CN212666276U - Paper-plastic product edge trimmer - Google Patents

Paper-plastic product edge trimmer Download PDF

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Publication number
CN212666276U
CN212666276U CN202020868274.3U CN202020868274U CN212666276U CN 212666276 U CN212666276 U CN 212666276U CN 202020868274 U CN202020868274 U CN 202020868274U CN 212666276 U CN212666276 U CN 212666276U
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China
Prior art keywords
paper
placing
frame
material taking
discharging
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CN202020868274.3U
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Chinese (zh)
Inventor
潘耀华
王朱枫
陈维民
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Zhejiang Shurcon Technology Co ltd
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Zhejiang Shurcon Technology Co ltd
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Priority to CN2019219854810 priority
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Abstract

A paper-plastic product edge trimmer comprises a rack and a punching device, wherein the punching device is positioned on the rear side of the middle part of the rack; the punching die is arranged on punching equipment; the feeding line is used for conveying the paper-plastic products which are not punched to the output end of the feeding line; the material moving mechanism is positioned at the output end of the material feeding line and supports the paper and plastic products which are not punched and output by the material feeding line and moves towards one end far away from the material feeding line; the lifting mechanism is used for supporting the paper-plastic product which is not punched and transferred by the material transfer mechanism and vertically lifting the paper-plastic product which is not punched upwards to a set height position; the material taking and placing mechanical arm reciprocates in the horizontal direction and is horizontally connected with the rack in a sliding manner, and the material taking and placing mechanical arm obtains and transfers the paper-plastic product which is not punched and placed on the lifting mechanism to a punching die; and the material receiving and discharging mechanical arm moves in a reciprocating manner in the horizontal direction and is horizontally and slidably connected with the rack, and the material receiving and discharging mechanical arm obtains and transfers the punched paper-plastic product and the punched leftover waste material to the outside of the punching die at the same time.

Description

Paper-plastic product edge trimmer
Technical Field
The utility model belongs to the technical field of the plant fiber product side cut, especially, relate to a paper plastic products bead cutter.
Background
Plant fiber products, namely, pulp molded products, such as cup lids and containers, and the like.
The pulp molded product formed by extrusion and hot pressing needs to be cut off the reserved margin, and a special die is generally adopted for cutting off the margin during cutting off. For example, chinese patent discloses a pulp moulding goods side cut device, application number 2018205745654, including last mould and lower mould, it forms the appearance chamber that has certain volume to go up mould and lower mould compound die, the week side that lies in the appearance chamber on the lower mould is provided with a cutter that encircles the appearance chamber, the periphery side that lies in the cutter on the lower mould is provided with the low groove that is used for holding wastepaper and leftover bits, its characterized in that: an annular groove is formed in the periphery of the upper die, located in the containing cavity, and the cutter abuts against the side edge of the annular groove.
This prior art trimming device, which can meet the production requirements, however, has such drawbacks: wear of the cutter requires replacement of the entire integrated die component, resulting in higher costs and, at the same time, relatively difficult removal of such die components.
Secondly, the whole trimming production efficiency is low, so that the requirement of large-batch production capacity cannot be met.
SUMMERY OF THE UTILITY MODEL
The utility model aims at the above-mentioned problem, a paper plastic products bead cutter that can solve above-mentioned technical problem is provided.
In order to achieve the above purpose, the utility model adopts the following technical proposal: this paper plastic products bead cutter includes the frame, still includes:
the punching equipment is positioned on the rear side of the middle part of the rack;
the punching die is arranged on punching equipment;
the feeding line is used for bearing the paper-plastic products which are not subjected to die cutting and conveying the paper-plastic products which are not subjected to die cutting to the output end of the feeding line;
the material moving mechanism is positioned at the output end of the material feeding line and supports the paper and plastic products which are not punched and output by the material feeding line and moves towards one end far away from the material feeding line;
the lifting mechanism is used for supporting the paper-plastic product which is not punched and transferred by the material transfer mechanism and vertically lifting the paper-plastic product which is not punched upwards to a set height position;
the material taking and placing mechanical arm reciprocates in the horizontal direction and is horizontally connected with the rack in a sliding manner, and the material taking and placing mechanical arm obtains and transfers the paper-plastic product which is not punched and placed on the lifting mechanism to a punching die;
the material receiving and discharging mechanical arm moves in a reciprocating mode in the horizontal direction and is horizontally and slidably connected with the rack, the paper-plastic product and the punching residual edge waste after punching processing are simultaneously obtained and transferred to the outside of the punching die by the material receiving and discharging mechanical arm, and the punching residual edge waste and the paper-plastic product are sequentially released by the material receiving and discharging mechanical arm.
The optimization scheme, the frame front side be equipped with a horizontal metal sheet, get material manipulator and horizontal metal sheet horizontal sliding connection, receive and release material manipulator and horizontal metal sheet horizontal sliding connection, get to be equipped with on the material manipulator and be close to the horizontal metal sheet one side get and release material magnetic suspension driving motor, receive and release to be equipped with on the material manipulator and be close to the receipt and release material magnetic suspension driving motor of horizontal metal sheet one side.
According to the technical scheme, the material taking and placing manipulator comprises a material taking and placing sliding seat which is horizontally and slidably connected with a transverse metal plate, the material taking and placing sliding seat is cylindrical and vertically distributed, the L-shaped material taking and placing frame is arranged, the vertical section of the L-shaped material taking and placing frame is vertically and slidably connected with the material taking and placing sliding seat, the horizontal section of the L-shaped material taking and placing frame is connected with a plurality of material taking and placing suckers, and the lower end of the material taking and placing sliding seat is connected with a material taking and placing lifting driving device which is connected with the lower end of the vertical section.
According to the optimization scheme, the transverse section of the material taking and placing sliding seat is C-shaped, a first vertical guide plate is arranged at the opening of the material taking and placing sliding seat, a vertical section of the L-shaped material taking and placing frame is connected with a first annular material taking and placing slide block, the first annular material taking and placing slide block sleeve is arranged on the first vertical guide plate and is in vertical sliding connection with the first vertical guide plate, the material taking and placing lifting driving device comprises a material taking and placing servo motor fixed at the lower end of the material taking and placing sliding seat, the material taking and placing servo motor is connected with the first annular material taking and placing slide block through a first lead screw transmission structure, and the first lead screw transmission structure.
The material receiving and discharging manipulator comprises a material receiving and discharging sliding seat which is horizontally and slidably connected with a transverse metal plate, the material receiving and discharging sliding seat is cylindrical and vertically distributed, an L-shaped material receiving and discharging frame is arranged, a vertical section of the L-shaped material receiving and discharging frame is vertically and slidably connected with the material receiving and discharging sliding seat, a plurality of product material taking suckers and a plurality of waste material taking suckers are connected to the horizontal section of the L-shaped material receiving and discharging frame, and a material receiving and discharging lifting driving device connected with the lower end of the vertical section of the L-shaped material receiving and discharging frame is connected to the lower end of the material receiving and discharging sliding seat.
The optimization scheme, receive and release material sliding seat transverse section be C shape, be equipped with vertical deflector two at the opening part of receiving and releasing material sliding seat, the vertical section of L shape receiving and releasing material frame is connected with the annular and receives the blowing slider, the annular is received and is released the blowing slider cover and establish on vertical deflector two and with two vertical sliding connection of vertical deflector, receive and release material lift drive including fixing at the receiving and releasing material servo motor of receiving and releasing material sliding seat lower extreme, receive and release material servo motor and receive and release the blowing slider through lead screw drive structure two and be connected with the annular to lead screw drive structure two is located between receiving and releasing material sliding seat and the vertical deflector two.
According to the optimization scheme, the punching equipment is any one of a punch press and a hydraulic press; the material conveying line is a belt type material conveying line.
According to the optimized scheme, the punching die comprises a lower template which is horizontally distributed, and at least one paper-plastic product positioning male die is arranged on the upper surface of the lower template;
the upper knife frame is positioned right above the lower die plate, and product accommodating through holes I which correspond to the paper-plastic product positioning male dies one to one are formed in the upper knife frame;
the edge cutting tool is annular and is fixed on the upper tool frame through a detachable mechanism and is positioned on the outer side of the product accommodating through hole.
The optimized scheme is that the detachable mechanism comprises a cutter positioning groove arranged on the lower surface of an upper cutter frame, the edge cutting tools are arranged in the cutter positioning groove, and the cutting edges of the edge cutting tools face downwards and are located below lower notches of the cutter positioning groove.
According to the optimized scheme, a plurality of circular arc-shaped through holes which are uniformly distributed in the circumference are formed in the bottom of the cutter positioning groove, and a positioning part for positioning the upper side of the beveling cutter is formed between every two adjacent circular arc-shaped through holes.
The optimized scheme is that the detachable mechanism further comprises a plurality of buckle notches which are arranged on the outer groove wall of the cutter positioning groove and are uniformly distributed circumferentially, and detachable buckles which are arranged in the buckle notches and are abutted against the outer wall of the trimming cutter.
According to the optimized scheme, the upper knife frame is further provided with an upper base plate and an upper die base plate which are sequentially stacked and connected from bottom to top.
According to the optimized scheme, the upper base plate is provided with product containing through holes II which are communicated with the product containing through holes I one by one, at least one ventilation groove is formed in the upper surface and/or the lower surface of the upper base plate, the inner end of the ventilation groove is communicated with the product containing through holes II, and the outer end of the ventilation groove is communicated with the outside.
According to the optimized scheme, guide sleeves are respectively arranged at four corners of the lower template, guide pillars with lower ends inserted into the guide sleeves one by one are respectively arranged at four corners of the upper knife frame, and the upper die base plate drives the upper backing plate and the upper knife frame to lift under the action of external force and the guide pillars move up and down relative to the guide sleeves.
According to the optimized scheme, at least one vertically-arranged limiting column is arranged on the upper surface of the lower template, and the height for the upper knife frame to normally lift is reserved on the top surface of the limiting column and the lower surface of the upper knife frame.
According to the optimized scheme, the lower surface of the lower die plate is connected with a lower backing plate, and the lower surface of the lower backing plate is fixed on the lower die base plate through a plurality of lower backing feet which are distributed at intervals.
According to the optimization scheme, one axial line of the product containing through hole is overlapped with two axial lines of the product containing through hole.
The optimized scheme is that the material moving mechanism comprises two material moving guide rails arranged on the frame and located on one side of punching equipment, and a material moving sliding seat connected with each material moving guide rail in a sliding manner, a vertical cylinder is arranged on each material moving sliding seat respectively, a lifting plate connected to the upper end of a telescopic rod of the vertical cylinder is connected to the lifting plate, a fork material flat plate connected with the lifting plate in a horizontal sliding manner is arranged on the lifting plate, a vertical baffle is arranged on the upper surface of each fork material flat plate, a fork material cylinder connected with the fork material flat plate is arranged on the lifting plate, the two fork material flat plates synchronously move in opposite directions and fork un-punched paper plastic products placed on a feeding line, the two fork material flat plates synchronously move in opposite directions to release the un-punched paper plastic products, and the two material moving sliding seats are connected with the same material moving driving device.
The optimization scheme, hoist mechanism including fixing the vertical fixed plate in the frame to and L shape hoisting frame, the lower extreme and the vertical sliding connection of vertical fixed plate of L shape hoisting frame, the upper end of L shape hoisting frame is horizontal distribution and is used for placing die-cut paper and plastic products, the lower extreme and the promotion drive arrangement of L shape hoisting frame are connected.
According to the optimized scheme, a paper-plastic product feeding line positioned on the other side of the punching equipment is further arranged on the rack, and the paper-plastic product feeding line receives and outputs the paper-plastic product released by the material receiving and discharging manipulator to the output end of the paper-plastic product feeding line;
and the waste material collecting box is used for collecting waste materials released by the material receiving and discharging mechanical arm.
Compared with the prior art, the paper-plastic product edge trimmer has the advantages that:
the material taking and placing manipulator and the material receiving and placing manipulator are designed, operation is carried out at intervals in steps, and meanwhile, the material conveying line and the material moving mechanism can greatly improve production efficiency and meet the requirement of large-batch capacity.
The split type design of side cut cutter and last sword frame not only can reduce cutter use cost, but also can improve the change efficiency of cutter.
The side cut size is accurate and the deckle edge is littleer.
The phenomenon of sticking the mold is avoided.
Drawings
Fig. 1 is a schematic perspective view of the present invention.
Fig. 2 is a schematic structural diagram of a part of the manipulator provided by the present invention.
Fig. 3 is a schematic structural view of the material moving mechanism provided by the present invention.
Fig. 4 is a schematic view of the three-dimensional structure of the punching die provided by the present invention.
Fig. 5 is a schematic view of a top view structure of the punching die provided by the present invention.
Fig. 6 is a schematic sectional view taken along line a-a of the piercing die of fig. 5.
Fig. 7 is a side view schematic diagram of the punching die.
Fig. 8 is an enlarged schematic structural view of the g-position in the die-cutting die of fig. 6 according to the present invention.
Fig. 9 is a schematic structural view of the punching die provided by the present invention with the upper die plate removed.
Fig. 10 is a schematic structural view of the lower die plate and the upper knife frame of the punching die in an exploded state.
Fig. 11 is a schematic view of the upper knife frame structure provided by the present invention.
Fig. 12 is a schematic structural view of the paper-plastic product placed in the punching mold provided by the present invention.
In the figure, a frame 1, a transverse metal plate 11, a punching device 2, a feeding line 3, a material moving mechanism 4, a material moving guide rail 41, a material moving slide seat 42, a vertical cylinder 43, a lifting plate 44, a material forking flat plate 45, a vertical baffle 46, a lifting mechanism 5, a vertical fixing plate 51, an L-shaped lifting frame 52, a material taking and placing manipulator 6, a material taking and placing slide seat 61, an L-shaped material taking and placing frame 62, a material taking and placing sucker 63, a material taking and placing lifting driving device 64, a vertical guide plate I65, an annular material taking and placing slider 66, a material receiving and placing manipulator 7, a material receiving and placing slide seat 71, an L-shaped material receiving and placing frame 72, a product taking sucker 73, a waste material sucker 74, a material receiving and placing lifting driving device 75, a vertical guide plate II 76, an annular material receiving and placing slider 77, a paper and plastic product feeding line 8, a waste collecting box 9, a material magnetic suspension driving motor, The paper-plastic product cutting device comprises a lower die plate 10, a paper-plastic product positioning male die 100, a guide sleeve 101, a limiting column 102, an upper knife frame 20, a first product accommodating through hole 200, a cutter positioning groove 201, a circular arc-shaped through hole 202, a positioning part 203, a buckle notch 204, a detachable buckle 205, a guide column 206, a trimming knife 30, an upper backing plate 40, a second product accommodating through hole 400, a ventilation groove 401, an upper die plate 50, a lower backing plate 60, a lower backing foot 70 and a lower die plate 80.
Detailed Description
The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.
Example one
As shown in fig. 1, the edge trimmer for paper-plastic products comprises a frame 1, wherein the frame 1 is of a steel frame structure, and is of a U-shaped structure when the frame is overlooked.
Die-cut equipment 2 is located the middle part rear side of frame 1, namely, die-cut equipment 2 is located the opening of U-shaped frame 1, and die-cut equipment 2 and frame 1 are through a plurality of connecting bolt connection, can further improve the connection stability between the two to and can avoid the displacement of frame.
Next, the punching device 2 is any one of a punch press and a hydraulic press.
As shown in the figures 4-12 of the drawings,
the punching die a is mounted on the punching device 2. Specifically, the punching die a comprises a lower template 10, at least one paper-plastic product positioning male die 100 is arranged on the upper surface of the lower template 10 and is distributed horizontally; the number of the positioning male dies 100 of the paper-plastic product can be set according to the actual production requirements, for example, 1 to 12, and 9 can be set.
The paper-plastic product positioning male die 100 is matched with the paper-plastic product opening, so that the paper-plastic product can be placed and positioned conveniently.
The lower surface of the lower template 10 is connected with a lower pad 60, and the lower surface of the lower pad 60 is fixed on a lower die base plate 80 through a plurality of lower pads 70 distributed at intervals.
The lower die plate 10 and the lower die plate 60 are connected by a plurality of connecting bolts, and the lower foot pad 70 and the lower die plate 60 are also connected by the connecting bolts, and the lower die plate 80 is connected with the lower foot pad 70 by a plurality of long bolts.
The lower support foot 70 in this application has three pieces, and two pieces are distributed at both ends of the upper surface of the lower mold base plate 80, and the remaining one piece is located at the middle position of the lower mold base plate 80.
The structure of the lower cushion plate 60 and the lower cushion foot 70 can make the whole structure overhead, and simultaneously, can play a certain role in shock absorption and buffering.
Secondly, a plurality of lower notches are arranged at intervals on the periphery of the lower die base plate 80 so as to facilitate the insertion of mounting screws and fix the mounting screws on a hydraulic press or a punching machine.
The upper knife frame 20 is positioned right above the lower template 10, and product accommodating through holes I200 which correspond to the paper-plastic product positioning male dies one by one are formed in the upper knife frame 20; the shape of the first product accommodating through hole 200 is set according to the actual shape of the product, and the first product accommodating through hole 200 can be mainly used for abdicating the paper-plastic product and forming circumferential limitation.
The upper knife frame 20 is further provided with an upper backing plate 40 and an upper die plate 50 which are sequentially stacked and connected from bottom to top.
The upper shim plate 40, the upper die base plate 50 and the upper knife frame 20 are connected and fixed through a plurality of long bolts. Secondly, the upper backing plate 40 is provided with a second product accommodating through hole 400 communicated with the first product accommodating through hole 200 one by one, the upper surface and/or the lower surface of the upper backing plate 40 is provided with at least one ventilation groove 401, the inner end of which is communicated with the second product accommodating through hole 400, and the outer end of the ventilation groove 401 is communicated with the outside.
The axial line of the first product containing through hole 200 is superposed with the axial line of the second product containing through hole 400. The paper-plastic product can be prevented from being placed at an improper position due to interference.
It can play the effect of shock attenuation buffering to go up the backing plate, and simultaneously, the product of design holds two 400 of through-holes, and it can play the product of moulding paper equally and step down to and form the circumference restriction, and ventilative groove 401 it can prevent that paper from moulding the product and glue the mould, accomplishes the back of cutting edge when the mould, because this ventilative groove 401 communicates with each other with the external world, can avoid the negative pressure to appear here, the problem that the product glued the mould can not appear.
In addition, the outer edge of the upper die base plate 50 is provided with a plurality of upper notches, and the upper notches can facilitate the clamping of mounting bolts and are connected with a lifting head of a punch press or a hydraulic press.
The trimming cutter 30, the trimming cutter 30 is annular, and the trimming cutter 30 is fixed on the upper cutter frame 20 through a detachable mechanism and is positioned outside the first product accommodating through hole 200. The split type design of side cut cutter and last sword frame 20 not only can reduce cutter use cost, but also can improve the change efficiency of cutter.
When the punch press or the hydraulic press is started, the upper die base plate 50, the upper padding plate 40, the upper knife frame 20 and the trimming cutter 30 mounted on the upper knife frame 20 are driven to lift, the trimming cutter 30 contacts and cuts off the remaining edges of the paper-plastic product, meanwhile, the cutting edge of the trimming cutter 30 contacts with the annular plane of the paper-plastic product positioning male die 100, stable cutting is achieved, large burrs are avoided, and the trimmed product is more attractive.
Preferably, the detachable mechanism includes a cutter positioning groove 201 disposed on the lower surface of the upper frame 20, and the trimming cutter 30 is installed in the cutter positioning groove 201, and the cutting edge of the trimming cutter 30 faces downward and is located below the lower notch of the cutter positioning groove 201.
A plurality of circular arc-shaped through holes 202 which are uniformly distributed in the circumference are formed in the bottom of the cutter positioning groove 201, and a positioning part 203 for positioning the upper side of the trimming cutter 30 is formed between every two adjacent circular arc-shaped through holes 202.
The circular arc-shaped through hole 202 is designed to facilitate grooving, and meanwhile, whether the cutter is installed in place or not can be observed.
In addition, the detachable mechanism further comprises a plurality of buckle notches 204 which are arranged on the outer groove wall of the cutter positioning groove 201 and are uniformly distributed circumferentially, and detachable buckles 205 which are arranged in the buckle notches 204 and abut against the outer wall of the trimming cutter 30.
The shape of the detachable clip 205 is matched to the clip slot 204, and at the same time, the detachable clip 205 is fixed to the clip slot 204 by a screw.
The above-described structure facilitates replacement and maintenance of the trimming cutter 30.
In addition, guide sleeves 101 are respectively disposed at four corners of the lower die plate 10, guide posts 206 having lower ends inserted into the guide sleeves 101 one by one are respectively disposed at four corners of the upper knife frame 20, and the upper die plate 50 drives the upper pad plate and the upper knife frame to move up and down under the action of external force, and the guide posts 206 move up and down relative to the guide sleeves 101.
The guide pillar 206 and the guide sleeve 101 are matched with each other, the positioning is accurate, and the product trimming size is more accurate.
At least one vertically arranged limiting column 102 is arranged on the upper surface of the lower template 10, and a height for the upper knife frame 20 to normally lift is reserved on the top surface of the limiting column 102 and the lower surface of the upper knife frame 20.
The limiting column 102 plays a role in limiting protection of the edge cutting tool, and the service life of the edge cutting tool is longer.
Placing a paper-plastic product, and placing the paper-plastic product on a paper-plastic product positioning male die 100 of the lower die plate 10;
and (4) trimming, namely, enabling the upper knife frame 20 to downwards approach the lower template 10, and enabling the trimming knife 30 to be in contact with the surplus edge of the paper-plastic product and cutting the surplus edge.
As shown in fig. 1, a feed line 3 for carrying an uncut paper plastic article and conveying the uncut paper plastic article to an output end of the feed line 3. The feeding line 3 is a belt type feeding line.
As shown in fig. 1 and 3, the material moving mechanism 4 is located at the output end of the feeding line 3, and the material moving mechanism 4 supports and moves the non-die-cut paper plastic product output from the feeding line 3 to the end far away from the feeding line 3; the material moving mechanism 4 comprises two material moving guide rails 41 arranged on the frame 1 and positioned on one side of the punching equipment, and a material moving slide seat 42 connected with each material moving guide rail 41 in a sliding manner, wherein each material moving slide seat 42 is respectively provided with a vertical cylinder 43, and a lifting plate 44 connected to the upper end of a telescopic rod of the vertical cylinder 43, a material forking flat plate 45 horizontally connected with the lifting plate 44 is arranged on the lifting plate 44, the upper surface of each material forking flat plate 45 is provided with a vertical baffle 46, the lifting plate 44 is provided with a material forking cylinder 47 connected with the material forking flat plate 45, the two material forking flat plates 45 synchronously move and oppositely move and fork un-punched paper plastic products placed on the feeding line 3, the two material forking flat plates 45 synchronously move and oppositely and outwards move to release the un-punched paper plastic products, and the two material moving slide seats 42 are connected with the same material moving drive device.
The material moving driving device comprises a driving arm, two ends of the driving arm are respectively connected with the material moving sliding seat 42, the driving arm is horizontally connected with the rack in a sliding manner, and a material moving driving cylinder connected with the driving arm is arranged on the rack.
As shown in fig. 1, the lifting mechanism 5 receives the un-punched paper plastic product transferred by the material transfer mechanism 4 and vertically lifts the un-punched paper plastic product upwards to a set height position. The material moving driving device drives the material moving slide seat 42 to move to the lifting mechanism 5.
This hoist mechanism 5 is including fixing vertical fixed plate 51 in frame 1 to and L shape hoisting frame 52, the vertical sliding connection of lower extreme and vertical fixed plate 51 of L shape hoisting frame 52, and the upper end of L shape hoisting frame 52 is horizontal distribution and is used for placing the paper plastic products that are not die-cut, and the lower extreme and the promotion drive arrangement of L shape hoisting frame 52 are connected.
The lifting drive means comprises a linear motor which is connected to the lower end of the L-shaped lifting frame 52 by lead screw transmission. Of course, the lifting drive can also be a cylinder or a cylinder.
As shown in fig. 1 and 2, the pick-and-place robot 6 reciprocates in the horizontal direction and is horizontally slidably connected to the frame 1, and the pick-and-place robot 6 picks up and transfers the non-die-cut paper plastic placed on the lifting mechanism 5 to the die-cutting die a.
And the material receiving and placing manipulator 7 reciprocates in the horizontal direction and is horizontally connected with the rack 1 in a sliding manner, the material receiving and placing manipulator 7 simultaneously obtains and transfers the paper-plastic products and the punching leftover waste materials after punching processing to the outside of the punching die a, and the material receiving and placing manipulator 7 sequentially releases the punching leftover waste materials and the paper-plastic products.
The front side of the rack 1 is provided with a transverse metal plate 11, a material taking and placing manipulator 6 is horizontally and slidably connected with the transverse metal plate 11, a material receiving and placing manipulator 7 is horizontally and slidably connected with the transverse metal plate 11, a material taking and placing magnetic suspension driving motor b close to one surface of the transverse metal plate 11 is arranged on the material taking and placing manipulator 6, and a material receiving and placing magnetic suspension driving motor c close to one surface of the transverse metal plate 11 is arranged on the material receiving and placing manipulator 7.
The material taking and placing magnetic suspension driving motor b and the material receiving and placing magnetic suspension driving motor c are both in the prior art and are commercially available products, and the material taking and placing manipulator 6 and the material receiving and placing manipulator 7 can move and stop moving through the working principle of magnetic suspension.
Specifically, the material taking and placing manipulator 6 comprises a material taking and placing sliding seat 61 horizontally and slidably connected with a transverse metal plate 11, two transverse guide rails are arranged on the transverse metal plate 11, a first transverse sliding block slidably connected with the two transverse guide rails is arranged on the material taking and placing sliding seat 61, the material taking and placing sliding seat 61 is cylindrical and vertically distributed, an L-shaped material taking and placing frame 62 is further arranged, a vertical section of the L-shaped material taking and placing frame 62 is vertically and slidably connected with the material taking and placing sliding seat 61, a plurality of material taking and placing suction cups 63 are connected to a horizontal section of the L-shaped material taking and placing frame 62, and a material taking and placing lifting driving device 64 connected with the lower end of the vertical section of the L-shaped material taking and placing frame 62 is.
Furthermore, the transverse section of the material taking and placing sliding seat 61 is in a C shape, a first vertical guide plate 65 is arranged at the opening of the material taking and placing sliding seat 61, a vertical section of the L-shaped material taking and placing frame 62 is connected with a first annular material taking and placing slider 66, the first annular material taking and placing slider 66 is sleeved on the first vertical guide plate 65 and is vertically and slidably connected with the first vertical guide plate 65, the material taking and placing lifting driving device 64 comprises a material taking and placing servo motor fixed at the lower end of the material taking and placing sliding seat 61, the material taking and placing servo motor is connected with the first annular material taking and placing slider 66 through a first lead screw transmission structure, and the first lead screw transmission structure is positioned between the material taking and placing sliding.
Specifically, the material receiving and discharging manipulator 7 comprises a material receiving and discharging sliding seat 71 horizontally and slidably connected with the transverse metal plate 11, a transverse sliding block two slidably connected with two transverse guide rails is arranged on the material receiving and discharging sliding seat 71, the material receiving and discharging sliding seat 71 is cylindrical and vertically distributed, an L-shaped material receiving and discharging frame 72 is arranged, a vertical section of the L-shaped material receiving and discharging frame 72 is vertically and slidably connected with the material receiving and discharging sliding seat 71, a plurality of product material taking suction cups 73 and a plurality of waste material taking suction cups 74 are connected to a horizontal section of the L-shaped material receiving and discharging frame 72, and a material receiving and discharging lifting driving device 75 connected with the lower end of the vertical section of the L-shaped material receiving and discharging frame 72 is connected to the lower end of the.
Further, the transverse section of the material receiving and discharging sliding seat 71 is C-shaped, a second vertical guide plate 76 is arranged at an opening of the material receiving and discharging sliding seat 71, a vertical section of the L-shaped material receiving and discharging rack 72 is connected with a second annular material receiving and discharging slider 77, the second annular material receiving and discharging slider 77 is sleeved on the second vertical guide plate 76 and is vertically and slidably connected with the second vertical guide plate 76, the material receiving and discharging lifting driving device 75 comprises a material receiving and discharging servo motor fixed at the lower end of the material receiving and discharging sliding seat 71, the material receiving and discharging servo motor is connected with the second annular material receiving and discharging slider 77 through a second lead screw transmission structure, and the second lead screw transmission structure is positioned between the material receiving and discharging sliding seat.
A paper-plastic product feeding line 8 positioned on the other side of the punching device 2 is further arranged on the frame 1, and the paper-plastic product feeding line 8 receives and outputs the paper-plastic product released by the material receiving and releasing manipulator 7 to the output end of the paper-plastic product feeding line 8;
the paper plastic product feeding line 8 is a belt type conveying line.
And a waste collection box 9, wherein the waste collection box 9 collects the waste released by the material receiving and discharging manipulator 7.
The whole punching process is as follows:
s1, placing the paper and plastic products which are not punched on the feeding line 3, and conveying the paper and plastic products which are not punched to the output end of the feeding line 3 by the feeding line 3.
S2, the material moving mechanism 4 forks the non-die-cut paper plastic products output by the feeding line 3 and moves the paper plastic products to the lifting mechanism 5.
And S3, the lifting mechanism 5 lifts the non-punched paper-plastic product to a set height so as to facilitate the taking of the material by the material taking and placing manipulator 6.
S4, the pick-and-place robot 6 picks up the non-punched paper and plastic product on the lifting mechanism 5 and transfers it to the punching mold a.
And S5, cutting the residual edge of the paper-plastic product which is not cut by the cutting die a.
S6, the material receiving and releasing manipulator 7 obtains the punched paper-plastic product and the cut residual edge at the same time, then releases the residual edge into the waste collection box 9, and releases the paper-plastic product on the paper-plastic product feeding line 8, so that the whole punching process is realized.
Example two
The detachable mechanism comprises a cutter positioning groove 201 arranged on the lower surface of the upper cutter frame 20 and a plurality of locking screws which penetrate out of the product accommodating through holes I200 in the radial direction.
The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (10)

1. The utility model provides a paper-plastic products bead cutter, includes frame (1), its characterized in that still includes:
the punching equipment (2) is positioned on the rear side of the middle part of the rack (1);
the punching die (a) is arranged on the punching equipment (2);
the feeding line (3) is used for carrying the paper-plastic products which are not punched and conveying the paper-plastic products which are not punched to the output end of the feeding line (3);
the material moving mechanism (4) is positioned at the output end of the material conveying line (3), and supports the paper and plastic products which are not punched and output by the material conveying line (3) and moves towards one end far away from the material conveying line (3);
the lifting mechanism (5) is used for supporting the paper-plastic products which are not punched and transferred by the material transfer mechanism (4) and vertically lifting the paper-plastic products which are not punched upwards to a set height position;
the material taking and placing mechanical arm (6) reciprocates in the horizontal direction and is horizontally connected with the rack (1) in a sliding manner, and the material taking and placing mechanical arm (6) takes and transfers the paper and plastic products which are not punched and placed on the lifting mechanism (5) to the punching die (a);
the material receiving and discharging mechanical arm (7) moves in a reciprocating mode in the horizontal direction and is horizontally connected with the rack (1) in a sliding mode, the material receiving and discharging mechanical arm (7) obtains the paper-plastic products and the punching residual edge waste materials after punching processing at the same time and transfers the paper-plastic products and the punching residual edge waste materials to the outside of the punching die (a), and the material receiving and discharging mechanical arm (7) releases the punching residual edge waste materials and the paper-plastic products in sequence.
2. The paper-plastic product edge cutting machine according to claim 1, characterized in that a transverse metal plate (11) is arranged on the front side of the frame (1), the material taking and discharging manipulator (6) is horizontally and slidably connected with the transverse metal plate (11), the material receiving and discharging manipulator (7) is horizontally and slidably connected with the transverse metal plate (11), a material taking and discharging magnetic suspension driving motor (b) close to one side of the transverse metal plate (11) is arranged on the material taking and discharging manipulator (6), and a material receiving and discharging magnetic suspension driving motor (c) close to one side of the transverse metal plate (11) is arranged on the material receiving and discharging manipulator (7).
3. A paper-plastic product edge trimmer according to claim 2, characterized in that the material taking and placing manipulator (6) comprises a material taking and placing sliding seat (61) horizontally and slidably connected with the transverse metal plate (11), the material taking and placing sliding seat (61) is cylindrical and vertically distributed, an L-shaped material taking and placing frame (62), the vertical section of the L-shaped material taking and placing frame (62) is vertically and slidably connected with the material taking and placing sliding seat (61), a plurality of material taking and placing suction cups (63) are connected with the horizontal section of the L-shaped material taking and placing frame (62), and a material taking and placing lifting driving device (64) connected with the lower end of the vertical section of the L-shaped material taking and placing frame (62) is connected with the lower end of the material taking and placing sliding seat (61).
4. The edge cutting machine for paper and plastic products as claimed in claim 3, wherein the transverse section of the material taking and placing sliding seat (61) is C-shaped, a first vertical guide plate (65) is arranged at the opening of the material taking and placing sliding seat (61), an annular material taking and placing sliding block (66) is connected to the vertical section of the L-shaped material taking and placing frame (62), the annular material taking and placing sliding block (66) is sleeved on the first vertical guide plate (65) and is vertically and slidably connected with the first vertical guide plate (65), the material taking and placing lifting driving device (64) comprises a material taking and placing servo motor fixed at the lower end of the material taking and placing sliding seat (61), the material taking and placing servo motor is connected with the annular material taking and placing sliding block (66) through a first screw rod transmission structure, and the first screw rod transmission structure is positioned between the material taking and placing sliding seat (61) and the first vertical.
5. A paper-plastic product edge trimmer according to claim 2, characterized in that the take-and-place manipulator (7) comprises a take-and-place slide seat (71) horizontally slidably connected with the transverse metal plate (11), the take-and-place slide seat (71) is cylindrical and vertically distributed, an L-shaped take-and-place frame (72), the vertical section of the L-shaped take-and-place frame (72) is vertically slidably connected with the take-and-place slide seat (71), a plurality of product take-and-place suction cups (73) and a plurality of waste take-and-place suction cups (74) are connected with the horizontal section of the L-shaped take-and-place frame (72), and a take-and-place lift driving device (75) connected with the lower end of the vertical section of the L-shaped take-and-place frame (72) is connected with the lower end of.
6. The edge cutting machine for paper and plastic products according to claim 5, wherein the transverse section of the material receiving and discharging sliding seat (71) is C-shaped, a second vertical guide plate (76) is arranged at an opening of the material receiving and discharging sliding seat (71), an annular material receiving and discharging sliding block (77) is connected to a vertical section of the L-shaped material receiving and discharging frame (72), the annular material receiving and discharging sliding block (77) is sleeved on the second vertical guide plate (76) and is vertically and slidably connected with the second vertical guide plate (76), the material receiving and discharging lifting driving device (75) comprises a material receiving and discharging servo motor fixed at the lower end of the material receiving and discharging sliding seat (71), the material receiving and discharging servo motor is connected with the annular material receiving and discharging sliding block (77) through a second lead screw transmission structure, and the second lead screw transmission structure is positioned between the material receiving and discharging sliding seat (71) and the second vertical guide plate.
7. A paper-plastic product edge trimmer according to claim 1, characterized in that said die cutting device (2) is any one of a punch press and a hydraulic press; the material conveying line (3) is a belt type material conveying line.
8. The paper-plastic product edge cutting machine according to claim 1, characterized in that the cutting die (a) comprises a lower template (10) which is horizontally distributed and provided with at least one paper-plastic product positioning male die (100) on the upper surface of the lower template (10);
the upper knife frame (20) is positioned right above the lower template (10), and the upper knife frame (20) is provided with first product accommodating through holes (200) which correspond to the paper-plastic product positioning male dies one by one;
the trimming cutter (30), the trimming cutter (30) are annular, and the trimming cutter (30) is fixed on the upper knife frame (20) through removable mechanism and is located the product and hold the outside of through-hole (200).
9. The paper-plastic product edge cutting machine according to claim 1, characterized in that the material moving mechanism (4) comprises two material moving guide rails (41) arranged on the frame (1) and located on one side of the die cutting device, and a material moving slide seat (42) connected with each material moving guide rail (41) in a sliding manner, a vertical cylinder (43) and a lifting plate (44) connected with the upper end of an expansion link of the vertical cylinder (43) are respectively arranged on each material moving slide seat (42), a material forking flat plate (45) horizontally connected with the lifting plate (44) in a sliding manner is arranged on the lifting plate (44), a vertical baffle plate (46) is arranged on the upper surface of each material forking flat plate (45), a material forking cylinder (47) connected with the material forking flat plate (45) is arranged on the lifting plate (44), the two material forking flat plates (45) synchronously act and move towards each other and fork the un-die-cut paper products placed on the material feeding line (3), the two fork material flat plates (45) synchronously act and oppositely move outwards to release the paper-plastic products which are not punched, and the two material moving sliding seats (42) are connected with the same material moving driving device;
the lifting mechanism (5) comprises a vertical fixing plate (51) fixed on the rack (1) and an L-shaped lifting frame (52), the lower end of the L-shaped lifting frame (52) is connected with the vertical fixing plate (51) in a vertical sliding mode, the upper end of the L-shaped lifting frame (52) is horizontally distributed and used for placing paper-plastic products which are not punched, and the lower end of the L-shaped lifting frame (52) is connected with a lifting driving device.
10. The paper-plastic product edge cutting machine according to claim 1, characterized in that a paper-plastic product feeding line (8) is arranged on the other side of the punching device (2) on the frame (1), and the paper-plastic product feeding line (8) receives and outputs the paper-plastic product released by the material receiving and releasing manipulator (7) to the output end of the paper-plastic product feeding line (8);
and a waste collection box (9), wherein the waste collection box (9) collects the waste released by the material receiving and placing manipulator (7).
CN202020868274.3U 2019-11-16 2020-05-21 Paper-plastic product edge trimmer Active CN212666276U (en)

Priority Applications (2)

Application Number Priority Date Filing Date Title
CN201921985481 2019-11-16
CN2019219854810 2019-11-16

Publications (1)

Publication Number Publication Date
CN212666276U true CN212666276U (en) 2021-03-09

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202020868274.3U Active CN212666276U (en) 2019-11-16 2020-05-21 Paper-plastic product edge trimmer

Country Status (1)

Country Link
CN (1) CN212666276U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112809830A (en) * 2019-11-16 2021-05-18 浙江舒康科技有限公司 Paper-plastic product edge trimmer

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112809830A (en) * 2019-11-16 2021-05-18 浙江舒康科技有限公司 Paper-plastic product edge trimmer

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