CN209289378U - A kind of cutting machine - Google Patents

A kind of cutting machine Download PDF

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Publication number
CN209289378U
CN209289378U CN201822149046.6U CN201822149046U CN209289378U CN 209289378 U CN209289378 U CN 209289378U CN 201822149046 U CN201822149046 U CN 201822149046U CN 209289378 U CN209289378 U CN 209289378U
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CN
China
Prior art keywords
rack
sliding
particle
block
tool apron
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Expired - Fee Related
Application number
CN201822149046.6U
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Chinese (zh)
Inventor
蔡希海
吴应义
吴应忠
蔡锦波
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Zhejiang Rong Jian Technology Co Ltd
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Zhejiang Rong Jian Technology Co Ltd
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Publication date
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Priority to CN201822149046.6U priority Critical patent/CN209289378U/en
Application granted granted Critical
Publication of CN209289378U publication Critical patent/CN209289378U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model discloses a kind of cutting machines, its key points of the technical solution are that including organic frame, setting plate platform, cutter device, cutter device includes cutting axis and dise knife ontology, setting to be provided on plate platform can be provided with cardboard from the plate pusher structure in the push-in cutter device feed end of the bottom of cardboard heap, rack for stopping not adjust component by the pressing board in abutting pushing surface push-in cutter device feed end and the gear paper for adjusting the spacing that pressing board distance sets plate platform;Dise knife ontology and cutting axis split settings are provided with tool apron ontology on cutting axis, are provided on tool apron ontology and/or cutting axis and slide the location structure being in place afterwards fixed on tool apron ontology on cutting axis in tool apron ontology.The cutting machine can just can be carried out feeding without shutting down, and be conducive to improve processing efficiency, and can regulate and control the cutting width of dise knife without removing cutting axis just, substantially increase the using flexible degree of cutting machine.

Description

A kind of cutting machine
Technical field
The utility model relates to cutting apparatus technical fields, more specifically, it relates to a kind of cutting machine.
Background technique
Cutting machine is a kind of mechanical equipment that wide cut cardboard, industrial hawk, density board are cut into a plurality of narrow material, often It is mechanical for papermaking equipment and printing packaging.
For existing cutting machine there are certain shortcoming, the feed end of such as existing cutting machine is the plate that will stack from most upper The plate of side is sent into cutting machine and is cut, but feed end sheet fabrication it is complete after need to shut down could by new a pile plate Material is put into, and affects the processing efficiency of cutting machine.Secondly, will be cut to control the width of cutting material in use It cuts axis and carries out replacement and reuse, well and cannot arbitrarily control cutting width, cause certain trouble to user in this way, simultaneously The cutting for also limiting other materials is unfavorable for the use and popularization of cutting machine.
Utility model content
In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of cutting machine, the cutting function It is enough just to can be carried out feeding without shutting down, be conducive to improve processing efficiency, and just can regulate and control cutting for dise knife without removing cutting axis Width is cut, the using flexible degree of cutting machine is substantially increased.
To achieve the above object, the utility model provides following technical solution: a kind of cutting machine, including organic frame and sets The cutting setting plate platform and being arranged on the rack for cutting plate banked up for feedboard on the rack is set to fill It sets, sets the feed end that plate platform is located at cutter device, cutter device includes cutting axis and the setting being rotatablely connected on the rack Dise knife ontology on cutting axis is set and is provided with and can feed cardboard from the bottom of cardboard heap push-in cutter device on plate platform Plate pusher structure in end, plate pusher structure include that sliding is connected to the push plate block set on plate platform and is arranged in machine Push plate driving assembly on frame for driving push plate block mobile, push plate block are setting the charging that the glide direction on plate platform is cardboard Direction, abutting pushing surface of the cardboard far from rack feed end side can be connected to by being provided on push plate block, and push plate driving assembly exists Drive push plate block to during one side slip of rack feed end, when cardboard heap bottom side can be with the paper that abuts pushing surface and abut After plate is pushed in cutter device feed end, push plate driving assembly drives push plate block to break away to far from rack feed end one again It moves;It is additionally provided in rack for stopping not by the pressing board in abutting pushing surface push-in cutter device feed end, pressing board is located at It sets the top of plate platform, and pressing board and sets between plate platform that there are what feedboard slipped over to cross paper gap, pressing board sliding connects It connects on the rack, and the glide direction of pressing board on the rack is to be provided with and be used in rack close to or far from plate platform is set The gear paper for adjusting the spacing that pressing board distance sets plate platform adjusts component;Dise knife ontology and cutting axis split settings, on cutting axis It is provided with the tool apron ontology for being installed to dise knife ontology on cutting axis, the sliding of tool apron ontology is connected on cutting axis, tool apron Glide direction of the ontology on cutting axis is the length direction of cutting axis, is provided on tool apron ontology and/or cutting axis in tool apron Tool apron ontology is fixed on the location structure on cutting axis afterwards in place by ontology sliding, is provided on tool apron ontology and/or cutting axis Limit rotation structure for that can rotate with the rotation of cutting axis for tool apron ontology, dise knife ontology and tool apron ontology are detachably solid Fixed connection.
The utility model is further arranged to: the upper surface of push plate block, which is provided with to be not higher than, sets the first of plate platform upper surface Work surface is provided with the abutting pushing block for protruding from the first work surface on push plate block, abuts pushing surface and is located at and abuts on pushing block towards paper The side of plate, push plate block with abut be provided between pushing block for adjust abut pushing block protrude the first work surface height pushing block tune High component;It abuts pushing block to be wholely set far from the side for abutting pushing surface with push plate block, abuts and be provided between pushing block and push plate block Deformation gap, it includes the height-regulating bolt being bolted on push plate block that component, which is turned up, in pushing block, and it includes that can pass through to support that bolt, which is turned up, It connects the height-regulating screw rod being spirally connected after pushing block with push plate block and the height-regulating nut abutted on pushing block can be pressed on, abut and set on pushing block It is equipped with for for the perforative height-regulating through-hole of screw rod is turned up;It further includes having the height-regulating spiral shell for being bolted in and abutting on pushing block that component, which is turned up, in pushing block Nail abuts the height-regulating threaded hole being provided on pushing block for being spirally connected for screw is turned up, and height-regulating threaded hole, which runs through, abuts pushing block setting.
The utility model is further arranged to: sliding is connected with the sliding mounting plate for installing for push plate block in rack, Push plate block is provided with multiple and is detachably fixed and connect with sliding mounting plate, is provided in rack for for sliding mounting plate The first slide bar of connection is slid, the first slide bar is provided with two, and two first slide bars are arranged in parallel and to be located at rack wide Two sides are spent, push plate driving assembly is able to drive sliding mounting plate and slides along its length on the first slide bar;Push plate driving group Part includes the push plate driving spindle of rotation connection on the rack and the push plate driving electricity for driving push plate driving spindle to rotate First driving of the output end of machine and one end and push plate the driving motor eccentric hinged other end and the rotation connection of push plate driving spindle Arm and one end and the push plate driving spindle rotation connection other end and the second actuating arm for sliding mounting plate rotation connection, push plate Driving motor can drive during driving the positive and negative rotation of push plate driving spindle by the first actuating arm of eccentric connection by second Swing arm drives sliding mounting plate on the first slide bar toward polyslip.
The utility model is further arranged to: it includes the tune being bolted on rack and/or pressing board that gear paper, which adjusts component, Screw rod is saved, length direction and the glide direction of pressing board on the rack of adjusting screw rod are consistent;When adjusting screw rod and rack When threaded connection, adjusting screw rod is circumferentially rotatable with pressing board and axial restraint is connect, or when adjusting screw rod and pressing board spiral shell When line connects, adjusting screw rod is circumferentially rotatable with rack and axial restraint is connect, or when adjusting screw rod and rack and pressing board When being threadedly coupled, adjusting screw rod is able to drive pressing board in rotation process and slides on the rack;It is arranged on adjusting screw rod There is outer diameter to be greater than the regulation handle of adjusting screw rod, regulation handle and adjusting screw rod split settings, and regulation handle is axial Sliding is connected on adjusting screw rod, and synchronous rotation structure, regulation handle and gear paper are provided between regulation handle and adjusting screw rod The limit rotation structure for limiting regulation handle rotation is provided between plate;It can lead to when regulation handle slides on adjusting screw rod When crossing synchronous rotation structure and connecting with adjusting screw rod, regulation handle is able to drive adjusting screw rod synchronous rotation, when regulation handle exists Slid on adjusting screw rod can by limit rotation structure connect with pressing board when, regulation handle can by limit rotate be connected to On pressing board;Regulation handle is located at one end on adjusting screw rod far from rack, is provided in regulation handle for for adjusting screw rod The jack of grafting, rotating synchronously structure includes to adjust around several synchronous internal tooths and setting being set on jack inner sidewall It can pass through the same of engagement in rotation process with several synchronous external tooths of synchronous interior tooth engagement, regulation handle on section screw rod It walks internal tooth and drives adjusting screw rod rotation with synchronous external tooth;Synchronous external tooth is located at end lateral wall of the adjusting screw rod after pressing board On, limit rotation structure includes to turn internal tooth around several limits being set on jack inner sidewall and be fixed at energy on pressing board It is enough turn with limit in several limits of tooth engagement turn external tooth, regulation handle on adjusting screw rod in axial slipping when limit turn external tooth with Limit turns internal tooth separation, and synchronous internal tooth is able to drive adjusting screw rod and synchronizes and turns with rotation regulation handle after synchronous outer tooth engagement It is dynamic;Set is provided with for realizing that limit turns external tooth and with limit turns internal tooth and can remain to nibble by pressing regulation handle on adjusting screw rod The reset spring of conjunction, reset spring one end and adjusting screw rod pass through the end abutment of regulation handle, and the other end is supported with regulation handle It connects, push regulation handle reset spring forced compression during axially sliding on adjusting screw rod turns until limiting and turning external tooth with limit Internal tooth can separate, synchronize internal tooth can engage with synchronous external tooth.
The utility model is further arranged to: the useful guide post for pressing board sliding connection, pressing board being arranged in rack On be provided with can in guide post directional-sliding gear paper slide, keep off between paper slide and guide post and being provided with for limiting gear The limitation rotational structure that paper slide rotates in guide post, adjusting screw rod with guide post by being spirally connected being spirally connected of realization and rack; Be provided in rack for the crossbeam for guide post horizontal sliding on setting plate platform, be provided in guide post can locking fix Fixation kit on crossbeam;Be provided in guide post can on crossbeam directional-sliding guiding slide, guiding slide and horizontal The limitation rotational structure rotated on crossbeam for restricted guidance slide is provided between beam.
The utility model is further arranged to: dise knife ontology includes that several dise knifes are seperated, and the seperated head and the tail of each dise knife support It is then able to surround the dise knife ontology circularized, the central angle of dise knife fission is no more than 180 °;Tool apron ontology includes several Tool apron is seperated, and the seperated head and the tail of each tool apron, which abut, can surround the tool apron ontology circularized, and the central angle of tool apron fission is not Greater than 180 °, the two ends of dise knife fission and/or tool apron fission are provided with for the seperated and/or tool apron with adjacent dise knife point The abutting end face that body abuts;The head and the tail junction of two neighboring dise knife fission and/or tool apron fission is provided with for connecting phase The fast assembling disassembling structure of adjacent two dise knifes fission and/or tool apron fission;Fast assembling disassembling structure includes assembling-disassembling bolt and is set to One dise knife is seperated and/or tool apron fission on for the perforative dismounting through-hole of the screw portion for assembling-disassembling bolt and be set to another The dismounting screw hole being spirally connected on dise knife fission and/or tool apron fission for the screw portion for assembling-disassembling bolt, dismounts through-hole and dismounting Screw hole coaxial arrangement when dise knife fission and/or tool apron fission are encircled into ring structure;Two neighboring dise knife fission and/or tool apron Seperated head and the tail junction is provided with can for limiting each center of circle of each dise knife fission and/or tool apron fission after surrounding The coaxial position limiting structure of coaxial arrangement;Coaxial position limiting structure includes the coaxial limiting slot being set on abutting end face and can The length direction of the coaxial limited block being embedded in coaxial limiting slot, coaxial limiting slot and coaxial limited block is along the length of cutting axis Direction setting, coaxial limited block at least width side is bonded setting with the side of coaxial limiting slot;Two neighboring tool apron fission Head and the tail junction is provided with for limiting each tool apron fission in surrounding on rear each tool apron fission for for dise knife partial installation Mounting surface be at same plane, and/or two neighboring dise knife fission head and the tail junction be provided with it is each for limiting A dise knife fission is at conplane neat sword position limiting structure in the cutting edge for surrounding rear each dise knife fission;Qi Ren limit knot Structure includes to be set to the neat sword limiting slot abutted on end face and the neat sword limited block that can be embedded in neat sword limiting slot, Qi Ren The length direction of limiting slot and Qi Ren limited block being arranged radially along cutting axis, the width dimensions and Qi Ren of neat sword limited block limit The width dimensions of position slot are adapted.
The utility model is further arranged to: being rotatably connected to the conveying roller for paperboard conveying in rack, is indulged in rack It is connected with the installation sliding block for being rotatablely connected for conveying roller to sliding, is provided in rack for driving installation sliding block in rack The driving cylinder of upper sliding, driving cylinder include rack-mounted cylinder body and slide through the piston of cylinder body opposite end Bar, length direction and the glide direction of installation sliding block on the rack of piston slide bar are consistent, piston slide bar one end and installation Sliding block connection, the other end extend outwardly after penetrating through cylinder body and are provided with the cunning for limiting piston slide bar push installation sliding block The limit for migrating journey adjusts component;It includes the limit for being set to end of the piston slide bar far from installation sliding block that limit, which adjusts component, Adjusting block, there are the limits for the sliding stroke that can be used in regulating and controlling piston slide bar push installation sliding block between limit adjusting block and cylinder body Position adjusts gap.
The utility model is further arranged to: the strip waste material that can will be cut into from cutter device is provided in rack It is cut into the crushed aggregates device of fritter, crushed aggregates device includes positioned at the waste material import of cutter device side and under feed inlet The waste outlet of side, waste material entrance is provided with the waste material guide structure that can be inducted into waste material in waste material import, through cutting Device cut the waste material to be formed enter in crushed aggregates device under the guidance of waste material guide structure from waste material import shredded after from Waste outlet drops out.
The utility model is further arranged to: two particle hobboing cutters parallel to each other are rotatably connected in crushed aggregates device, it is broken Expect to be surrounded with particle cutting edge on the outer circumferential wall of hobboing cutter, the particle cutting edge on two particle hobboing cutters abuts setting; Crushed aggregates device further includes having for driving the counter-rotational particle driver of two particle hobboing cutters, and particle driver drives two broken The waste material fallen into crushed aggregates device can be cut into small by material hobboing cutter by the particle cutting edge of abutting during rotating backward Block;Particle driver includes that particle motor for driving the rotation of any one particle hobboing cutter and transmission connection are broken at two Expect to pass during the particle driving wheel between hobboing cutter, particle motor drive a particle hobboing cutter to rotate forward by the particle of transmission connection Driving wheel can drive another particle hobboing cutter to invert simultaneously.
The utility model is further arranged to: crushed aggregates device sliding connects on the rack, the cunning of crushed aggregates device on the rack The length direction that direction is particle hobboing cutter is moved, crushed aggregates device can regulate and control crushed aggregates device positioned at cutting during slide on the rack The position for cutting device side, being provided between crushed aggregates device and rack can be by the securing particle locking knot of crushed aggregates device locking Structure;Be provided in rack for the particle sliding rail for crushed aggregates device directional-sliding, be provided on crushed aggregates device sliding be connected to it is broken Expect that the particle sliding block on sliding rail, the length direction of the length direction and particle hobboing cutter of particle sliding rail are consistent;Particle locking knot Structure includes the locking plate being arranged on the rack and can pass through the locking bolt that be spirally connected with crushed aggregates device after locking plate, locking Be provided with the locking sliding slot passed through for the screw portion for locking bolt on plate, the length direction of locking sliding slot and locking plate with The length direction of particle hobboing cutter is consistent;There are two crushed aggregates device settings, and two crushed aggregates devices are located at cutting dress The opposite sides set, the waste material that the waste outlet lower section of two crushed aggregates devices is provided with for accepting and can convey waste material are defeated Send device;The sliding main shaft that connection and circumferentially fixed connection are axially slid with particle hobboing cutter, particle are rotatably connected in rack Motor is connect with sliding spindle drive, and particle motor is able to drive coaxial setting during driving and sliding main axis Particle hobboing cutter rotate synchronously, during crushed aggregates device slide on the rack particle hobboing cutter can sliding main shaft on along its grow Spend direction sliding.
To sum up, the utility model has the following beneficial effects: push plate driving assembly passes through push plate block for cardboard heap bottom Cardboard carries out charging operation, just can be carried out feeding without shutting down, and is conducive to the processing efficiency for improving cutting machine.Pressing board supports It is connected to the cardboard side for being deposited in and setting on plate platform, plays the role of barrier carton, and the width dimensions for crossing paper gap are greater than one The thickness of cardboard is opened, and is less than the thickness of two pieces of paper plate, can only convey one every time to realize and set plate platform It opened after cardboard pushed pressing board and enters in cutter device.Due to dise knife ontology and cutting axis split settings, regulation can be realized Spacing dimension between two neighboring dise knife ontology plays the role of regulating and controlling dise knife cutting material width, therefore the design can The adjustment that cutting material width is carried out under the premise of not needing to dismount cutting axis, substantially increases the dismounting of cutting machine Efficiency and the degree of flexibility for adjusting cutting material width, are conducive to using and promoting for cutting machine.
Detailed description of the invention
Fig. 1 is the schematic perspective view of cutting machine;
Fig. 2 is the schematic perspective view of the cutting machine other side;
Fig. 3 is the schematic perspective view of plate pusher structure;
Fig. 4 is the installation cross-sectional view of push plate block;
Fig. 5 is pressing board and the cross-sectional view for keeping off paper adjusting component;
Fig. 6 is pressing board and the dimensional decomposition structure diagram for keeping off paper adjusting component;
Fig. 7 is the dimensional decomposition structure diagram of cutter device;
Fig. 8 is side view of the rack at cutter device;
Fig. 9 is the schematic perspective view for driving cylinder and installing sliding block;
Figure 10 is the side view of crushed aggregates device and cutter device;
Figure 11 is the schematic perspective view of waste treatment device and rack mount configurations.
Appended drawing reference: 1, rack;11, plate platform is set;111, push plate sliding slot;12, the first slide bar;13, particle sliding rail;14, Conveying roller;141, driven gear;15, gear is driven;16, mate gear;17, plate platform is received;2, plate pusher structure;21, it pushes away Plate;211, the first work surface;212, pushing block is abutted;2121, pushing surface is abutted;2122, through-hole is turned up;2123, threaded hole is turned up; 213, component is turned up in pushing block;2131, bolt is turned up;2132, screw is turned up;214, deformation gap;22, push plate driving assembly; 221, push plate driving spindle;222, push plate driving motor;223, the first actuating arm;224, the second actuating arm;225, cursor; 23, mounting plate is slid;3, pressing board;31, limit turns external tooth;32, paper slide is kept off;4, gear paper adjusts component;41, adjusting screw rod;42, Regulation handle;421, jack;422, synchronous internal tooth;423, limit turns internal tooth;43, synchronous gear connector;431, synchronous external tooth;44, Reset spring;45, pressure cap;5, crossbeam;51, guide post;52, fixation kit;53, it is oriented to slide;6, cutter device;61, dise knife Ontology;611, dise knife is seperated;62, tool apron ontology;621, tool apron is seperated;63, location structure;64, rotation structure is limited;641, keyway; 642, flat key;65, end face is abutted;66, fast assembling disassembling structure;661, assembling-disassembling bolt;662, through-hole is dismounted;663, screw hole is dismounted; 67, coaxial position limiting structure;671, coaxial limiting slot;672, coaxial limited block;68, neat sword position limiting structure;681, neat sword limiting slot; 682, neat sword limited block;69, cutting axis;7, sliding block is installed;71, rolling bearing;72, clip is limited;8, cylinder is driven;81, cylinder Body;82, piston slide bar;83, adjusting block is limited;831, limit adjusts gap;832, spliced eye;833, deformation slot;834, it fastens Bolt;9, crushed aggregates device;91, waste material import;92, waste outlet;93, waste material directing plate;94, particle hobboing cutter;941, particle is cut Cut sword;95, particle driving wheel;96, particle locking structure;961, locking plate;9611, locking sliding slot;962, locking bolt;97, Particle sliding block;98, main shaft is slid;99, discard transfer apparatus.
Specific embodiment
With reference to the accompanying drawings and examples, the utility model is further described.Wherein identical components phase Same appended drawing reference indicates.It should be noted that word "front", "rear" used in the following description, "left", "right", "upper" and "lower" refers to that the direction in attached drawing, word " bottom surface " and " top surface ", "inner" and "outside" are referred respectively to towards or away from specific The direction at component geometry center.
Referring to Fig.1 shown in -11, cutting machine includes to be successively set on setting plate platform 11, cutter device 6, receiving in rack 1 Plate platform 17 is provided with plate pusher structure 2 wherein setting on plate platform 11, pressing board 3 can be located at vertically to be set on plate platform 11 Side, and be located at and set between the discharge end of plate platform 11 and the feed end of cutter device 6, it include to have conveying in cutter device 6 Roller 14, the discharge outlet of cutter device 6 are provided with crushed aggregates device 9.
Setting plate platform 11 at plate structure and can be located at the feed end of rack 1 and can be used in feedboard and stacked, and push away The sliding of plate 21, which is connected to, sets on plate platform 11, and cardboard is carried out charging work from the cardboard heap bottom of stacking so as to realize Industry, sets the push plate sliding slot 111 that may be provided on plate platform 11 for sliding for push plate block 21, and push plate block 21 can be along push plate sliding slot 111 length direction is steadily slid, and is abutted pushing surface 2121 and is located at push plate block 21 towards the side of cardboard, push plate driving assembly The cardboard of cardboard heap bottom is carried out charging operation by push plate block 21 by 22, just be can be carried out feeding without shutting down, is conducive to Improve the processing efficiency of cutting machine.
Pressing board 3 is connected to the cardboard side for being deposited in and setting on plate platform 11, plays the role of barrier carton 3, and crosses paper The width dimensions in gap are greater than the thickness of a piece of cardboard, and are less than the thickness of two pieces of paper plate, set plate to realize Platform 11, which can be conveyed only every time after a piece of cardboard pushed pressing board 3, to be entered in cutter device 6.And it keeps off paper and adjusts component 4 The width dimensions that can be used in adjusting paper gap are set, so as to enable pressing board 3 to be suitable for different-thickness size Cardboard can realize that the charging of individual cardboard, or the width dimensions by adjusting paper gap set plate platform to adjust The quantity of 11 each paperboard conveyings is conducive to the cutting effect for improving cutting machine, and also can be by controlling cutting paper every time The thickness of plate extends the service life of cutter.
Wherein cutting axis 69 can be arranged for cylindrical-shaped structure, and dise knife ontology 61 and tool apron ontology 62 can circlewise structures Setting, and can coaxially cover and axially be slid on cutting axis 69 along it, dise knife ontology 61 and tool apron ontology 62 can pass through spiral shell Bolt realization is detachably fixed connection, and limit rotation structure 64 plays cutting axis 69 being capable of synchronous drive dise knife ontology 61 in rotary course It is rotated with tool apron ontology 62, location structure 63 plays tool apron ontology 62 after tool apron ontology 62 slides in place on cutting axis 69 It is fixed on cutting axis 69.
Due to dise knife ontology 61 and 69 split settings of cutting axis, and dise knife ontology 61 can be slid by tool apron ontology 62 It is connected on cutting axis 69, so as to realize the spacing dimension between two neighboring dise knife ontology 61, plays regulation circle The effect of knife cutting material width, therefore the design can be cut under the premise of not needing and dismounting to cutting axis 69 The adjustment of material width substantially increases the disassembly efficiency of cutting machine and adjusts the degree of flexibility of cutting material width, favorably Using and promoting in cutting machine.
Wherein the first work surface 211 is not higher than the upper surface for setting plate platform 11, therefore push plate block 21 is only by abutting pushing block 212 realize the push to cardboard, and push plate driving assembly 22 can be by cardboard by the primary charging operation that push plate block 21 carries out Heap bottom is able to carry out charging operation with the cardboard that pushing surface 2121 contacts is abutted, therefore the setting energy of component 213 is turned up in pushing block It is enough that the height for abutting the first work surface 211 of protrusion of pushing block 212 is regulated and controled, that is, can be to the width for abutting pushing surface 2121 Regulated and controled, so as to regulate and control push plate block 21, once charging operation can be pushed with several cardboards of cardboard heap bottom, Or the cardboard of different-thickness size is steadily pushed, be conducive to the scope of application and using flexible journey that improve cutting machine Degree.
Furthermore the first work surface 211 can be arranged at incline structure and be located at side of the push plate block 21 towards cardboard, close One end of cardboard can slightly below set the upper surface of plate platform 11, and one end far from cardboard can be slightly higher than the upper end for setting plate platform 11 Face, such push plate driving assembly 22 is when driving push plate block 21 to slide from the position far from cardboard heap to cardboard, 21 energy of push plate block It is enough smoothly inserted under cardboard heap by the first work surface 211 from the bottom of cardboard heap, then by abutting pushing surface 2121 for cardboard Charging operation is carried out, the first work surface 211 of the structure can effectively ensure push of the push plate block 21 to cardboard, and can have Effect reduces damage of the push plate block 21 to cardboard, is conducive to improve cardboard cut quality.
It abuts pushing block 212 to be wholely set with push plate block 21, and between the two by being provided with deformation gap 214, order is supported Certain deformability can be had on push plate block 21 by connecing pushing block 212, bolt 2131 is turned up, screw rod is turned up in installation process It is screwed on push plate block 21 after through-hole 2122 is turned up, and is being supported during lasting screw-in until nut pressing is turned up It connects on pushing block 212, the height for abutting the first work surface 211 of protrusion of pushing block 212 is regulated and controled so as to realize, structure is simple Easily implement, implementation cost is advantageously reduced, convenient for the regulation of operator.It is wherein to avoid pressing on abutting pushing block 212 Nut is turned up, scuffing is generated to the board side below cardboard heap due to exposed, height-regulating through-hole 2122 can be arranged to accommodate and adjusted The stepped hole of high nut can not only realize the height-regulating regulation to pushing block 212 is abutted, additionally it is possible to nut will be turned up and hide into height-regulating In through-hole 2122, avoids its exposed and scratch board side.
Screw 2132 is turned up to be spirally connected with pushing block 212 is abutted, abuts and is provided on pushing block 212 for the screw-in of screw 2132 is turned up Threaded hole 2123 is turned up, and its end can head on push plate block 21 during screw-in, pushing block 212 will be abutted by, which playing, supports The effect got up, avoid only by be turned up 2131 pairs of abuttings pushing blocks 212 of bolt be turned up, and make abutting pushing block 212 by When downward pressure can also downward deformation, therefore the setting that screw 2132 is turned up can effectively improve consolidating to abutting pushing block 212 It is fixed.
Push plate block 21 can realize by assembling-disassembling bolt 661 and connect with being detachably fixed for mounting plate 23 of sliding that the structure is simple It is single easily to implement, and slide mounting plate 23 and connect by the first slide bar 12 realization at both ends with the sliding of rack 1, it can not only be advantageous In the sliding degree of stability for improving sliding mounting plate 23, it can also increase the installation number of push plate block 21, and each push plate block 21 can be synchronized to drive, by increasing with the contact point of cardboard to be conducive to improve the degree of stability for pushing cardboard charging.
Wherein in push plate driving spindle 221 fixed setting there are two respectively with the first actuating arm 223 and the second actuating arm 224 The output end of hinged cursor 225, i.e. one end of the first actuating arm 223 and push plate driving motor 222 is eccentric hinged, the other end It is hinged with the cursor 225 that is fixed in push plate driving spindle 221, one end of the second actuating arm 224 with slide 23 turns of mounting plate Dynamic connection, the other end and second cursor 225 being fixed in push plate driving spindle 221 are hinged, such push plate driving motor 222 can drive the cursor 225 hinged with it to realize push plate driving during lasting rotation by the first actuating arm 223 The reciprocating rotation of main shaft 221, push plate driving spindle 221 can be by hinged with cursor 225 during reciprocating rotation Second actuating arm 224 drives sliding mounting plate 23 on the first slide bar 12 toward polyslip, and 22 structure of push plate driving assembly is simple Easily implement, is able to drive push plate block 21 and is steadily slid on setting plate platform 11.
And cunning can be regulated and controled by the length of the first actuating arm 223 of regulation and/or the second actuating arm 224 in above structure The sliding stroke of mounting plate 23 is moved, that is, push plate driving motor 222 turns around and is able to drive push plate block 21 and setting plate platform 11 On sliding stroke, therefore the first actuating arm 223 and/or the second actuating arm 224 are arranged to the structure of adjustable in length, not only The depth that can be pushed to cardboard into feed inlet regulates and controls, additionally it is possible to which realization pushes larger-sized plate, favorably In the using flexible degree and the scope of application that expand cutting machine.
Program structure is simply easily implemented, and just can be realized the adjustable sliding of pressing board 3 by adjusting screw rod 41, and can It can be realized the width dimensions in paper gap by the circle number or angle of regulation rotation adjusting screw rod 41, the program is advantageous In the flexible adjustment degree for improving pressing board 3, the scope of application of pressing board 3 is effectively expanded.
Even if regulation handle 42 is by rotating synchronously knot when regulation handle 42 is connect by limiting rotation structure 64 with pressing board 3 Structure is connect with adjusting screw rod 41, which can not also rotate under the restriction effect of limit rotation structure 64, and is adjusted in sliding Until regulation handle 42 can pass through when the limit rotation structure 64 between regulation handle 42 and pressing board 3 is detached from after section screw rod 41 Rotating synchronously structure drives adjusting screw rod 41 to rotate synchronously.The regulation handle 42 being arranged in the program can not only be by increasing ruler It is very little to increase torque, so that operator be facilitated to rotate adjusting screw rod 41, additionally it is possible to pass through limit rotation structure 64 in regulation handle 42 The maloperation for preventing from exchanging section screw rod 41 with pressing board 3 after connecting, avoids cutting machine during operation because accidentally touching adjusting Handle 42 and the width dimensions for having adjusted paper gap, to be unfavorable for the steady conveying of cardboard.It is needing to adjust paper gap Width dimensions when also only need to slide regulation handle 42, be detached from the limit rotation structure 64 between regulation handle 42 and pressing board 3, And regulation handle 42 can drive the rotation of adjusting screw rod 41 after connecting by synchronous rotation structure with adjusting screw rod 41.
It rotates synchronously structure and internal tooth 423 is turned with limit by synchronous internal tooth 422 and synchronous external tooth 431 respectively with limit rotation structure 64 Turn external tooth 31 with limit to realize, structure is simply easily implemented, and regulation handle 42 can not only be realized under the action of rotating synchronously structure With the synchronous rotation of adjusting screw rod 41, regulation handle 42 can be also limited under the action of limiting rotation structure 64 and is turned on pressing board 3 It is dynamic, it can more facilitate regulation handle 42 to switch connection structure during axially sliding.
The setting of reset spring 44 can ensure that cutting machine remains that limit turns external tooth 31 and limit turns during operation The engagement of internal tooth 423, it is ensured that regulation handle 42 can be turned to be connected on pressing board 3 by limit;And needing to rotate adjusting screw rod 41 When can make 44 forced compression of reset spring by way of sliding regulation handle 42, until limit turns external tooth 31 and limit turns internal tooth 423 It separates and synchronous internal tooth 422 is engaged with synchronous external tooth 431;And after rotateing in place, operator's revocation is fallen to act on The active force axially slid in regulation handle 42, regulation handle 42 can enable again limit turn outer under the elastic force effect of reset spring 44 Tooth 31 turns internal tooth 423 with limit and engages.
Synchronous gear connector 43 can be realized by connected nail rotates synchronously connection, which can not only facilitate synchronous gear Connector 43 is connected on adjusting screw rod 41, can more be cooperated with the step bulge loop being arranged on adjusting screw rod 41, be realized and adjust spiral shell Bar 41 is connect with the circumferential rotatable and axial restraint of pressing board 3, wherein the outer diameter ruler of synchronous gear connector 43 and step bulge loop It is very little to be all larger than on pressing board 3 for the perforative through-hole internal diameter of adjusting screw rod 41.The mode that pressure cap 45 can be connected through a screw thread connects It is connected to the end of synchronous gear connection, and by the pressing of reset spring 44 between pressure cap 45 and regulation handle 42.The structure is simple Easily implement, is not only convenient for its dismounting, regulation handle 42 can more be carried out by reset spring 44 stablizing pressing.
The setting of guide post 51 can drive and keep off paper by rotating the adjusting screw rod 41 being screwed onto guide post 51 The gear paper slide 32 that plate 3 is fixedly connected slides in guide post 51, and for realizing the height adjustment of pressing board 3, structure is simply easy Implement.
The length direction of crossbeam 5 should be parallel with the upper surface for setting plate platform 11, so as to realize pressing board 3 to set plate flat It is moved horizontally on platform 11, and fixation kit 52 can be used the bolt being bolted in guide post 51 and realize, be connected to cross at the top of bolt It can be realized when on beam 5 and guide post 51 be locked on crossbeam 5, the bolt for penetrating through guide post 51 can also be used in fixation kit 52 With the latch for being bolted in bolt end, latch sliding is connected on crossbeam 5, is provided on crossbeam 5 sliding for locking sliding block The opening of the sliding slot of shifting, sliding slot is passed through for bolt, and the opening size of sliding slot is less than the outer diameter of locking sliding block, avoids locking sliding Block is detached from out of sliding slot, and locking sliding block is connected to effective locking that guide post 51 can be realized in sliding slot by bolt by when locking It is fixed.Guiding slide 53 can be realized the directional-sliding on crossbeam 5, therefore can realize that orientation is slided around the lateral wall of crossbeam 5 It moves, and the limitation rotational structure can be the rib being set on the inner sidewall of guiding slide 53 and the lateral wall of crossbeam 5, i.e., guiding is slided It is rotated on crossbeam 5 at least provided with a seamed edge for restricted guidance slide 53 on seat 53 and crossbeam 5, which is conducive to mention Sliding degree of stability of the high guide post 51 on crossbeam 5, and then be conducive to improve the use degree of stability of pressing board 3.
Dise knife fission 611 and tool apron fission 621 central angle no more than 180 °, can abut end face 65 separate after diameter To slave cutting axis 69 on remove, without first cutting axis 69 is removed from cutting machine, then by the tool apron on cutting axis 69 Ontology 62 is skidded off from one end of cutting axis 69, and the program can be realized by fast assembling disassembling structure 66 by each dise knife fission 611 Or each tool apron fission 621 is fixedly connected into ring structure, and can cover on cutting axis 69, therefore can be to cutting axis 69 Upper any position is increased and decreased dise knife ontology 61 and tool apron ontology 62, substantially increases the dismounting convenience of dise knife and makes With, adjust degree of flexibility.
Wherein fast assembling disassembling structure 66 both may be provided on dise knife ontology 61, may also be arranged on tool apron ontology 62, may be used also It is configured on dise knife ontology 61 and tool apron ontology 62, if fast assembling disassembling structure 66 is arranged when on dise knife ontology 61, circle Knife ontology 61 realizes the fixation of surrounding of each dise knife fission 611 under the connection of fast assembling disassembling structure 66, then is realized by bolt Seperated with each tool apron 621 be fixedly connected, can be realized and carry out each tool apron fission 621 to surround fixation;If fast assembling-disassembling Structure 66 is arranged when on tool apron ontology 62, and tool apron ontology 62 realizes that each tool apron is seperated under the connection of fast assembling disassembling structure 66 621 surround fixation, then realizes that seperated with each dise knife 611 being fixedly connected by bolt, can be realized and divides each dise knife Body 611 carries out surrounding fixation;If be provided with fast assembling disassembling structure 66 on dise knife ontology 61 and tool apron ontology 62, each tool apron Fission 621 and each dise knife fission 611 surround fixation by the realization of fast assembling disassembling structure 66 respectively, then realize dise knife by bolt Ontology 61 is fixedly connected with tool apron ontology 62.
Dismounting through-hole 662 and dismounting screw hole 663 are respectively arranged at adjacent two dise knifes fission 611 or tool apron fission 621 On, it is spirally connected after dismounting through-hole 662 with dismounting screw hole 663 in the screw portion of assembling-disassembling bolt 661, assembling-disassembling bolt can be passed through 661 realize that adjacent two dise knifes fission 611 or tool apron fission 621 connect, which simply easily implements, not only convenient for disassembly and assembly, Can be realized dise knife ontology 61 and tool apron ontology 62, quickly dismounting is more advantageous to reduction processing cost, directly on cutting axis 69 It connects and processes dismounting through-hole 662 or dismounting screw hole 663 on dise knife fission 611 or tool apron fission 621.
Adjacent two dise knifes fission 611 or tool apron fission 621 can be realized the center of circle under the limitation of coaxial position limiting structure 67 Coaxially, therefore coaxial position limiting structure 67 can be conducive to improve seperated dise knife ontology 61 and tool apron ontology 62 in fast assembling-disassembling knot Structure 66 keeps good circularity after being encircled into ring structure, avoids it from surrounding part and generates bounce in 69 rotation process of cutting axis, Therefore coaxial position limiting structure 67 is conducive to improve the slow-roll stabilization degree of dise knife.Due to coaxial limiting slot 671 and together in the program The length direction of axis limited block 672 is arranged along the length direction of cutting axis 69, therefore two neighboring dise knife fission 611 or tool apron Fission 621 can realize that two dise knifes seperated 611 or tool apron are seperated by way of abutting with coaxial 672 width side of limited block 621 coaxial positioning.When assembling, after coaxial limited block 672 is embedded in coaxial limiting slot 671, make coaxial 672 width of limited block At least side be bonded with 671 side wall of coaxial limiting slot in insertion, then by two neighboring dise knife seperated 611 or tool apron fission 621 Abutting end face 65 be bonded, enable another for coaxial limited block 672 insertion 671 side of coaxial limiting slot can by with it is same The side of axis limited block 672 abuts the positioning for realizing two dise knife fissions 611 or tool apron fission 621, which simply easily implements, It can be conducive to improve the concentricity of dise knife ontology 61 or tool apron ontology 62 all parts after surrounding fixation, and operate letter Just, the disassembly efficiency of dise knife ontology 61 or tool apron ontology 62 is not influenced.
Dise knife ontology 61 is installed on tool apron ontology 62, is may be provided on the tool apron ontology 62 for pacifying for dise knife ontology 61 The mounting surface of dress is at same plane for realizing the cutting edge of each dise knife fission 611, and dise knife ontology 61 is cut It cuts sword and is able to maintain steady cutting in the rotation process of cutting axis 69, therefore when neat sword position limiting structure 68 is set to tool apron ontology It can be conducive to the mounting surface that tool apron ontology 62 constitutes said effect when on 62, and when neat sword position limiting structure 68 is set to dise knife sheet The cutting edge that can be used in limiting each dise knife fission 611 when on body 61 can be round and smooth join end to end, it is ensured that surround it is fixed after The cutting edge of each dise knife fission 611 be at same plane, to be conducive to improve dise knife cutting effect.In the program It is two neighboring due to the length direction of neat sword limiting slot 681 and Qi Ren limited block 682 being arranged radially along cutting axis 69 Dise knife fission 611 or tool apron fission 621 can be embedded in the neat sword limiting slot 681 of two sides by neat sword limited block 682 and realize two The positioned flush of a dise knife fission 611 or tool apron fission 621.When assembling, neat sword limited block 682 is embedded in sword limiting slot simultaneously After in 681, it is bonded neat 682 width two sides of sword limited block with neat 681 two sidewalls of sword limiting slot of insertion, then by two neighboring circle The abutting end face 65 of knife fission 611 or tool apron fission 621 is bonded, and neat sword limited block 682 is enabled to be embedded in another neat sword limit The positioning of two dise knife fissions 611 or tool apron fission 621 is realized in slot 681, which simply easily implements, and easy to operate, The disassembly efficiency of dise knife ontology 61 or tool apron ontology 62 is not influenced, additionally it is possible to be conducive to improve dise knife ontology 61 or tool apron ontology 62 In surround it is fixed after all parts firmness, avoid axial slide or vibration, it is ensured that surround it is fixed after each dise knife point The cutting edge of body 611 is at same plane, to be conducive to improve dise knife cutting effect.
Being embedded in keyway 641 by flat key 642 can be such that tool apron ontology 62 and dise knife ontology 61 rotates with cutting axis 69 And rotate synchronously, and the setting of positioning bolt can slide in tool apron ontology 62 and is against on flat key 642 in fact by screwing in afterwards in place Now tool apron ontology 62 is fixed on cutting axis 69, and the end of positioning bolt is pressed on flat key 642, and flat key 642 is embedding Enter in the keyway 641 on cutting axis 69, therefore positioning bolt will not generate damage to the lateral wall of cutting axis 69, which sets Count it is ingenious, be conducive to cutting axis 69 keep smooth lateral wall facilitate tool apron ontology 62 slide, be conducive to extend cutting axis 69 Service life.
Usual situation lower roller 14 is used for the conveying of assistant board, can be located at the feed inlet of cutting machine cutter device 6 And discharge outlet, and the opposite sides for being able to be connected to plate is arranged in pairs for assistant board conveying.Due to defeated It send roller 14 to be rotatably connected on installation sliding block 7, and the sliding of sliding block 7 is installed and is connected in rack 1, driving cylinder 8 can be used in Driving installation sliding block 7, come the spacing between two conveying rollers 14 being adjusted to pair, therefore can pass through in the setting position in rack 1 Limit adjusts component to regulate and control position of the installation sliding block 7 in rack 1, which can pass through installation 7 band of sliding block Move the horizontal straight skidding of whole conveying roller 14, can also by the both ends of conveying roller 14 be respectively arranged with installation sliding block 7 come The straight skidding of conveying roller 14 is driven, structure is simply easily implemented, and the regulation duration and regulation for advantageously reducing operator are wanted It asks, greatly reduces regulation difficulty, to be conducive to improve the working efficiency of cutting machine.
Adjusting block 83 is limited when with the conflict of cylinder body 81 when namely no limit adjusting gap 831, two pairs of conveyings 14 lateral wall of roller mutually abuts against, and forms limit when driving cylinder 8 with piston slide bar 82 to far from the side slip for installing sliding block 7 Position adjusts gap 831, drives limit adjusting block 83 by plate again after a plate insertion limit to be cut is adjusted in gap 831 Material clamps, and the spacing dimension between two conveying rollers 14 is clamped plate thickness size, that is, two conveying rollers at this time 14, which can hold plate, is effectively conveyed, which not only operates without manually carrying out many and diverse regulation Simplicity greatly reduces the regulation difficulty between two conveying rollers 14, can also greatly improve the regulation efficiency of conveying roller 14, in turn Be conducive to improve the working efficiency of cutting machine.
By screwing fastening bolt 834 for the gap of deformation slot 833 after in the end insertion spliced eye 832 of piston slide bar 82 It reduces, so that the inner sidewall by spliced eye 832 wraps the clamping of piston slide bar 82, realizes the company of being detachably fixed of the two It connects, which can be realized limit adjusting block 83 and carry out axial fine tuning on piston slide bar 82, and then convenient for two conveying rollers of regulation 14 can also need after being held between limit adjusting block 83 and cylinder body 81 such as plate for unlike material or the plate of different-thickness When enhancing the chucking power between two conveying rollers 14, limit adjusting block 83 is finely adjusted to far from installation 7 side of sliding block, Ji Ketong The clamping conveying capacity for reducing the spacing between two conveying rollers 14 to improve conveying roller 14 to plate is crossed, on the contrary then reverse operating is Can, to be conducive to expand the using flexible degree and the scope of application of cutting machine.
Rolling bearing 71 is provided with the rotation degree of flexibility for being conducive to improve conveying roller 14, and will be turned by limit clip 72 Dynamic bearing 71 is limited in installation sliding block 7 disengaging that can effectively avoid rolling bearing 71.
Installation sliding block 7 can be used for that two pieces of installation sliding blocks 7 also can be set and supply for a pairs of conveying roller 14 rotation connection Pairs of two conveying rollers 14 rotation connection, difference place are that a kind of mode is that only a conveying roller 14 can be in rack 1 Sliding, and another way is that two conveying rollers 14 can slide in rack 1, and drive the drive of two conveying rollers 14 rotation Power can realize that wherein any one gear can be with electricity by driven gear 141 and driving gear 15 and mate gear 16 Machine transmission connection can realize rotating backward for two conveying rollers 14 by the transmitting of driving gear 15 and mate gear 16.And And two driven gears 141 are rotated backward by driving gear 15 and the realization of mate gear 16 respectively, and two driven gears 141 Between but connected without engagement, therefore even if conveying roller 14 slide in rack 1 after only need to drive gear 15 or mate gear 16 It realizes that the reversion between two driven gears 141 can be realized in engagement, and drives the central axis and mate gear 16 of gear 15 Central axis locating for plane locating for central axis of the plane with two driven gears 141 be arranged in parallel, therefore even if driven tooth Wheel 141 has the thickness an of plate to adjust, and changes also minimum, Bu Huiying with the spacing dimension of driving gear 15 or mate gear 16 The engaged transmission of driving gear 15 or mate gear 16 and driven gear 141 is rung, therefore the gear set of above structure can not only It realizes rotating backward for two driven gears 141, while also can be realized after two conveying rollers 14 adjust spacing and driving its rotation, Smart structural design.
The waste material that plate cuts back side edge through cutter device 6 enters waste material import 91 under the guidance of waste material guide structure It is interior, so as to which continuous strip or plate or blocky waste material are chopped into fritter by crushed aggregates device 9, finally in the work of gravity It is discharged under from waste outlet 92, not only facilitates and waste material is compiled, while also effectively waste material can be avoided to machine Normal operation generate obstruction, thus be conducive to improve cutting machine service life;Furthermore mistake of the crushed aggregates device 9 in processing waste material It will not influence the normal use of cutting machine in journey, without shutting down cleaning, be conducive to the working efficiency for improving cutting machine.
Two particle hobboing cutters 94 for capableing of mutual phase reversal should be located at the middle part of crushed aggregates device 9, pass through in its rotation process The waste material fallen into crushed aggregates device 9 is cut into fritter by the particle cutting edge 941 of abutting, the crushed aggregates device 9 structure letter of the structure It is single easily to implement, and processing is low with the cost used, is rotated backward by two particle hobboing cutters 94 of particle driver drives Realize the cutting to waste material, and the fragment size of waste material can be by selecting different 941 spacing of particle cutting edge to realize, it can root The particle hobboing cutter 94 of different 941 spacing of particle cutting edge is selected to carry out cutting waste material according to actual needs, it is applied widely.
Particle motor and particle hobboing cutter 94 are sequentially connected, and the particle driving wheel 95 between two particle hobboing cutters 94 can pass through The gear being arranged on particle hobboing cutter 94 realizes that the gear is circumferentially fixed in 94 end of particle hobboing cutter, and is coaxially disposed, two Two gears on particle hobboing cutter 94 intermesh, and can pass through during particle motor drives a particle hobboing cutter 94 rotation Particle driving wheel 95 drives another particle hobboing cutter 94 to rotate backward, and realizes the cutting to waste material, and structure is simply easily implemented.
Since cutting machine needs to cut the plate of different width dimensions, by the sliding connection of crushed aggregates device 9 It is arranged in rack 1, can facilitates and crushed aggregates device 9 is placed in corresponding plate side, then can be incited somebody to action by particle locking structure 96 Crushed aggregates device 9 is fixed in rack 1, just can be improved the degree that firmly installs of crushed aggregates device 9, and then accurately fall into convenient for waste material In waste material import 91, to be conducive to improve the using flexible degree and the scope of application of cutting machine.It is provided with and is used in rack 1 For the particle sliding rail 13 of 9 directional-sliding of crushed aggregates device, the particle that sliding is connected on particle sliding rail 13 is provided on crushed aggregates device 9 The length direction of sliding block 97, the length direction and particle hobboing cutter 94 of particle sliding rail 13 is consistent;Crushed aggregates device 9 is sliding by particle Rail 13 and the sliding of particle sliding block 97 are connected in rack 1, which simply easily implements, and the sliding convenient for raising crushed aggregates device 9 is steady Determine degree.Crushed aggregates device 9 is slid in rack 1 by particle sliding rail 13 and particle sliding block 97 and is in place afterwards revolved locking bolt 962 It abuts when tight with locking plate 961, crushed aggregates device 9 is fixed in rack 1 to realize, which simply easily implements, and also It can be provided with operation handle on locking bolt 962, be easy to implement the operation of the rotation to locking bolt 962.
Discard transfer apparatus 99 may include the waste material for having waste material carriage and being rotatably connected on waste material carriage length both ends Live-roller and the scrap web being tensioned on two waste material live-rollers and for drive waste material live-roller rotate waste material Motor, two crushed aggregates devices 9 can the waste material respectively to 6 two sides of cutter device carry out concentration cutting, and two crushed aggregates devices 9 will Waste material is each fallen in scrap web after being cut into fritter, then drives the small lump waste materials in scrap web defeated via waste material motor It is sent to 1 side of rack, facilitates the concentration and processing realized to waste material.
Particle motor during driving sliding main shaft 98 to rotate can synchronous drive particle hobboing cutter 94 thereon rotate, And the particle hobboing cutter 94 during sliding in rack 1 of crushed aggregates device 9 can slide on sliding main shaft 98, which can not only Two particle hobboing cutters 94 rotation of two crushed aggregates devices 9 is enough driven by a particle motor and a sliding main shaft 98, moreover it is possible to It enough realizes sliding of two crushed aggregates devices 9 in rack 1, therefore smart structural design, is also beneficial to reduce to particle motor etc. The quantity demand of accessory.
Waste material guide structure includes waste material directing plate 93, and 93 one end of waste material directing plate is higher than 6 discharge outlet of cutter device Level height, the other end to waste material import 91 be extended.Waste material directing plate 93 can be mounted on crushed aggregates device 9 by mounting rack Waste material import 91 at, and from the discharge outlet of cutter device 6 stretch out waste material just can edge after abutting waste material directing plate 93 Its length direction slides downwards, until sliding into the waste material import 91 of crushed aggregates device 9, the guidance of the waste material directing plate 93 to waste material Effect is good, and can improve the guidance effect to waste material by widening the width dimensions of waste material directing plate 93 and guide steady Determine degree.
Above are merely preferred embodiments of the utility model, the protection scope of the utility model is not limited merely to above-mentioned Embodiment, technical solution belonging to the idea of the present invention belong to the protection scope of the utility model.It should be pointed out that pair For those skilled in the art, several improvements and modifications without departing from the principle of the utility model, These improvements and modifications also should be regarded as the protection scope of the utility model.

Claims (10)

1. a kind of cutting machine, including organic frame (1) and be arranged on rack (1) for feedboard bank up set plate platform (11), And the cutter device (6) on rack (1) for being cut to plate is set, described set plate platform (11) are located at cutting dress The feed end of (6) is set, the cutter device (6) includes that the cutting axis (69) being rotatably connected on rack (1) and setting are being cut The dise knife ontology (61) on axis (69) is cut, sets that be provided on plate platform (11) can be by cardboard from cardboard heap it is characterized in that: described Bottom push-in cutter device (6) feed end in plate pusher structure (2), the plate pusher structure (2) include sliding It is connected to and sets the push plate block on plate platform (11) (21) and be arranged on rack (1) for driving push plate block (21) are mobile to push away Plate driving assembly (22), the push plate block (21) is setting the feedstock direction that the glide direction on plate platform (11) is cardboard, described Abutting pushing surface (2121) of the cardboard far from rack (1) feed end side can be connected to by being provided on push plate block (21), and push plate is driven Dynamic component (22) during driving push plate block (21) to rack (1) one side slip of feed end, when cardboard heap bottom side energy After being enough pushed in cutter device (6) feed end with the cardboard for abutting pushing surface (2121) abutting, push plate driving assembly (22) is again Drive push plate block (21) to far from one side slip of rack (1) feed end;
It is additionally provided on the rack (1) for stopping not by abutting pushing surface (2121) push-in cutter device (6) feed end Pressing board (3), the pressing board (3), which is located at, sets the tops of plate platform (11), and pressing board (3) and sets between plate platform (11) There are what feedboard slipped over to cross paper gap, and pressing board (3) sliding is connected on rack (1), and pressing board (3) is in rack (1) glide direction on is to be provided on the rack (1) for adjusting pressing board (3) close to or far from setting plate platform (11) The gear paper that distance sets the spacing of plate platform (11) adjusts component (4);
The dise knife ontology (61) and cutting axis (69) split settings are provided on the cutting axis (69) for by dise knife ontology (61) the tool apron ontology (62) being installed on cutting axis (69), tool apron ontology (62) sliding are connected on cutting axis (69), Glide direction of the tool apron ontology (62) on cutting axis (69) is the length direction of cutting axis (69), the tool apron ontology (62) and/or on cutting axis (69) it is provided with and tool apron ontology (62) is fixed on cutting axis afterwards in place in tool apron ontology (62) sliding (69) location structure (63) on is provided with for for tool apron ontology on the tool apron ontology (62) and/or cutting axis (69) (62) the limit rotation structure (64) that can be rotated with the rotation of cutting axis (69), the dise knife ontology (61) and tool apron ontology (62) it is detachably fixed connection.
2. a kind of cutting machine according to claim 1, it is characterized in that: the upper surface of the push plate block (21) be provided with it is not high The first work surface is protruded from being provided in the first work surface (211) for setting plate platform (11) upper surface, the push plate block (21) (211) abutting pushing block (212), the abutting pushing surface (2121), which is located at, to be abutted on pushing block (212) towards the side of cardboard, described Push plate block (21) is provided with that abut pushing block (212) protrusion the first work surface (211) high for adjusting with abutting between pushing block (212) Component (213) are turned up in the pushing block of degree;
Abut pushing block (212) are wholely set far from the side for abutting pushing surface (2121) with push plate block (21), and the abutting pushes away It is provided between block (212) and push plate block (21) deformation gap (214), it includes to be bolted in that component (213), which are turned up, in the pushing block Height-regulating bolt (2131) on push plate block (21), the height-regulating bolt (2131) include after capable of passing through abutting pushing block (212) The height-regulating screw rod that is spirally connected with push plate block (21) and it can be pressed on the height-regulating nut abutted on pushing block (212), the abutting pushing block (212) it is provided on for for the perforative height-regulating through-hole (2122) of screw rod is turned up;It further includes having that component (213), which are turned up, in the pushing block It is bolted in the height-regulating screw (2132) abutted on pushing block (212), is provided on the abutting pushing block (212) for for screw is turned up (2132) the height-regulating threaded hole (2123) being spirally connected, the height-regulating threaded hole (2123) are arranged through pushing block (212) are abutted.
3. a kind of cutting machine according to claim 2, it is characterized in that: sliding is connected with for for pushing away in the rack (1) Plate (21) installation sliding mounting plate (23), the push plate block (21) be provided with it is multiple and with sliding mounting plate (23) can Disassembly is fixedly connected, and is provided on the rack (1) for the first slide bar (12) for sliding mounting plate (23) sliding connection, institute It states the first slide bar (12) and is provided with two, two first slide bars (12) are arranged in parallel and are located at rack (1) width two sides, Push plate driving assembly (22) is able to drive sliding mounting plate (23) and slides along its length on the first slide bar (12);
The push plate driving assembly (22) includes the push plate driving spindle (221) being rotatably connected on rack (1) and for band The push plate driving motor (222) of dynamic push plate driving spindle (221) rotation and the output end of one end and push plate driving motor (222) First actuating arm (223) and one end of the eccentric hinged other end and push plate driving spindle (221) rotation connection and push plate drive Main shaft (221) is rotatablely connected the other end and slides the second actuating arm (224) of mounting plate (23) rotation connection, push plate driving motor (222) can pass through during driving push plate driving spindle (221) positive and negative rotation by the first actuating arm (223) of eccentric connection Second actuating arm (224) drives sliding mounting plate (23) on the first slide bar (12) toward polyslip.
4. a kind of cutting machine according to claim 1, it is characterized in that: it includes to be bolted in that the gear paper, which adjusts component (4), Adjusting screw rod (41) in rack (1) and/or pressing board (3), the length direction of the adjusting screw rod (41) and pressing board (3) exist Glide direction in rack (1) is consistent;When adjusting screw rod (41) is threadedly coupled with rack (1), the adjusting screw rod (41) it is connect with the circumferential rotatable and axial restraint of pressing board (3), or when adjusting screw rod (41) are threadedly coupled with pressing board (3) When, the adjusting screw rod (41) connect with the circumferential rotatable and axial restraint of rack (1), or works as adjusting screw rod (41) and rack (1) when and pressing board (3) is threadedly coupled, adjusting screw rod (41) is able to drive pressing board (3) in rack in rotation process (1) it is slid on;
The regulation handle (42) that outer diameter is greater than adjusting screw rod (41), the adjusting hand are provided on the adjusting screw rod (41) Handle (42) and adjusting screw rod (41) split settings, and axially sliding is connected on adjusting screw rod (41) regulation handle (42), institute It states and is provided with synchronous rotation structure between regulation handle (42) and adjusting screw rod (41), the regulation handle (42) and pressing board (3) the limit rotation structure (64) for limiting regulation handle (42) rotation is provided between;When regulation handle (42) is in adjusting screw rod (41) slid on can by rotate synchronously structure be connect with adjusting screw rod (41) when, regulation handle (42) is able to drive adjusting Screw rod (41) rotate synchronously, when regulation handle (42) slid on adjusting screw rod (41) can by limit rotation structure (64) and gear When cardboard (3) connects, regulation handle (42) being capable of being connected on pressing board (3) by limitation rotation;
The regulation handle (42) is located at one end on adjusting screw rod (41) far from rack (1), sets on the regulation handle (42) It is equipped with for the jack (421) for adjusting screw rod (41) grafting, the synchronous rotation structure includes to surround to be set to jack (421) several synchronous internal tooths (422) on inner sidewall and setting can nibble on adjusting screw rod (41) with synchronous internal tooth (422) Several synchronous external tooths (431) closed, regulation handle (42) can be by the synchronization internal tooths (422) of engagement and same in rotation process It walks external tooth (431) and drives adjusting screw rod (41) rotation;The synchronous external tooth (431) is located at adjusting screw rod (41) across pressing board (3) on the end lateral wall after, limit rotation structure (64) includes around several limits being set on jack (421) inner sidewall Turn internal tooth (423) and be fixed on pressing board (3) several limits that internal tooth (423) engages can be turned with limit turn external tooth (31), Regulation handle (42) on adjusting screw rod (41) in axial slipping when limit turns external tooth (31) and turns internal tooth (423) with limit to separate, And synchronous internal tooth (422) are able to drive adjusting screw rod (41) together with rotation regulation handle (42) after synchronous external tooth (431) engagement Step rotation;
Set is provided with for realizing that limit turns external tooth (31) and limit turns by pressing regulation handle (42) on the adjusting screw rod (41) Internal tooth (423) can remain the reset spring (44) of engagement, and described reset spring (44) one end is worn with adjusting screw rod (41) The end abutment of handle (42) is overregulated, the other end is abutted with regulation handle (42), pushes regulation handle (42) in adjusting screw rod (41) reset spring (44) forced compression during axially being slid on until limit turn external tooth (31) and limit turn internal tooth (423) can Separation, synchronous internal tooth (422) can be engaged with synchronous external tooth (431).
5. a kind of cutting machine according to claim 4, it is characterized in that: being arranged in the rack (1) useful for pressing board (3) The guide post (51) of connection is slid, be provided on the pressing board (3) the gear paper of directional-sliding can slide on guide post (51) Seat (32) is provided with for limiting gear paper slide (32) in guide post (51) between the gear paper slide (32) and guide post (51) The limitation rotational structure of upper rotation, the adjusting screw rod (41) with guide post (51) by being spirally connected being spirally connected of realization and rack (1); It is provided on the rack (1) for the crossbeam (5) for guide post (51) horizontal sliding on setting plate platform (11), the guiding Be provided on column (51) can locking be fixed on fixation kit (52) on crossbeam (5);Energy is provided on the guide post (51) The guiding slide (53) of enough directional-slidings on crossbeam (5), is provided between the guiding slide (53) and crossbeam (5) for limiting The limitation rotational structure that system guiding slide (53) rotates on crossbeam (5).
6. a kind of cutting machine according to claim 1, it is characterized in that: the dise knife ontology (61) includes several dise knifes point Body (611), each dise knife seperated (611) abuts from beginning to end can surround the dise knife ontology (61) circularized, and the dise knife is seperated (611) central angle is no more than 180 °;The tool apron ontology (62) includes that several tool aprons are seperated (621), each tool apron point Body (621) abuts from beginning to end can surround the tool apron ontology (62) circularized, and the central angle of the tool apron seperated (621) is little In 180 °, the two ends of the dise knife seperated (611) and/or tool apron seperated (621) are provided with for dividing with adjacent dise knife The abutting end face (65) that body (611) and/or tool apron seperated (621) abut;Two neighboring dise knife seperated (611) and/or tool apron point The head and the tail junction of body (621) is provided with for connecting two neighboring dise knife seperated (611) and/or tool apron seperated (621) Fast assembling disassembling structure (66);The fast assembling disassembling structure (66) include assembling-disassembling bolt (661) and be set to a dise knife fission (611) and/or on tool apron seperated (621) for for assembling-disassembling bolt (661) the perforative dismounting through-hole (662) of screw portion and It is set on another dise knife seperated (611) and/or tool apron seperated (621) for being spirally connected for the screw portion of assembling-disassembling bolt (661) Dismounting screw hole (663), the dismounting through-hole (662) and dismounting screw hole (663) are seperated in dise knife seperated (611) and/or tool apron (621) coaxial arrangement when being encircled into ring structure;
The head and the tail junction of two neighboring dise knife seperated (611) and/or tool apron seperated (621) is provided with for limiting each circle The coaxial position limiting structure (67) that each center of circle of knife fission (611) and/or tool apron seperated (621) after surrounding can be coaxially disposed; The coaxial position limiting structure (67) includes to be set to the coaxial limiting slot (671) abutted on end face (65) and can be embedded in same Coaxial limited block (672) in axis limiting slot (671), the length side of the coaxial limiting slot (671) and coaxial limited block (672) To along the length direction setting of cutting axis (69), the coaxial limited block (672) at least width side and coaxial limiting slot (671) side is bonded setting;
The head and the tail junction of two neighboring tool apron seperated (621) is provided with for limiting each tool apron seperated (621) in surrounding Afterwards for being at same plane, and/or adjacent for the mounting surface of dise knife seperated (611) installation on each tool apron seperated (621) The head and the tail junction of two dise knife fissions (611) is provided with for limiting each dise knife seperated (611) in surrounding rear each dise knife The cutting edge of seperated (611) is at conplane neat sword position limiting structure (68);The neat sword position limiting structure (68) includes Have and is set to the neat sword limiting slot (681) abutted on end face (65) and the neat sword that can be embedded in neat sword limiting slot (681) limit Radial direction of the length direction of block (682), the neat sword limiting slot (681) and neat sword limited block (682) along cutting axis (69) is set It sets, the width dimensions of the neat sword limited block (682) are adapted with the width dimensions of Qi Ren limiting slot (681).
7. a kind of cutting machine described in any one of -6 according to claim 1, it is characterized in that: the company of rotation in the rack (1) It is connected to the conveying roller (14) for paperboard conveying, straight skidding is connected with for rotating for conveying roller (14) on the rack (1) The installation sliding block (7) of connection is provided on the rack (1) for driving the driving installing sliding block (7) and sliding on rack (1) Cylinder (8), driving cylinder (8) include the cylinder body (81) being mounted on rack (1) and through cylinder body (81) opposite end Piston slide bar (82), the glide direction of the length direction of the piston slide bar (82) and installation sliding block (7) on rack (1) protects It holds unanimously, described piston slide bar (82) one end is connect with installation sliding block (7), and the other end extends outwardly simultaneously after penetrating through cylinder body (81) And the limit for being provided with the sliding stroke for limiting piston slide bar (82) push installation sliding block (7) adjusts component;
It includes the limit adjusting block for being set to the end of piston slide bar (82) far from installation sliding block (7) that the limit, which adjusts component, (83), there are can be used in regulating and controlling piston slide bar (82) push installation sliding block between the limit adjusting block (83) and cylinder body (81) (7) limit of sliding stroke adjusts gap (831).
8. a kind of cutting machine described in any one of -6 according to claim 1, it is characterized in that: being provided in the rack (1) The strip waste material being cut into from cutter device (6) can be cut into the crushed aggregates device (9) of fritter, the crushed aggregates device (9) It include the waste material import (91) positioned at cutter device (6) side and the waste outlet (92) below feed inlet, it is described useless It is provided with the waste material guide structure that waste material can be inducted into waste material import (91) at material import (91), through cutter device (6) Cut formed waste material under the guidance of waste material guide structure from waste material import (91) enter crushed aggregates device (9) in shredded after It is dropped out from waste outlet (92).
9. a kind of cutting machine according to claim 8, it is characterized in that: being rotatably connected to two in the crushed aggregates device (9) Particle hobboing cutter (94) parallel to each other is surrounded with particle cutting edge on the outer circumferential wall of the particle hobboing cutter (94) (941), the particle cutting edge (941) on two particle hobboing cutters (94) abuts setting;The crushed aggregates device (9) further includes being used for Two counter-rotational particle drivers of particle hobboing cutter (94) are driven, two particle hobboing cutters (94) of particle driver drives reversely turn The waste material fallen into crushed aggregates device (9) can be cut into fritter by the particle cutting edge (941) of abutting in dynamic process;
The particle driver includes the particle motor and transmission connection for driving any one particle hobboing cutter (94) rotation Particle driving wheel (95) between two particle hobboing cutters (94), during particle motor drives a particle hobboing cutter (94) to rotate forward Another particle hobboing cutter (94) can be driven to invert simultaneously by the particle driving wheel (95) of transmission connection.
10. a kind of cutting machine according to claim 9, it is characterized in that: the crushed aggregates device (9) sliding is connected to rack (1) on, glide direction of the crushed aggregates device (9) on rack (1) is the length direction of particle hobboing cutter (94), crushed aggregates device (9) position that crushed aggregates device (9) is located at cutter device (6) side can be regulated and controled during sliding on rack (1), it is described broken Being provided between material device (9) and rack (1) can be by the securing particle locking structure (96) of crushed aggregates device (9) locking;Institute The particle sliding rail (13) being provided on rack (1) for for crushed aggregates device (9) directional-sliding is stated, is set on the crushed aggregates device (9) It is equipped with the particle sliding block (97) that sliding is connected on particle sliding rail (13), the length direction and particle of the particle sliding rail (13) roll The length direction of knife (94) is consistent;
The particle locking structure (96) includes the locking plate (961) being arranged on rack (1) and can pass through locking plate (961) locking bolt (962) being spirally connected afterwards with crushed aggregates device (9) is provided with for for locking bolt on the locking plate (961) (962) the locking sliding slot (9611) that screw portion passes through, the length direction of the locking sliding slot (9611) and locking plate (961) It is consistent with the length direction of particle hobboing cutter (94);
There are two crushed aggregates device (9) settings, and two crushed aggregates devices (9) are located at opposite the two of cutter device (6) Waste outlet (92) lower section of side, two crushed aggregates devices (9) is provided with the conveying of the waste material for accepting and can convey waste material Device (99);
The sliding master that connection and circumferentially fixed connection are axially slid with particle hobboing cutter (94) is rotatably connected on the rack (1) Axis (98), the particle motor and sliding main shaft (98) transmission connection, particle motor is in the mistake for driving sliding main shaft (98) rotation It is able to drive the particle hobboing cutter (94) being coaxially arranged in journey to rotate synchronously, the mistake that crushed aggregates device (9) slides on rack (1) Particle hobboing cutter (94) can slide along its length in sliding main shaft (98) in journey.
CN201822149046.6U 2018-12-20 2018-12-20 A kind of cutting machine Expired - Fee Related CN209289378U (en)

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110497453A (en) * 2019-08-29 2019-11-26 广东雅太郎实业有限公司 Slicing device is used in a kind of production of ginger sugar
CN110666877A (en) * 2019-09-03 2020-01-10 宁德市国鑫印刷机械有限公司 Paper pushing device of paper cutting equipment
CN112974954A (en) * 2021-01-26 2021-06-18 安兵 Cutting device for machining high-rise steel structure
CN113152060A (en) * 2021-01-29 2021-07-23 浙江大学山东工业技术研究院 Automatic processing system of non-woven fabrics for protective product
CN114434515A (en) * 2022-04-11 2022-05-06 美氟新材料科技(常州)有限公司 From type membrane crease-resistance system device of rolling up that cuts
CN116748586A (en) * 2023-08-04 2023-09-15 广东威恳电磁材料有限公司 Waste treatment mechanism of silicon steel sheet shearing machine
CN116852427A (en) * 2023-07-11 2023-10-10 浙江赛力智能制造有限公司 Feeding cutting mechanism and paperboard dividing and cutting machine

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110497453A (en) * 2019-08-29 2019-11-26 广东雅太郎实业有限公司 Slicing device is used in a kind of production of ginger sugar
CN110666877A (en) * 2019-09-03 2020-01-10 宁德市国鑫印刷机械有限公司 Paper pushing device of paper cutting equipment
CN112974954A (en) * 2021-01-26 2021-06-18 安兵 Cutting device for machining high-rise steel structure
CN112974954B (en) * 2021-01-26 2022-08-26 河南郑通钢结构有限公司 Cutting device for machining high-rise steel structure
CN113152060A (en) * 2021-01-29 2021-07-23 浙江大学山东工业技术研究院 Automatic processing system of non-woven fabrics for protective product
CN113152060B (en) * 2021-01-29 2023-02-28 浙江大学山东工业技术研究院 Automatic processing system of non-woven fabrics for protective product
CN114434515A (en) * 2022-04-11 2022-05-06 美氟新材料科技(常州)有限公司 From type membrane crease-resistance system device of rolling up that cuts
CN116852427A (en) * 2023-07-11 2023-10-10 浙江赛力智能制造有限公司 Feeding cutting mechanism and paperboard dividing and cutting machine
CN116748586A (en) * 2023-08-04 2023-09-15 广东威恳电磁材料有限公司 Waste treatment mechanism of silicon steel sheet shearing machine
CN116748586B (en) * 2023-08-04 2023-12-26 广东威恳电磁材料有限公司 Waste treatment mechanism of silicon steel sheet shearing machine

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