CN116810895A - Film cutting machine with waste removing mechanism - Google Patents

Abstract

The invention relates to the technical field of film cutting machines, in particular to a film cutting machine with a waste removing mechanism. The waste generated during punching of the film drilling cylinder can be ejected into the film drilling cylinder by the insertion rod, at the moment, the waste can be extracted by means of the negative pressure pump, the automatic waste removal function is realized, the waste can be prevented from directly remaining on the working platform, meanwhile, the repeated cleaning of the waste by workers is avoided, and further the film drilling cylinder can drill the film without stopping, so that the production efficiency of the film is increased; the waste material can be jacked into the inside of traversing section of thick bamboo, after the waste material is jacked into certain degree of depth, can be with the help of the control rod for the unloading piece moves down, and the unloading piece is passed and is worn the groove and carry out the top to the movable rod and move afterwards, makes the movable rod stagger, and the waste material is worn the groove and is jacked into the inside of keeping in the section of thick bamboo down, is concentrated accomodate, effectively avoids the waste material to block up in the inside of membrane drilling section of thick bamboo.

Description

Film cutting machine with waste removing mechanism

Technical Field

The invention relates to the technical field of film cutting machines, in particular to a film cutting machine with a waste removing mechanism.

Background

With the rapid development of electronic technology, mobile phones and tablet computers are popularized in daily life of people, and comprehensive screens are becoming a new development trend of mobile phones or tablet computers, after people purchase mobile phones or tablet computers, a film is stuck on the mobile phones or tablet computers, the film can not only prevent the screen from being stained and scratched, but also reduce the probability of screen shattering, so that more and more merchants start aiming eye light to the sales of the film, the production and manufacture of the existing film are completed through a film cutter, and the film cutter is mainly used for die cutting, indentation and gold stamping operations of corresponding non-metal materials, self-adhesive, double-sided adhesive, electronic or mobile phone rubber pads, trademark labels and the like, and is an important device for post-printing packaging and processing molding.

The film cutting machine not only needs to realize trimming of the film, but also needs to punch the film, at present, when the film cutting machine finishes punching operation of the film, waste materials generated during punching can remain on a processing platform of the film, at the moment, workers are required to clean the waste materials generated during punching, the efficiency and the low efficiency of cleaning the waste materials are achieved, the film cutting machine also needs to stop working in the process of cleaning the waste materials, the normal processing efficiency of the film is delayed, meanwhile, the film cutting machine is damaged easily in the process of cleaning the waste materials, and the cost is brought to the maintenance of the film cutting machine.

Disclosure of Invention

The invention aims to provide a film cutting machine with a waste removing mechanism, which solves the problems in the process.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a take membrane cutter that removes useless mechanism, membrane cutter removes useless mechanism is including work platform, control telescopic link, accept middle section of thick bamboo, exhaust tube, membrane drilling section of thick bamboo, locating hole, content groove, shrink groove, liftout dredge pole and slot slide bar, wherein the control telescopic link sets up in work platform's top, accept the downside at the control telescopic link is fixed to middle section of thick bamboo, wherein the exhaust tube is fixed in the intermediate position of accepting middle section of thick bamboo, membrane drilling section of thick bamboo passes through quick detach subassembly and connects the downside of accepting middle section of thick bamboo, wherein the locating hole symmetry is offered in the upside of membrane drilling section of thick bamboo, the downside of accepting middle section of thick bamboo is offered to the content groove symmetry, wherein shrink groove is offered on work platform, liftout dredge pole runs through and sets up on membrane drilling section of thick bamboo, wherein the slot slide bar is fixed in one side that the liftout dredge pole kept away from membrane drilling section of thick bamboo, one side of thick bamboo is provided with the putty temporary storage subassembly.

Preferably, the middle receiving cylinder is fixed on the control telescopic rod through a screw, wherein the exhaust pipe is communicated with the film drilling cylinder on one side close to the middle receiving cylinder, the positioning hole and the inner groove are communicated, the film drilling cylinder is inserted into the middle receiving cylinder, the shrinkage groove is formed right below the film drilling cylinder, and the ejector dredging rod and the slot sliding rod are integrally formed.

Preferably, the working platform is provided with a side extension rod fixedly connected, wherein the side extension rod is L-shaped, one side of the side extension rod, far away from the working platform, is provided with a transverse groove in a penetrating manner, an interference insertion block is arranged in the transverse groove, the interference insertion block is fixed on the side extension rod, the interference insertion block is a triangular block, and the slot sliding rod is inserted into the transverse groove, wherein the slot sliding rod is positioned at the lower side of the interference insertion block.

Preferably, the outside cover that accepts the middle part section of thick bamboo has the spring that pushes down, wherein pushes down the downside of spring and is provided with movable lantern ring, movable lantern ring cover is on accepting the middle part section of thick bamboo, and wherein the upside of movable lantern ring sets up fixed connection's anticreep and inserts the frame, anticreep inserts the inside that pushes down the spring, and wherein the downside of movable lantern ring sets up fixed connection's leading-in ring.

Preferably, the quick detach subassembly is worn pole, baffle, top and is moved spring and outer piece of arranging including bearing the plectane, wherein the linkage is worn the pole and is run through the setting of bearing the plectane, the baffle is fixed on the pole is worn in the linkage, and wherein top moves the spring cover and wears the pole on the linkage, outer piece of arranging is fixed and is worn the pole and keep away from one side of bearing the plectane in the linkage.

Preferably, the bearing circular plate is placed in the content groove, wherein the bearing circular plate is fixed on the bearing middle cylinder, the linkage penetrating rod penetrates through the bearing middle cylinder, the baffle is located in the content groove, the top moving spring is located between the baffle and the bearing circular plate, and the outer arrangement block is located on the outer side of the bearing middle cylinder.

Preferably, the bearing plate is placed in the shrink groove, wherein the bearing plate is fixedly connected with the working platform, an insertion rod is arranged on the upper side of the bearing plate and is fixedly connected with the bearing plate, the insertion rod is in a T shape, an upper top spring is sleeved on the insertion rod, a movable column is sleeved on the insertion rod, and the movable column is located on the upper side of the upper top spring.

Preferably, the blocking temporary storage component comprises a traversing cylinder, side lugs, a temporary storage cylinder, a movable rod, a reset spring, an upper penetrating groove and a lower penetrating groove, wherein the side lugs are symmetrically fixed on two sides of the traversing cylinder, the temporary storage cylinder is inserted into the side lugs, the movable rod is inserted into the traversing cylinder, the reset spring is positioned in the traversing cylinder, the upper penetrating groove is formed in the upper side of the traversing cylinder, and the lower penetrating groove is formed in the lower side of the traversing cylinder.

Preferably, the traversing cylinder is inserted into the membrane drilling cylinder, wherein the traversing cylinder is fixed on the membrane drilling cylinder, a fixedly connected supporting rod is arranged on the upper side of the traversing cylinder, a fixedly connected control rod is arranged on the supporting rod, and a fixedly connected discharging block is arranged on the lower side of the control rod.

Compared with the prior art, the invention has the beneficial effects that:

the waste generated during punching of the film drilling cylinder can be ejected into the film drilling cylinder by the insertion rod, at the moment, the waste can be extracted by means of the negative pressure pump, the automatic waste removal function is realized, the waste can be prevented from directly remaining on the working platform, meanwhile, the repeated cleaning of the waste by workers is avoided, and further the film drilling cylinder can drill the film without stopping, so that the production efficiency of the film is increased; the waste material can be jacked into the inside of traversing section of thick bamboo, after the waste material is jacked into certain degree of depth, can be with the help of the control rod for the unloading piece moves down, and the unloading piece is passed and is worn the groove and carry out the top to the movable rod and move afterwards, makes the movable rod stagger, and the waste material is worn the groove and is jacked into the inside of keeping in the section of thick bamboo down, is concentrated accomodate, effectively avoids the waste material to block up in the inside of membrane drilling section of thick bamboo.

Drawings

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

Fig. 2 is a schematic semi-sectional perspective view of the working platform of the present invention.

Fig. 3 is a perspective view of a receiving middle cartridge of the present invention.

FIG. 4 is a schematic perspective view of a receiving middle cartridge according to the present invention in semi-section.

Fig. 5 is a schematic semi-sectional perspective view of the side extension bar of the present invention.

Fig. 6 is a schematic perspective view of the ejector dredging rod of the invention.

FIG. 7 is a schematic semi-sectional perspective view of a movable column according to the present invention.

Fig. 8 is an enlarged schematic view of the invention at a in fig. 2.

Fig. 9 is an enlarged schematic view of the invention at B in fig. 6.

Fig. 10 is an enlarged schematic view of fig. 6 at C in accordance with the present invention.

In the figure: 1. a working platform; 101. an edge extension bar; 102. traversing the groove; 103. a collision plug block; 11. controlling a telescopic rod; 12. receiving the middle barrel; 1201. pressing down the spring; 1202. a movable collar; 1203. an anti-drop plug frame; 1204. an introduction ring; 12. receiving the middle barrel; 13. an exhaust pipe; 14. a membrane drilling cylinder; 15. positioning holes; 16. a content slot; 1601. a carrying circular plate; 1602. linkage rod penetrating; 1603. a baffle; 1604. a top-moving spring; 1605. an outer arrangement block; 17. a shrink tank; 1701. a bearing plate; 1702. an insertion rod; 1703. a top spring; 1704. a movable column; 18. a liftout dredging rod; 19. a slot slide bar; 2. traversing the barrel; 201. a support rod; 202. a control lever; 203. a discharge block; 21. a side bump; 22. a temporary storage cylinder; 23. a movable rod; 24. a return spring; 25. a through groove is formed on the upper part; 26. and (5) downwards penetrating the groove.

Detailed Description

Features and exemplary embodiments of various aspects of the invention are described in detail below. In the following detailed description, numerous specific details are set forth in order to provide a thorough understanding of the invention. It will be apparent, however, to one skilled in the art that the present invention may be practiced without some of these specific details. The following description of the embodiments is merely intended to provide a better understanding of the invention by showing examples of the invention. The present invention is in no way limited to any particular configuration and algorithm set forth below, but rather covers any modification, substitution, and improvement of elements, components, and algorithms without departing from the spirit of the invention. In the drawings and the following description, well-known structures and techniques have not been shown in order to avoid unnecessarily obscuring the present invention.

Referring to fig. 1 to 10, the present invention provides a technical solution: including membrane cutting machine removes useless mechanism, its characterized in that: the membrane cutting machine removes useless mechanism including work platform 1, control telescopic link 11, accept middle part section of thick bamboo 12, exhaust tube 13, membrane drilling section of thick bamboo 14, locating hole 15, content groove 16, shrink groove 17, liftout dredging rod 18 and slot slide bar 19, wherein control telescopic link 11 sets up the top at work platform 1, control telescopic link 11 can be installed on the support, and control telescopic link 11 can adopt electric telescopic link, exhaust tube 13 and negative pressure pump are connected, when the negative pressure pump produced the negative pressure, exhaust tube 13 can absorb the waste material of excision with the help of membrane drilling section of thick bamboo 14, the position of membrane drilling section of thick bamboo 14 and shrink groove 17 corresponds the setting from top to bottom, control telescopic link 11 can carry membrane drilling section of thick bamboo 14 to reciprocate, when membrane drilling section of thick bamboo 14 moves down, membrane drilling section of thick bamboo 14 can carry out the operation of punching with the help of shrink groove 17, middle part section of thick bamboo 12 is fixed in the downside of control telescopic link 11, wherein control telescopic link 11 can be installed in the intermediate position of accepting middle part section of thick bamboo 12, membrane drilling section of thick bamboo 14 passes through quick detach subassembly connection in the downside of middle part section of thick bamboo 12, wherein locating hole 15 sets up on the symmetrical top of a side of thick bamboo 14 at the shrink groove 16, wherein the top of the support groove 18 is set up on the top of the support groove of the drilling section of thick bamboo 14, wherein the top of thick bamboo 14 is set up on the top of the support groove 18 of the centre section of thick bamboo 16, wherein drilling section of thick bamboo 14 is set up on the top of the drilling section of thick bamboo 16, and is kept away from the membrane drilling section of thick bamboo 16.

The receiving middle cylinder 12 is fixed on the control telescopic rod 11 through a screw, one side of the exhaust pipe 13, which is close to the receiving middle cylinder 12, is communicated with the film drilling cylinder 14, the positioning hole 15 is communicated with the inner groove 16, the film drilling cylinder 14 is inserted into the receiving middle cylinder 12, the contraction groove 17 is arranged right below the film drilling cylinder 14, and the jacking dredging rod 18 and the slot sliding rod 19 are of an integrally formed structure. The side of the slot slide bar 19 away from the ejection dredging bar 18 presents an inclined surface.

The side extension rod 101 fixedly connected is arranged on the working platform 1, the side extension rod 101 is L-shaped, a transverse groove 102 is formed in a penetrating manner in one side, far away from the working platform 1, of the side extension rod 101, an abutting insert block 103 is arranged in the transverse groove 102, the abutting insert block 103 is fixed on the side extension rod 101, the abutting insert block 103 is a triangular block, and a slot sliding rod 19 is inserted into the transverse groove 102, wherein the slot sliding rod 19 is located on the lower side of the abutting insert block 103. The ejector material dredging rod 18 adopts the magnet post, and when the control telescopic link 11 carries membrane drilling section of thick bamboo 14 to upwards remove, slot slide bar 19 can move along with membrane drilling section of thick bamboo 14, and after slot slide bar 19 moved to certain height, the interference inserted block 103 can push up slot slide bar 19 for the inside of ejector material dredging rod 18 passed membrane drilling section of thick bamboo 14 to one side removes, and the waste material that has the jam in the inside of membrane drilling section of thick bamboo 14 will be pushed up the clearance this moment.

The outer part of the middle barrel 12 is sleeved with a pressing spring 1201, wherein the lower side of the pressing spring 1201 is provided with a movable collar 1202, the movable collar 1202 is sleeved on the middle barrel 12, the upper side of the movable collar 1202 is provided with a fixedly connected anti-falling insertion frame 1203, the anti-falling insertion frame 1203 is inserted into the pressing spring 1201, and the lower side of the movable collar 1202 is provided with a fixedly connected guide ring 1204. The leading-in ring 1204 and the movable lantern ring 1202 are of an integrally formed structure, meanwhile, the leading-in ring 1204 is in a conical shape, the anti-drop plug frame 1203 and the movable lantern ring 1202 are of an integrally formed structure, and the cross section of the anti-drop plug frame 1203 is T-shaped.

The quick-release assembly comprises a bearing circular plate 1601, a linkage penetrating rod 1602, a baffle 1603, a pushing spring 1604 and an outer arrangement block 1605, wherein the linkage penetrating rod 1602 penetrates through the bearing circular plate 1601, the baffle 1603 is fixed on the linkage penetrating rod 1602, the pushing spring 1604 is sleeved on the linkage penetrating rod 1602, and the outer arrangement block 1605 is fixed on one side of the linkage penetrating rod 1602 far away from the bearing circular plate 1601.

The carrying circular plate 1601 is placed inside the content groove 16, wherein the carrying circular plate 1601 is fixed on the carrying middle barrel 12, the linkage penetrating rod 1602 is arranged through the carrying middle barrel 12, wherein the baffle 1603 is inside the content groove 16, the pushing spring 1604 is between the baffle 1603 and the carrying circular plate 1601, and the outer arrangement block 1605 is outside the carrying middle barrel 12. The sum of the elasticity of the two pushing springs 1604 is smaller than the pressure of the needed deformation of the pushing springs 1201, the pushing springs 1201 can push down the movable collar 1202 by means of the anti-falling insertion frame 1203, at the moment, the external arrangement block 1605 is inwards extruded by means of the guide ring 1204, then the linkage penetrating rod 1602 moves, the baffle 1603 extrudes the pushing springs 1604, the pushing springs 1604 deform, the linkage penetrating rod 1602 moves and can be inserted into the positioning holes 15, the purpose of locking the position of the film drilling cylinder 14 is achieved, the position of the film drilling cylinder 14 is quickly installed, the movable collar 1202 is pushed upwards, the linkage penetrating rod 1602 is reset under the action of the pushing springs 1604, and the film drilling cylinder 14 can be quickly detached at the moment.

The bearing plate 1701 is placed in the shrink groove 17, wherein the bearing plate 1701 is fixedly connected with the working platform 1, an insert rod 1702 which is fixedly connected is arranged on the upper side of the bearing plate 1701, the insert rod 1702 is arranged in a T shape, an upper top spring 1703 is sleeved on the insert rod 1702, a movable column 1704 is sleeved on the insert rod 1702, and the movable column 1704 is positioned on the upper side of the upper top spring 1703. When the film drilling cylinder 14 moves downwards to punch the film, the film drilling cylinder 14 can collide with the movable column 1704, and along with the downward movement of the film drilling cylinder 14, the movable column 1704 moves downwards in the shrinkage groove 17, the upper top spring 1703 deforms, the insertion rod 1702 can jack the waste generated when the film drilling cylinder 14 punches into the film drilling cylinder 14, the waste can be extracted by the negative pressure pump at the moment, the automatic waste removing function is realized, the waste can be prevented from directly remaining on the working platform 1, meanwhile, the repeated cleaning of the waste by workers is avoided, the further film drilling cylinder 14 can drill the film without stopping, and the production efficiency of the film is improved.

The blocking temporary storage assembly comprises a traversing cylinder 2, side lugs 21, a temporary storage cylinder 22, a movable rod 23, a reset spring 24, an upper penetrating groove 25 and a lower penetrating groove 26, wherein the side lugs 21 are symmetrically fixed on two sides of the traversing cylinder 2, the temporary storage cylinder 2 is inserted on the side lugs 21, the movable rod 23 is inserted in the traversing cylinder 2, the reset spring 24 is positioned in the traversing cylinder 2, the upper penetrating groove 25 is formed in the upper side of the traversing cylinder 2, and the lower penetrating groove 26 is formed in the lower side of the traversing cylinder 2. The upper through groove 25 and the lower through groove 26 are correspondingly arranged up and down, the temporary storage barrel 22 covers the lower through groove 26, and the movable rod 23 is a magnet rod.

The traversing cylinder 2 is inserted into the film drilling cylinder 14, wherein the traversing cylinder 2 is fixed on the film drilling cylinder 14, a fixedly connected supporting rod 201 is arranged on the upper side of the traversing cylinder 2, a fixedly connected control rod 202 is arranged on the supporting rod 201, and a fixedly connected unloading block 203 is arranged on the lower side of the control rod 202.

When the ejector dredging rod 18 cleans the waste blocked in the film drilling cylinder 14, the waste can be ejected into the transverse cylinder 2, after the waste is ejected to a certain depth, the control rod 202 can be used for enabling the unloading block 203 to move downwards, then the unloading block 203 passes through the upper penetrating groove 25 to push the movable rod 23, so that the movable rod 23 is staggered, the waste is ejected into the temporary storage cylinder 22 through the lower penetrating groove 26 and is intensively stored, and the waste is effectively prevented from being blocked in the film drilling cylinder 14.

The different technical features presented in the different embodiments may be combined to advantage. Other variations to the disclosed embodiments can be understood and effected by those skilled in the art in view of the drawings, the description, and the claims. In the claims, the term "comprising" does not exclude other means or steps; the indefinite article "a" does not exclude a plurality; the terms "first," "second," and the like, are used for designating a name and not for indicating any particular order. Any reference signs in the claims shall not be construed as limiting the scope. The functions of the various elements presented in the claims may be implemented by means of a single hardware or software module. The presence of certain features in different dependent claims does not imply that these features cannot be combined to advantage.

Claims (9)

1. The utility model provides a take membrane cutting machine that removes useless mechanism, includes membrane cutting machine and removes useless mechanism, its characterized in that: the utility model provides a membrane cutting machine removes useless mechanism including work platform (1), control telescopic link (11), accept middle part section of thick bamboo (12), exhaust tube (13), membrane drilling section of thick bamboo (14), locating hole (15), content groove (16), shrink groove (17), liftout dredging rod (18) and slot slide bar (19), wherein control telescopic link (11) set up in the top of work platform (1), accept middle part section of thick bamboo (12) and fix the downside at control telescopic link (11), wherein exhaust tube (13) are fixed in the intermediate position of accepting middle part section of thick bamboo (12), membrane drilling section of thick bamboo (14) are connected in the downside of accepting middle part section of thick bamboo (12) through quick detach subassembly, wherein locating hole (15) symmetry are seted up in the upside of membrane drilling section of thick bamboo (14), content groove (16) symmetry are seted up in the downside of accepting middle part section of thick bamboo (12), wherein shrink groove (17) are seted up on work platform (1), liftout dredging rod (18) run through and are set up on membrane drilling section of thick bamboo (14), wherein slot slide bar (19) are fixed in the downside of keeping away from drilling section of thick bamboo (14) one side that membrane drilling is kept away from in the membrane drilling section of thick bamboo (14).

2. A film cutter with a waste removal mechanism as defined in claim 1, wherein: the middle tube (12) is connected to the control telescopic rod (11) through screws, the exhaust tube (13) is arranged near one side of the middle tube (12) and the film drilling tube (14) in an intercommunication way, the positioning holes (15) and the inner groove (16) are arranged in an intercommunication way, the film drilling tube (14) is inserted into the middle tube (12), the shrinkage groove (17) is arranged under the film drilling tube (14), and the ejector dredging rod (18) and the slot sliding rod (19) are integrally formed.

3. A film cutter with a waste removal mechanism as defined in claim 2, wherein: the utility model discloses a device for fixing a piece of equipment, including work platform (1), slot slide bar (19) are fixed on work platform (1), set up fixed connection's avris extension bar (101) on work platform (1), and wherein the shape that avris extension bar (101) set up is L shape, one side that work platform (1) was kept away from to avris extension bar (101) runs through and sets up and cross groove (102), and wherein conflict inserted block (103) have been placed to the inside that crosses groove (102), conflict inserted block (103) are fixed on avris extension bar (101), and wherein conflict inserted block (103) are triangle-shaped piece, slot slide bar (19) are inserted the inside that crosses groove (102), and wherein slot slide bar (19) are in the downside of conflict inserted block (103).

4. A film cutter with a scrap removal mechanism in accordance with claim 3 wherein: the outside cover of accepting middle part section of thick bamboo (12) has pushing down spring (1201), wherein pushing down the downside of spring (1201) is provided with movable lantern ring (1202), movable lantern ring (1202) cover is on accepting middle part section of thick bamboo (12), and wherein the upside of movable lantern ring (1202) sets up fixed connection's anticreep and inserts frame (1203), anticreep inserts frame (1203) and inserts the inside of pushing down spring (1201), and wherein the downside of movable lantern ring (1202) sets up fixed connection's guide-in ring (1204).

5. The film cutter with a waste removal mechanism of claim 4, wherein: the quick detach subassembly is including bearing plectane (1601), linkage and is worn pole (1602), baffle (1603), top and move spring (1604) and outer arrangement piece (1605), and wherein the linkage is worn pole (1602) and is run through and bear plectane (1601) setting, baffle (1603) are fixed on the linkage and are worn pole (1602), and wherein top moves spring (1604) cover and wear pole (1602) on the linkage, outer arrangement piece (1605) are fixed and are worn pole (1602) and keep away from one side that bears plectane (1601) in the linkage.

6. The film cutter with a waste removal mechanism of claim 5, wherein: the bearing circular plate (1601) is placed in the content groove (16), the bearing circular plate (1601) is fixed on the bearing middle barrel (12), the linkage penetrating rod (1602) penetrates through the bearing middle barrel (12), the baffle (1603) is located in the content groove (16), the pushing spring (1604) is located between the baffle (1603) and the bearing circular plate (1601), and the outer arrangement block (1605) is located on the outer side of the bearing middle barrel (12).

7. The film cutter with a waste removal mechanism of claim 6, wherein: the inside of shrink groove (17) has placed bearing plate (1701), wherein carries out fixed connection between bearing plate (1701) and work platform (1), the upside of bearing plate (1701) sets up fixed connection's inserted bar (1702), and wherein inserted bar (1702) set up the shape for T shape, the cover has top spring (1703) on inserted bar (1702), and wherein inserted bar (1702) is gone up the cover and has movable post (1704), movable post (1704) are located the upside of top spring (1703).

8. The film cutter with a waste removal mechanism of claim 7, wherein: the blocking temporary storage assembly comprises a traversing cylinder (2), side protruding blocks (21), a temporary storage cylinder (22), a movable rod (23), a reset spring (24), an upper penetrating groove (25) and a lower penetrating groove (26), wherein the side protruding blocks (21) are symmetrically fixed on two sides of the traversing cylinder (2), the temporary storage cylinder (2) is inserted into the side protruding blocks (21), the movable rod (23) is inserted into the traversing cylinder (2), the reset spring (24) is positioned in the traversing cylinder (2), the upper penetrating groove (25) is formed in the upper side of the traversing cylinder (2), and the lower penetrating groove (26) is formed in the lower side of the traversing cylinder (2).

9. The film cutter with a waste removal mechanism of claim 8, wherein: the traversing cylinder (2) is inserted into the film drilling cylinder (14), wherein the traversing cylinder (2) is fixed on the film drilling cylinder (14), a fixedly connected supporting rod (201) is arranged on the upper side of the traversing cylinder (2), a fixedly connected control rod (202) is arranged on the supporting rod (201), and a fixedly connected discharging block (203) is arranged on the lower side of the control rod (202).