transmission shaft 838 and the transmission shaft fixing base 839 through the setting of bearing 840, improves the life of part.

The tablet pushing assembly 10 includes a tablet holding structure 101 and a horizontal moving mechanism 102, and the horizontal moving mechanism 102 drives the tablet holding structure 101 and the tablet to move linearly.

The structure of the "tablet fixing structure 101 and the horizontal moving mechanism 102" in this embodiment is the same as that of the "tablet fixing structure and the horizontal moving mechanism" in the chinese patent application No. 202022617029.8, which is named as "a tablet feeding mechanism", and will not be described herein repeatedly.

The agent plate fixing structure 101 can effectively clamp and fix the agent plate pushed from the feeding area 72 to the pushing area 73, and the horizontal moving mechanism 102 can conveniently drive the agent plate fixing structure 101 and the agent plate to move linearly.

The material bearing plate 7 is provided with a waste outlet 74, a waste collecting box 9 fixedly arranged on the supporting panel 1 is arranged below the waste outlet 74, and a tailing baffle 75 is fixedly arranged on the side edge of the waste outlet 74.

Through the cooperation among the agent board fixing structure 101, the horizontal moving mechanism 102 and the tailing baffle 75, the tailing baffle 75 can effectively remove the excess materials on the agent board pushing assembly 10.

The working flow of the automatic continuous slitting and paper cutting machine provided by the embodiment is as follows: the embodiment of the utility model provides a second drive assembly 56 with connect the cooperation relation between the material subassembly, solved current product can only the single channel ejection of compact, have the problem that substandard product detection efficiency is low.

First pull-down cylinder 621 drives sucking disc 625 and rises, and sucking disc gold utensil 624 and sucking disc 625 pass and snatch the through-hole, and sucking disc 625 vacuum suction agent board piles up the agent board on the position, and pull-down cylinder 621 withdraws, and after the agent board was placed in material loading district 72, sucking disc 625 unloaded the vacuum, and pull-down cylinder 621221 withdraws and resets, accomplishes the unloading action of agent board.

The moving end of the driving motor 832 moves to drive the driving wheel 833, the driven wheel 834 and the timing belt 835 to move, so that the clamping component 836 is linked with the timing belt 835, and the clamping component 836 drives the tablet pushing plate 81 to move towards the tablet limiting plate 82, so that the tablet which is fed well is pushed to the pushing area 73 from the feeding area 72.

When the tablet is pushed to the correct position, the tablet is driven by the cooperation between the tablet fixing structure 101 and the horizontal moving mechanism 102, the tablet is pushed to the slitting mechanism 2 to be slit, the tablet pushing plate 81 resets while the tablet is pushed, after the resetting is completed, the pull-down cylinder 621 drives the sucker 625 to ascend, the sucker hardware 624 and the sucker 625 penetrate through the grabbing through hole, the sucker 625 sucks the tablet on the tablet stacking position in a vacuum manner, the pull-down cylinder 621 retracts, after the tablet is placed in the feeding area 72, the sucker 625 unloads the vacuum, the pull-down cylinder 621 retracts to reset, the tablet blanking action is completed, and the pushing is waited.

The slitting mechanism 2 performs slitting on the agent plates pushed by the agent plate fixing structure 101, and the slit agent strips are transferred to the agent strip waste removing mechanism 5 through the agent strip displacement mechanism 3.

Through the movement of the movement end of the second air cylinder 562, the matching agent strip displacement mechanism 3 loads agent strips on the two groups of material blocks 54, and when the agent strips on the material blocks 54 are detected to be unqualified by the agent strip detection mechanism 4, the first air cylinder 551 moves to push the movement plate 53, so that the removal of the agent strips is realized.

If the test is qualified, the agent strip feeding device simultaneously clamps the agent strips on the two groups of material blocks 54 and places the agent strips into the assembly line, so that the feeding efficiency is improved.

After the slitting is completed, the agent board fixing structure 101 resets, and the excess materials on the agent board fixing structure 101 are removed to the waste collecting box 9 through the tailing baffle 75.

After the agent plate fixing structure 101 is reset, the moving end of the driving motor 832 moves to drive the driving wheel 833, the driven wheel 834 and the synchronous belt 835 to move, so that the clamping component 836 is linked with the synchronous belt 835, and the clamping component 836 drives the agent plate pushing plate 81 to move towards the agent plate limiting plate 82, so that the agent plate subjected to material discharging is pushed to the material pushing area 73 from the material loading area 72.

The operation processes are repeated according to different conditions, the agent plate discharging assembly 6 discharges materials in advance in the process of pushing the agent plate pushing assembly 10, when the agent plate discharging assembly 6 resets, the agent plates are directly pushed to the material pushing area 73 from the material loading area 72 through the agent plate position adjusting structure 8 to be positioned, the agent plate pushing assembly 10 clamps and pushes the positioned agent plates to complete material feeding and conveying of the agent plates, and two groups of agent strips are simultaneously detected and simultaneously fed through the cooperation of the second air cylinder 562, the material receiving assembly and the agent strip shifting mechanism 3.

From the above, the utility model has the advantages that: make through second drive assembly 56 and two sets of cooperation of connecing between the material piece 54 and place multiunit agent strip simultaneously on the material piece 54 that connects that corresponds, agent strip detection mechanism 4 can detect two sets of agent strips simultaneously, compare in traditional feed transportation equipment and compare, through adopting the device, the efficiency that can effectual improvement agent strip detects, it is qualified to detect simultaneously can carry out the material loading to two sets of agent strips simultaneously, improve the material loading efficiency of agent strip, thereby improve the production efficiency of product, user's use experience has been improved.

In the above embodiment, the automatic continuous slitting paper cutter further includes the second connecting block 561, the second connecting block 561 is fixedly disposed between the two receiving blocks 54, the driving assembly includes the second cylinder 562 and the second cylinder holder 563, the second cylinder 562 is fixedly disposed on the moving plate 53 through the second cylinder holder 563, the second connecting block 561 is fixedly connected to the moving end of the second cylinder 562, the moving end of the second cylinder 562 drives the two receiving blocks 54 to move linearly along the second guide rail 52, obviously, the structure realizes the arrangement that the moving end of the second cylinder 562 drives the two receiving blocks 54 to move linearly along the second guide rail 52, and the design coordination among the motor, the pulley assembly and the linkage can be adopted, the motor drives the pulley assembly to move, the linkage is fixedly disposed on the belt of the pulley assembly, and the other end of the linkage is fixedly connected to the receiving block, the motor rotates, and the belt links, and the linkage piece drives and connects the material subassembly motion, can realize the technological effect of above-mentioned scheme equally.

In the above embodiment, the adjusting driving assembly is disposed below the material-receiving plate 7, the adjusting driving assembly includes a motor fixing seat 831, a driving motor 832, a driving wheel 833, a driven wheel 834, a synchronous belt 835, a transmission shaft 838 assembly and a clamping assembly 836, the motor fixing seat 831 and the transmission shaft 838 assembly are respectively fixedly connected with the lower end surface of the material-receiving plate 7, the driving motor 832 is fixedly disposed on the motor fixing seat 831, the driving wheel 833 is coaxially and fixedly sleeved at a moving end of the driving motor 832, the driven wheel 834 is movably sleeved on the transmission shaft 838 assembly, the driving wheel 833 and the driven wheel 834 are driven by the synchronous belt 835, the clamping assembly 836 is fixedly disposed on the synchronous belt 835, the clamping assembly 836 is fixedly connected with the material-pushing plate 81, obviously, the structure is used to implement a setting mode that the adjusting driving assembly moves the material-pushing plate 81 toward or away from the material-pushing plate limiting plate 82, and the design of the connecting plate 61 and the air cylinder can also be adopted, through setting up the cylinder terminal surface under holding flitch 7, the motion end fixed connection of connecting plate 61 one end and cylinder, the other end and the agent board scraping wings 81 fixed connection of connecting plate 61 drive the connecting plate 61 through the cylinder and move, and connecting plate 61 drives agent board scraping wings 81 and links, can realize the technological effect of above-mentioned scheme equally.

The above-mentioned embodiments are the preferred embodiments of the present invention, and the scope of the present invention is not limited to the above-mentioned embodiments, and the scope of the present invention includes and is not limited to the above-mentioned embodiments, and all equivalent changes made according to the present invention are within the protection scope of the present invention.

Claims (10)

1. An automatic continuous slitting paper cutter comprises a supporting panel, a control mechanism arranged below the supporting panel, a dose plate feeding and conveying assembly, a slitting mechanism, a dose strip displacement mechanism, a dose strip detection mechanism and a dose strip waste product rejection mechanism, wherein the dose plate feeding and conveying assembly, the slitting mechanism, the dose strip displacement mechanism, the dose strip detection mechanism and the dose strip waste product rejection mechanism are arranged on the supporting panel;

the agent plate feeding and conveying assembly is used for conveying the agent plates to a specified position, so that the slitting mechanism can slit the agent plates;

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 to the agent strip waste removing mechanism one by one;

the agent strip detection mechanism is used for detecting the agent strips on the agent strip waste rejection mechanism;

the agent waste rejecting mechanism comprises a first guide rail, a second guide rail, a moving plate, a material receiving assembly, a first driving assembly and a second driving assembly, wherein the first driving assembly drives the moving plate to move linearly along the first guide rail, and the second driving assembly drives the material receiving assembly to move linearly along the second guide rail;

the second guide rail is fixedly arranged on the moving plate, the material receiving assembly comprises at least two groups of material collecting blocks, the agent strip waste removing mechanism is located at the discharge end of the agent strip displacement mechanism, the second driving assembly is used for matching with the agent strip displacement mechanism to receive materials from the material collecting blocks, and the agent strip waste removing mechanism further comprises a recovery box arranged below the moving plate and used for collecting non-qualified products.

2. The automatic continuous slitting cutter according to claim 1, characterized in that: the material receiving assembly comprises two groups of material receiving blocks and a guide sliding block matched with the second guide rail, the two groups of material receiving blocks are fixedly connected with the guide sliding block, and the two groups of material receiving blocks are arranged in parallel linearly.

3. The automatic continuous slitting cutter according to claim 1, characterized in that: the agent board feed transportation assembly comprises an agent board blanking assembly, a material bearing board, an agent board position adjusting structure and an agent board pushing assembly, wherein a feeding area and a material pushing area are arranged on the material bearing board, the agent board blanking assembly is fixedly arranged in the feeding area, the agent board pushing assembly is arranged in the material pushing area, the agent board blanking assembly is used for blanking the agent board on the material bearing board, the agent board pushing assembly is used for driving the agent board to do linear motion, and the agent board position adjusting structure is used for pushing the agent board in the feeding area to the material pushing area.

4. The automatic continuous slitting cutter according to claim 2, characterized in that: still include the second connecting block, the fixed setting of second connecting block is between two sets of material pieces that connect, second drive assembly includes second cylinder and second cylinder fixing base, the second cylinder passes through the second cylinder fixing base is fixed to be set up on the motion board, the motion end fixed connection of second connecting block and second cylinder, the motion end of second cylinder drive two groups of material pieces and follow linear motion is to the second guide rail.

5. The automatic continuous sliver cutter according to claim 3, wherein: the agent plate position adjusting structure comprises an agent plate pushing plate arranged on the feeding area, an agent plate limiting plate arranged in parallel with the agent plate pushing plate, and an adjusting driving assembly fixedly connected with the material bearing plate and used for driving the agent plate pushing plate to move towards or away from the agent plate limiting plate.

6. The automatic continuous slitting cutter according to claim 3, characterized in that: the agent board unloading subassembly includes that the connecting plate is provided with agent board pile position on the connecting plate and the structure is snatched to the agent board, the agent board snatchs the structure can with agent board on the agent board pile position snatchs to the assigned position, be provided with regular structure on the agent board pile position.

7. The automatic continuous slitting cutter according to claim 5, characterized in that: the agent plate position adjusting structure further comprises an adjusting guide rail arranged on the material bearing plate, and an adjusting guide block matched with the adjusting guide rail is arranged on the agent plate pushing plate.

8. The automatic continuous slitting cutter according to claim 7, characterized in that: adjust drive assembly and set up the holding board below, adjust drive assembly and include motor fixing base, driving motor, action wheel, follow driving wheel, synchronous belt, transmission shaft subassembly and clamping component, the motor fixing base with the transmission shaft subassembly respectively with terminal surface fixed connection under the holding board, driving motor is fixed to be set up on the motor fixing base, driving motor's motion end is established to the coaxial fixed cover of action wheel, from driving wheel movable sleeve establish on the transmission shaft subassembly, the action wheel with from the driving wheel through synchronous belt transmits, clamping component is fixed to be set up on the synchronous belt, clamping component with agent board scraping wings fixed connection.

9. The automatic continuous slitting cutter according to claim 8, characterized in that: the clamping assembly is fixedly provided with an induction sheet, the material bearing plate is provided with a photoelectric sensor matched with the induction sheet, and the motion state of the driving motor can be controlled through the matching of the induction sheet and the photoelectric sensor.

10. The automatic continuous slitting cutter according to claim 8, characterized in that: the quantity of adjusting the guide rail is two sets ofly, and parallel arrangement between two sets of adjusting the guide rail, the quantity of adjusting the guide block also is two sets ofly, and two sets of adjusting the guide block and setting respectively in agent board scraping wings both ends, clamping component with agent board scraping wings center fixed connection.

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