CN217943553U - Waste removing machine for flat pressing flat die-cutting machine - Google Patents

Abstract

The utility model relates to a clear useless machine for concora crush flat die cutting machine, including the clear useless frame, clear useless frame one end is equipped with the paper input part of the output that outwards extends and insert the concora crush flat die cutting machine, the one end that the paper input part is close to concora crush flat die cutting machine output upwards inclines to set up, the clear useless frame other end is provided with tears the mark honeycomb panel open, clear useless frame is for the opening of wasting discharge in the one end that the paper input part was kept away from to tearing the mark honeycomb panel open, tear mark subassembly open under installing, be equipped with conveying mechanism in the clear useless frame, still including the collection frame that sets up side by side with the clear useless frame, be equipped with the elevating platform that can follow perpendicular ground direction reciprocating motion in the collection frame, the collection frame is erect with the one end that the clear useless frame kept away from ground and is equipped with conveying mechanism's direction of delivery and is the vertically crossbeam, the one end that the crossbeam is located in the collection frame is installed and can follow crossbeam reciprocating motion and tear mark subassembly open the yoke mechanism that sets up, the one end that mark subassembly was kept away from the crossbeam was installed and can open and close the setting.

Description

Waste removing machine for flat pressing flat die-cutting machine

Technical Field

The utility model relates to a clear useless field of concora crush flat die-cutting machine, concretely relates to clear useless machine for concora crush flat die-cutting machine.

Background

The die cutting machine has the working principle that a die cutting knife, a steel knife, a hardware die and a steel wire are utilized to apply certain pressure through a printing plate, and a printed product or a paperboard is rolled and cut into a certain shape. If the entire print is die cut into individual graphic products, it is called die cutting; if the steel wire is used for pressing marks or leaving bent groove marks on a printed product, the marks are called indentations; if a male template and a female template are utilized, patterns or characters with three-dimensional effect are thermoprinted on the surface of a printed product by heating the molds to a certain temperature, which is called gold stamping; if one substrate is overlaid on another substrate is called lamination; the rest parts except the certified products are removed and called waste discharge;

in the prior art, waste cleaning and collection of the die-cut genuine products of the flat-pressing flat-die cutting machine are finished through two manual operations, so that time and labor are wasted, the labor intensity of workers is high, the production cost of enterprises is increased in a phase-changing manner, and the flat-pressing flat-die cutting machine needs to be improved.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is to solve the defects of the prior art,

a waste cleaning machine for a platen die-cutting machine is provided.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a clear useless machine for platen die-cutting machine which characterized in that: including clear useless frame, clear useless frame one end is equipped with the paper input portion of the output that outwards extends and insert the cross cutting machine that flattens, and the paper input portion is close to the one end tilt up setting of cross cutting machine output that flattens, clear useless frame other end is provided with tears the mark honeycomb panel open, and clear useless frame is in tearing the one end that the mark honeycomb panel kept away from the paper input portion open for the opening of wasting discharge, tear the mark subassembly open down installed under the mark honeycomb panel open, be equipped with in the clear useless frame around locating the paper input portion, tear the mark honeycomb panel open and tear the outer conveying mechanism of mark subassembly open down, the last equipartition of conveying mechanism has the paper frame of sending, still including the collection frame that sets up side by side with clear useless frame, be equipped with in the collection frame can follow perpendicular ground direction reciprocating motion's elevating platform, collect the frame and clear useless frame one end of keeping away from ground and erect the conveying direction that is the vertically crossbeam, the crossbeam is located the one end of collecting the frame and installs the last mark subassembly of tearing open and close the yoke mechanism that sets up.

Adopt above-mentioned technical scheme, the utility model discloses a theory of operation does: the paper input end of the waste cleaning machine is arranged behind the output end of the flat pressing flat die-cutting machine or below the output end, paper after die cutting by the die-cutting machine enters a paper feeding frame on the paper input end of the waste cleaning machine, the paper feeding frame is a paper feeding frame which can refer to a label removing machine in the prior art and can adjust a self-formed space so as to be suitable for the size of externally conveyed paper, then the paper is conveyed to a label removing honeycomb plate through a conveying mechanism, an upper label removing assembly moves to the position right above the label removing honeycomb plate along a cross beam, a thimble in the lower label removing assembly extends out along a honeycomb of the label removing honeycomb plate to jack up a finished paper product which is positioned on the label removing honeycomb plate and subjected to die cutting, of course, the specific arrangement of the thimble and the formed shape of the thimble need to be adjusted according to specific products, (the lower label removing assembly of the thimble structure is largely applied to the label removing machine, which is not described in detail herein for the prior art, the fork plate mechanism is closed to hold finished paper, a finished product jacked up by a thimble of the lower label removing assembly is held by the fork plate mechanism, the upper label removing assembly moves to the collecting frame along the cross beam after the finished product is held by the fork plate mechanism, meanwhile, a lifting platform in the collecting frame rises, when the upper label removing assembly completely moves to the collecting frame and the lifting platform moves in place, the fork plate mechanism is opened to enable the finished paper to freely fall and fall on the lifting platform, because the lifting platform rises, the vertical distance between the finished paper and the lifting platform is small, the paper can not be scattered when the finished paper freely falls, the situation that the finished paper is difficult to collect and arrange is caused, meanwhile, the separated waste paper continues to move along with the paper feeding frame along the conveying mechanism, when the paper moves to the waste discharging opening, because the paper feeding frame rotates around the lower label removing assembly and returns to the paper input end, waste paper in the paper feeding frame can fall at the waste discharge opening after moving around the label removing component after the paper feeding frame moves, through the waste removing machine in the technical scheme, workers do not need to arrange paper after the paper passes through a platen die-cutting machine and carry the paper to a subsequent label removing machine or other equipment for the operation of the next process, then manually separate and arrange finished products and the waste paper, but can omit the middle process, directly collect finished products from a lifting platform, collect the waste paper from the waste discharge opening, the labor intensity and the labor cost of workers are greatly reduced, the label removing component and the fork plate mechanism are used for collecting the finished products, the high-cost mechanisms such as mechanical arm devices are used for collecting the finished products on the market, and the actual profits of enterprises are improved in a variable manner.

The waste cleaning machine for the platen die-cutting machine can be further arranged as follows: the fork plate mechanism comprises inserting movable plates which are oppositely arranged on two sides of the upper label detaching assembly, a plurality of fork plates which are distributed at intervals are installed at one end of each inserting movable plate, and a driving structure for driving the two inserting movable plates to be close to or away from each other is arranged at the other end of each inserting movable plate.

Adopt above-mentioned technical scheme, the grafting fly leaf that drives both sides simultaneously through drive structure is close to each other or keeps away from each other, under the initial condition, the grafting fly leaf of picture peg mechanism is in the state of keeping away from, when the finished product on the thimble is collected is arranged in to needs, it is close to each other to peg graft the fly leaf through drive structure drive, make the fork board on the two grafting fly leaves form a holding surface, treat just stay the finished product on the fork board after the thimble return, transport elevating platform department with the finished product through the fork board, need not to adopt the manipulator, the structure is simple relatively and the cost is lower than the manipulator, reduce the acquisition cost.

The waste cleaning machine for the platen die-cutting machine can be further arranged as follows: the driving structure comprises a driving seat with one end fixedly connected with the inserting movable plate, and a linkage structure respectively connected with the two driving seats and a driving source for driving the two linkage structures to make the driving seats approach to or separate from each other are installed on the upper label removing assembly.

By adopting the technical scheme, the two driving source synchronous driving linkage structures arranged on the upper label dismounting assembly are respectively linked with the driving seats connected with the inserting movable plates to be close to or far away from the driving seats, and the two driving source synchronous driving linkage structures are adopted, so that the structure is more reasonable, the production cost is lower, and the synchronization degree of the inserting plates on the two sides can be ensured.

The waste cleaning machine for the flat-pressing flat-die cutting machine can be further arranged as follows: linkage structure includes the gangboard, first linkage seat is installed to gangboard one end, and the second linkage seat is installed to the other end, and first linkage seat passes through the universal driving shaft to be connected with the drive seat, and it is vice that the lead screw nut is installed to the mark subassembly that tears down on the gangboard corresponds the position, the vice top of lead screw nut is erect to the gangboard, and the vice lead screw nut of lead screw nut and the relative other end of installing first linkage seat of gangboard pass through second linkage seat fixed connection, and the vice installation opposite direction of two lead screw nuts, the driving source includes driving motor, installs first synchronous pulley in driving motor's the drive shaft, and the lead screw nut is vice to be located same rectilinear position department with first synchronous pulley and to install the second synchronous pulley, is connected through belt transmission between first synchronous pulley and the second synchronous pulley.

By adopting the technical scheme, two screw rod nut pairs are arranged on the upper label dismounting assembly through the screw rod mounting seat, the linkage plate is erected above the screw rod, one end of the linkage plate is provided with the first linkage seat, the other end of the linkage plate is provided with the second linkage seat, the first linkage seat is connected with two ends of the driving seat through the linkage shaft arranged in the first linkage seat, the second linkage seat is fixedly connected with the nuts of the screw rod nut pairs, the upper label dismounting assembly is provided with the driving motor, the driving shaft of the driving motor is provided with the first synchronous belt pulley, the two screw rod nuts are respectively arranged on the second synchronous belt pulley which is positioned on the same straight line with the first synchronous belt pulley, the first synchronous belt pulley and the second synchronous belt pulley are in transmission connection through the synchronous belt, when the driving motor rotates, the driving motor drives the screw rod nuts on the two screw rod nut pairs to synchronously approach or synchronously leave along respective screw rods through the first synchronous belt pulley and the synchronous belt, so that the driving seat fixedly connected with the first driving seat at the other end of the linkage plate is synchronously approached or synchronously leaves.

The waste cleaning machine for the flat-pressing flat-die cutting machine can be further arranged as follows: and the upper label dismounting assembly is also provided with a horizontal guide structure for guiding two ends of the driving seat respectively.

Adopt above-mentioned technical scheme, because the drive seat only moves along the horizontal direction through the linkage board, and the length of drive seat is generally all longer, only carry out the horizontal direction drive through the tie point with the linkage board, can't guarantee that the horizontal position at drive seat both ends is in same straight line, the levelness of drive seat when the motion promptly can not be guaranteed, consequently set up this horizontal guide structure, both ends are in same straight line as far as when guaranteeing the drive seat motion, guarantee that the other end of each picture peg relatively connects the grafting fly leaf is in same straight line when the motion, improve fork board effect.

The waste cleaning machine for the platen die-cutting machine can be further arranged as follows: the horizontal guide structure comprises a guide seat fixedly installed on the upper label detaching assembly, a guide rod capable of moving along the guide seat penetrates through the guide seat, a guide block is installed at one end of the guide rod, and the guide rod is fixedly connected with the driving seat through the guide block.

Adopt above-mentioned technical scheme, the guide bar one end of wearing to establish in the guide holder passes through guide block and drive seat fixed connection, and when two drive seats were close to in step or kept away from in step under driving motor's effect, the guide bar removed in the guide holder under the effect of guide block to play the effect of guaranteeing drive seat both ends synchronism.

The utility model has the advantages that: the waste cleaning and finished product collection of the product subjected to die cutting by the platen die cutting machine are automated, the labor intensity of workers is reduced, the production efficiency is improved, and the production cost of enterprises is reduced.

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

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention.

Fig. 2 is a schematic perspective view of the embodiment of the present invention after the waste cleaning frame and the parts arranged on the waste cleaning frame are removed.

Fig. 3 is a schematic view of a three-dimensional structure of an upper label-removing assembly according to an embodiment of the present invention 1.

Fig. 4 is a schematic perspective view of an upper label-removing assembly according to an embodiment of the present invention, shown in fig. 2.

Fig. 5 is an internal structural schematic diagram 1 of an upper label removing assembly according to an embodiment of the present invention.

Fig. 6 is a schematic perspective view of a fork plate mechanism on one side of the embodiment of the present invention.

Fig. 7 is the schematic view of the internal structure of the upper label removing assembly according to the embodiment of the present invention 2.

Fig. 8 is an enlarged schematic structural view of a steering plate according to an embodiment of the present invention.

Detailed Description

Referring to fig. 1-8: a waste cleaning machine for a flat pressing flat die-cutting machine comprises a waste cleaning machine frame 1, wherein one end of the waste cleaning machine frame 1 is provided with a paper input part 11 which extends outwards and is inserted into an output end of the flat pressing flat die-cutting machine, one end of the paper input part 11, which is close to the output end of the flat pressing flat die-cutting machine, is arranged in an upward inclined manner, the other end of the waste cleaning machine frame 1 is provided with a label-removing honeycomb plate 2, one end of the label-removing honeycomb plate 2, which is far away from the paper input part 11, of the waste cleaning machine frame 1 is provided with a waste discharge opening 12, a label-removing component 3 is arranged below the label-removing honeycomb plate 2, the waste cleaning machine frame 1 is provided with a conveying mechanism 4 which is wound outside the paper input part 11, the label-removing honeycomb plate 2 and the label-removing component 3, the paper conveying frames 41 are uniformly distributed on the conveying mechanism 4, the waste cleaning machine further comprises a collecting frame 5 which is arranged side by side with the waste cleaning machine frame 1, a lifting table 6 which can reciprocate along the direction vertical to the ground is arranged in the collecting frame 5, a cross beam 7 which is vertical to the conveying direction of the conveying mechanism 4 is erected at one end, away from the ground, of the collecting frame 5 and the waste cleaning machine frame 1, an upper label detaching assembly 8 which can reciprocate along the cross beam 7 is installed at one end, located in the collecting frame 5, of the cross beam 7, and a fork plate mechanism which can be arranged in an opening and closing mode is installed at one end, away from the cross beam 7, of the upper label detaching assembly 8;

the utility model discloses a theory of operation does: the paper input end of the waste cleaning machine is arranged behind the output end of the flat pressing flat die-cutting machine or below the output end, paper after die cutting by the die-cutting machine enters a paper feeding frame on the paper input end of the waste cleaning machine, the paper feeding frame is a paper feeding frame which can refer to a label removing machine in the prior art and can adjust a self-formed space so as to be suitable for the size of externally conveyed paper, then the paper is conveyed to a label removing honeycomb plate through a conveying mechanism, an upper label removing assembly moves to the position right above the label removing honeycomb plate along a cross beam, a thimble in the lower label removing assembly extends out along a honeycomb of the label removing honeycomb plate to jack up a finished paper product which is positioned on the label removing honeycomb plate and subjected to die cutting, of course, the specific arrangement of the thimble and the formed shape of the thimble need to be adjusted according to specific products, (the lower label removing assembly of the thimble structure is largely applied to the label removing machine, which is not described in detail herein for the prior art, the fork plate mechanism is closed to hold finished paper, a finished product jacked up by a thimble of the lower label removing assembly is held by the fork plate mechanism, the upper label removing assembly moves to the collecting frame along the cross beam after the finished product is held by the fork plate mechanism, meanwhile, a lifting platform in the collecting frame rises, when the upper label removing assembly completely moves to the collecting frame and the lifting platform moves in place, the fork plate mechanism is opened to enable the finished paper to freely fall and fall on the lifting platform, because the lifting platform rises, the vertical distance between the finished paper and the lifting platform is small, the paper can not be scattered when the finished paper freely falls, the situation that the finished paper is difficult to collect and arrange is caused, meanwhile, the separated waste paper continues to move along with the paper feeding frame along the conveying mechanism, when the paper moves to the waste discharging opening, because the paper feeding frame rotates around the lower label removing assembly and returns to the paper input end, the waste paper in the paper feeding frame can freely fall and fall at the waste discharge opening after moving around the label removing component in the paper feeding frame, and by using the waste cleaning machine in the technical scheme, workers do not need to arrange the paper after passing through the flat pressing and flat die cutting machine and carry the paper to a subsequent label removing machine or other equipment for the operation of the next process, and then separate and arrange the finished product and the waste paper manually, but can omit the middle process, collect the finished product directly from the lifting platform, and collect the waste paper from the waste discharge opening, so that the labor intensity and the labor cost of the workers are greatly reduced, and the technical scheme collects the finished product by using the label removing component and the fork plate mechanism, replaces the expensive mechanisms such as mechanical arm devices and the like to collect the finished product in the market, and improves the actual profit of enterprises in a variable way;

the fork plate mechanism comprises inserting movable plates 81 which are oppositely arranged on two sides of the upper label removing assembly 8, a plurality of fork plates 82 which are distributed at intervals are arranged at one end of each inserting movable plate 81, the intervals among the inserting plates 82 can be set according to the actual situation so as to adapt to the actual paper situation, and a driving structure for driving the two inserting movable plates 81 to approach or depart from each other is arranged at the other end of each inserting movable plate 81;

the inserting movable plates on two sides are driven to approach or separate from each other through the driving structure, the inserting movable plates of the inserting plate mechanism are in a separating state in an initial state, when finished products needing to be placed on the ejector pins are collected, the inserting movable plates are driven to approach each other through the driving structure, fork plates on the two inserting movable plates form a supporting surface, the finished products are left on the fork plates after the ejector pins return, the finished products are conveyed to a lifting platform through the fork plates, a mechanical arm is not needed, the structure is relatively simple, the manufacturing cost is lower than that of the mechanical arm, and the purchase cost is reduced;

the driving structure comprises a driving seat 802 with one end fixedly connected with the inserting movable plate 81, and the upper label removing assembly 8 is provided with a linkage structure respectively connected with the two driving seats 802 and a driving source 84 for simultaneously driving the two linkage structures to make the driving seats 802 approach to or separate from each other;

the driving source arranged on the upper label removing assembly synchronously drives the two linkage structures to be respectively linked with the driving seats connected with the inserting movable plates to be close to or far away from the same time, and the driving source synchronously drives the two driving seats, so that the structure is more reasonable, the production cost is lower, and the synchronization degree of the plugboards on two sides can be ensured;

the linkage structure comprises a linkage plate 831, one end of the linkage plate 831 is provided with a first linkage seat 832, the other end of the linkage plate 831 is provided with a second linkage seat 833, the first linkage seat 832 is connected with a driving seat 802 through a linkage shaft 834, the upper label removing assembly 8 is provided with a screw-nut pair 835 at a position corresponding to the linkage plate 831, the linkage plate 831 is erected above the screw-nut pair 835, a screw nut 8351 of the screw-nut pair 835 is fixedly connected with the other end of the linkage plate 831, which is provided with the first linkage seat 832, through the second linkage seat 833, the mounting directions of the two screw-nut pairs 835 are opposite, the driving source 84 comprises a driving motor 841, a first synchronous belt pulley 8412 is mounted on a driving shaft 8411 of the driving motor 841, a second synchronous belt pulley 8352 is mounted at a position which is in the same straight line with the first synchronous belt pulley 8412, and the first synchronous belt pulley 8412 is in transmission connection with the second synchronous belt pulley 8352 through a belt 8353;

two screw rod nut pairs are installed on an upper label dismounting assembly through a screw rod installation seat, a linkage plate is erected above a screw rod, one end of a linkage plate is provided with a first linkage seat, the other end of the linkage plate is provided with a second linkage seat, the first linkage seat is connected with two ends of a driving seat through a linkage shaft installed in the first linkage seat, the first linkage seat is fixedly connected with nuts of the screw rod nut pairs through the second linkage seat, a driving motor is installed on the upper label dismounting assembly, a first synchronous belt pulley is installed on a driving shaft of the driving motor, the two screw rod nuts are both installed on a second synchronous belt pulley of which the first synchronous belt pulley is positioned on the same straight line, the first synchronous belt pulley and the second synchronous belt pulley are in transmission connection through a synchronous belt, when the driving motor rotates, the driving motor drives the screw rod nuts on the two screw rod nut pairs to synchronously approach or synchronously leave along respective screw rods through the first synchronous belt pulley and the synchronous belt, and therefore, the driving seat fixedly connected with the first driving seat at the other end of the linkage plate is synchronously close to or synchronously leave.

The upper label removing assembly 8 is also provided with a horizontal guide structure for guiding two ends of the driving seat 802 respectively;

the driving seat only moves along the horizontal direction through the linkage plate, the length of the driving seat is generally longer, the driving seat is driven only in the horizontal direction through a connecting point of the driving seat and the linkage plate, the horizontal positions of the two ends of the driving seat cannot be ensured to be on the same straight line, namely, the levelness of the driving seat during movement cannot be ensured, so that the horizontal guide structure is arranged, the two ends of the driving seat are ensured to be on the same straight line as much as possible during movement, the other ends of the inserting plates, which are relatively connected with the inserting movable plates, are ensured to be on the same straight line during movement, and the effect of the fork plate is improved;

the horizontal guide structure comprises a guide seat 85 fixedly arranged on the upper label removing assembly 8, a guide rod 86 capable of moving along the guide seat 85 penetrates through the guide seat 85, a guide block 87 is arranged at one end of the guide rod 86, and the guide rod 86 is fixedly connected with the driving seat 802 through the guide block 87;

one end of a guide rod penetrating through the guide seat is fixedly connected with the driving seats through a guide block, and when the two driving seats synchronously approach or leave away under the action of the driving motor, the guide rod moves along the guide seat under the action of the guide block, so that the effect of ensuring the synchronism of the two ends of the driving seats is achieved;

a steering plate 9 is arranged between the collecting frame 5 and the cross beam 7, and an arc-shaped guide structure which pushes against the steering plate 9 to drive the driving seat 802 to rotate along a linkage shaft 834 when the driving seats 802 are far away from each other is also arranged on the driving seat 802;

because the fork plates are horizontally translated when being far away from each other, and a certain distance is reserved between the lifting platform and the fork plates, the stacked finished products on the fork plates are easy to disperse when falling into the lifting platform, so that the situation that the finished products are not easy to collect is caused.

The arc-shaped guide structure comprises an L-shaped guide rod 91, one end of the L-shaped guide rod 91 is arranged on the driving seat 802, the other end of the L-shaped guide rod 91 is arranged on the driving seat 802, a guide wheel 92 which can be rotatably arranged is arranged at a position below the orthographic projection of the steering plate 9, a guide inclined plane 901 which is obliquely arranged downwards is arranged on the steering plate 9, and a tensioning structure which can promote the L-shaped guide rod 91 and the driving seat 802 to keep tensioning when the guide wheel 92 moves along the guide inclined plane 901 is arranged between the L-shaped guide rod 91 and the driving seat 802;

by arranging the L-shaped guide rod, one end of the L-shaped guide rod is arranged on the driving seat, the other end of the L-shaped guide rod is provided with the guide wheel, the guide wheel is positioned below the orthographic projection of the steering plate, the steering plate is provided with the downward inclined guide surface, and when the driving seat enables the fork plate to be in an open state under the action of the guide rod, the guide wheel rotates along the inclined guide surface under the action of the tensioning structure when the guide wheel moves to the inclined guide surface, so that the whole fork plate mechanism is enabled to be opened under the matching of the guide wheel and the inclined guide surface, and the stability of the arc-shaped guide structure is improved;

the tensioning structure comprises a tensioning joint block 93 with one end penetrating through the linkage shaft 834, the other end of the tensioning joint block 93 is coated on one end of the guide block 87 far away from the guide rod 86, is erected on the driving seat 802 and is fixedly connected with the L-shaped guide rod 91, and two tensioning pieces 94 with one end abutting against the guide block 87 and the other end abutting against the tensioning joint block 93 are arranged between the guide block 87 and the tensioning joint block 93;

in the process of arc-shaped guiding, the driving seat 802 can move up and down for a certain distance under the action of the guide wheel 92, and in order to ensure that the acting force of the L-shaped guide rod on the guide wheel by the guide inclined plane is concentrated at one end of the guide wheel in the moving process, the tension member is arranged to ensure that the L-shaped guide rod is always kept in a tension state, so that the accuracy in the guiding process is ensured;

the tensioning member 94 is a tensioning spring, and the tensioning member is set as the tensioning spring, so that the manufacturing difficulty and the production cost are reduced, and the assembly efficiency is improved;

the utility model has the advantages that: the waste cleaning and finished product recovery of the product after die cutting of the flat die cutting machine are both automated, the labor intensity of workers is reduced, the production efficiency is improved, and the production cost of enterprises is reduced.

Claims (6)

1. The utility model provides a clear useless machine for concora crush cross cutting machine which characterized in that: including clear useless frame, clear useless frame one end is equipped with the paper input portion of the output that outwards extends and insert the cross cutting machine that flattens, and the paper input portion is close to the one end tilt up setting of cross cutting machine output that flattens, clear useless frame other end is provided with tears the mark honeycomb panel open, and clear useless frame is in tearing the one end that the mark honeycomb panel kept away from the paper input portion open for the opening of wasting discharge, tear the mark subassembly open down installed under the mark honeycomb panel open, be equipped with in the clear useless frame around locating the paper input portion, tear the mark honeycomb panel open and tear the outer conveying mechanism of mark subassembly open down, the last equipartition of conveying mechanism has the paper frame of sending, still including the collection frame that sets up side by side with clear useless frame, be equipped with in the collection frame can follow perpendicular ground direction reciprocating motion's elevating platform, collect the frame and clear useless frame one end of keeping away from ground and erect the conveying direction that is the vertically crossbeam, the crossbeam is located the one end of collecting the frame and installs the last mark subassembly of tearing open and close the yoke mechanism that sets up.

2. The waste removing machine for the platen die cutting machine according to claim 1, wherein: the fork plate mechanism comprises inserting movable plates which are oppositely arranged on two sides of the upper label removing assembly, a plurality of fork plates which are distributed at intervals are installed at one end of each inserting movable plate, and a driving structure for driving the two inserting movable plates to be close to or away from each other is arranged at the other end of each inserting movable plate.

3. The waste removing machine for the platen die cutting machine according to claim 2, wherein: the driving structure comprises a driving seat with one end fixedly connected with the inserting movable plate, and a linkage structure respectively connected with the two driving seats and a driving source for driving the two linkage structures to make the driving seats approach to or separate from each other are installed on the upper label removing assembly.

4. The waste removing machine for a platen die cutting machine according to claim 3, wherein: linkage structure includes the gangboard, first linkage seat is installed to gangboard one end, and the second linkage seat is installed to the other end, and first linkage seat passes through the universal driving shaft to be connected with the drive seat, and it is vice that the lead screw nut is installed to the mark subassembly that tears down on the gangboard corresponds the position, the vice top of lead screw nut is erect to the gangboard, and the vice lead screw nut of lead screw nut and the relative other end of installing first linkage seat of gangboard pass through second linkage seat fixed connection, and the vice installation opposite direction of two lead screw nuts, the driving source includes driving motor, installs first synchronous pulley in driving motor's the drive shaft, and the lead screw nut is vice to be located same rectilinear position department with first synchronous pulley and to install the second synchronous pulley, is connected through belt transmission between first synchronous pulley and the second synchronous pulley.

5. The waste removing machine for a platen die cutting machine according to claim 4, wherein: and the upper label dismounting assembly is also provided with a horizontal guide structure for guiding two ends of the driving seat respectively.

6. The waste removing machine for a platen die cutting machine according to claim 5, wherein: the horizontal guide structure comprises a guide seat fixedly installed on the upper label detaching assembly, a guide rod capable of moving along the guide seat penetrates through the guide seat, a guide block is installed at one end of the guide rod, and the guide rod is fixedly connected with the driving seat through the guide block.

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