CN118220906A - Dual-mode flat-pressing flat die-cutting equipment - Google Patents

Abstract

The invention relates to the field of mould pressing processing, in particular to dual-mode flat pressing flat die cutting equipment. Including can drive the transport mechanism that the female parent material removed, set gradually first cross cutting machine and the second cross cutting machine in transport mechanism top, still include: the positioning bracket is fixedly arranged at one end of the output conveying mechanism, which is far away from the first die cutting machine; the material collecting box is fixedly arranged on one side of the positioning bracket, which is close to the center line of the conveying mechanism; the winding roller is rotationally connected with one end of the transport mechanism, which is close to the material collecting box; the winding mechanism is connected with the positioning bracket and can drive the winding roller to intermittently rotate; the discharging mechanism is connected with the winding mechanism and comprises a vacuum gripper, a push support and an extrusion slide plate, wherein the vacuum gripper is arranged on one side of the positioning support, which is close to the material collecting box, the push support is movably arranged above the winding roller, and the extrusion slide plate is arranged on one side of the film material, which is far away from the push support.

Description

Dual-mode flat-pressing flat die-cutting equipment

Technical Field

The invention relates to the field of mould pressing processing, in particular to dual-mode flat pressing flat die cutting equipment.

Background

Die cutting is a common processing means for cutting large format film blanks into predetermined shapes. After the film material is processed by the traditional die cutting machine, the film material is soft due to the self texture, after the die cutting is finished, the film material is adhered to the mother material and is adhered to the mother material (the mother material is the bottom material of the film semi-finished product left after the die cutting is finished, the bottom materials are needed to be distinguished from the film product after the die cutting is finished and are finally collected in a concentrated mode), the existing die cutting equipment can meet the requirement of dual-mode processing, but most workshops are required to be provided with operators for manual collection when the film material is collected, at the moment, the manual collection is low in efficiency, the labor cost is increased, and the economic benefit is influenced.

However, when the film material is collected by the existing automatic collection device, due to the adhesion phenomenon between the film material and the female parent material, the film material may be torn from the adhesion position by applying force from only one side of the film material. And because the film material is light in weight, static electricity generated during the process can cause mutual adsorption between the film material and the collecting device to affect normal collection, and at the same time, compared with a metal material with harder texture, because the film material is soft in texture, the film material can be deformed or wrinkled due to mechanical force or damaged due to excessive mechanical contact or pressure during collection, thereby increasing material loss.

Disclosure of Invention

Based on this, it is necessary to provide a dual mode platen die cutting apparatus in view of the prior art.

In order to solve the problems in the prior art, the invention adopts the following technical scheme:

The utility model provides a dual mode flat-pressing flat die cutting equipment, includes transport mechanism, the first cross cutting machine and the second cross cutting machine that set gradually in transport mechanism top that can drive the female parent material to remove, still includes:

The positioning bracket is fixedly arranged at one end of the output conveying mechanism, which is far away from the first die cutting machine;

the material collecting box is fixedly arranged on one side of the positioning bracket, which is close to the center line of the conveying mechanism;

the winding roller is rotationally connected with one end of the transport mechanism, which is close to the material collecting box;

The winding mechanism is connected with the positioning bracket and can drive the winding roller to intermittently rotate;

The discharging mechanism is connected with the winding mechanism and comprises a vacuum gripper, a push support and an extrusion slide plate, wherein the vacuum gripper is arranged on one side of the positioning support, which is close to the material collecting box, the push support is movably arranged above the winding roller, and the extrusion slide plate is arranged on one side of the film material, which is far away from the push support.

Further, the locating support still includes transfer baffle, first curb plate and second curb plate, and the second curb plate links firmly with the lateral wall of collection workbin, and one end and the second curb plate of transfer baffle keep away from one side of collection workbin and link firmly, and the other end of first curb plate and transfer baffle links firmly.

Further, winding mechanism includes driving motor, driving gear, assembly gear, first band pulley, the second band pulley, incomplete tooth and winding gear, driving motor passes through the fixed one side that sets up of motor frame and keeps away from the second curb plate, driving gear links firmly with driving motor's output coaxial line, assembly gear rotates with first curb plate to be connected, assembly gear meshes with driving gear, first band pulley links firmly with assembly gear coaxial line, winding gear links firmly with the winding roller coaxial line, incomplete tooth rotates the side that sets up at the winding gear, incomplete tooth meshes with the winding gear, second band pulley links firmly with incomplete tooth coaxial line, second band pulley passes through belt drive with first band pulley and is connected.

Further, the unloading mechanism still includes first rocker, initiative slider, initiative grooved ring, reciprocal rack, first slide rail and reciprocating gear, first rocker sets up in one side that first curb plate is close to the second curb plate, the one end and the assembly gear coaxial line of first rocker link firmly, the other end coaxial line rotation of initiative slider and first rocker is connected, one side that first slide rail and second curb plate are close to first curb plate links firmly, reciprocal rack and first slide rail sliding connection, one side that first slide rail was kept away from to initiative grooved ring and reciprocal rack links firmly, initiative slider and the inner circle sliding connection of initiative grooved ring, reciprocating gear and one side that the second curb plate is close to first curb plate rotate to be connected, reciprocal gear meshes with reciprocal rack.

Further, the unloading mechanism still includes second rocker, load-bearing platform, spacing pivot, spacing roller and spacing axle bed, the second rocker sets up in the one side that the first curb plate was kept away from to the second curb plate, the one end and the reciprocal gear coaxial line of second rocker link firmly, load-bearing platform is articulated with the other end of second rocker, load-bearing platform links firmly with the vacuum gripper, the one end and the load-bearing platform of spacing roller link firmly, the other end and spacing axle bed sliding connection, spacing pivot and second curb plate link firmly, spacing pivot and spacing axle bed rotate and are connected.

Further, unloading mechanism still includes the switching rack, link up branch, initiative rack, driving gear and driven rack, the switching rack sets up in one side that the second curb plate is close to first curb plate, the switching rack meshes with reciprocating gear, one side that links up branch links firmly with the one end that the switching rack is close to transport mechanism, the opposite side that links up branch links firmly with the initiative rack, the lateral wall sliding connection of initiative rack and transport mechanism, driving gear rotates with transport mechanism's lateral wall to be connected, driving gear meshes with the initiative rack, driven rack slides and sets up in one side that driving gear kept away from the initiative rack, driven rack meshes with driving gear.

Further, the blanking mechanism further comprises a driven supporting rod and a switching supporting rod, the driven supporting rod is fixedly connected with the driven rack, one end of the switching supporting rod is connected with the driven supporting rod through a bolt in an adjustable mode, and the other end of the switching supporting rod is connected with the pushing support through a bolt in an adjustable mode.

Further, the unloading mechanism still includes consolidates support, extrusion rack, translation rack, first kludge, second kludge and spacing cartridge, consolidate the fixed one side that sets up at first side board is close to transport mechanism, extrusion slide and the upper end sliding connection who consolidates the support, extrusion rack links firmly with the lower extreme of extrusion slide, extrusion gear rotates with the one side that consolidates the support and is close to extrusion rack and is connected, extrusion gear meshes with extrusion rack, translation rack and consolidate support sliding connection, translation rack meshes with extrusion gear, first kludge links firmly with consolidate the support, second kludge links firmly with driven support near the one end of consolidating the support, spacing cartridge one end links firmly with the second kludge, the other end and first kludge sliding connection, the shaping has the hole of dodging that can be used for vacuum gripper work on the extrusion slide.

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

The method comprises the following steps: the device adopts the vacuum gripper to realize automatic blanking of the film material made of flexible materials, the process does not need manual collection by operators, and the film material does not need to be wrinkled due to mechanical acting force, so that the material loss is reduced;

and two,: the device adopts the push support to realize auxiliary processing of the film material, ensures that the push support can apply supporting force to the film material after the vacuum gripper acts on the film material, ensures that the film material can be rapidly separated from the female parent material, and improves the product quality;

And thirdly,: the device presses the female parent material through the extrusion slide plate, prevents the female parent material from moving together with the film material under the action of the vacuum gripper, simultaneously is convenient for the bonding part between the film material and the female parent material to break, and improves the blanking efficiency.

Drawings

FIG. 1 is a schematic perspective view of an embodiment;

FIG. 2 is a side view of an embodiment;

FIG. 3 is a cut-away view of an embodiment;

FIG. 4 is a schematic perspective view of a winding mechanism and a blanking mechanism in an embodiment;

FIG. 5 is a front view of the blanking mechanism in the embodiment;

FIG. 6 is an enlarged view of the structure of FIG. 5 at A;

FIG. 7 is an exploded perspective view of the blanking mechanism in the embodiment;

FIG. 8 is an enlarged view of the structure at B in FIG. 7;

fig. 9 is an enlarged view of the structure at C in fig. 7.

The reference numerals in the figures are:

1. A transport mechanism; 2. a first die cutter; 3. a second die cutter; 4. a positioning bracket; 5. a first side plate; 6. a second side plate; 7. a transfer baffle; 8. a material collecting box; 9. a wind-up roll; 10. film material; 11. a female parent material; 12. a winding mechanism; 13. an active motor; 14. a drive gear; 15. an assembly gear; 16. a first pulley; 17. a second pulley; 18. residual teeth; 19. a winding gear; 20. a blanking mechanism; 21. a first rocker; 22. a driving slide block; 23. a driving groove ring; 24. a reciprocating rack; 25. a first slide rail; 26. a reciprocating gear; 27. a second rocker; 28. a load-bearing platform; 29. a vacuum gripper; 30. a limiting rotating shaft; 31. limiting roll shafts; 32. a limiting shaft seat; 33. a transfer rack; 34. a connecting support rod; 35. a driving rack; 36. a drive gear; 37. a driven rack; 38. a driven strut; 39. a switching support rod; 40. a push support; 41. reinforcing the support; 42. extruding the sliding plate; 43. avoidance holes; 44. extruding the rack; 45. extruding the gear; 46. translating the rack; 47. a first assembly tube; 48. a second assembly tube; 49. and limiting the inserting shaft.

Detailed Description

The invention will be further described in detail with reference to the drawings and the detailed description below, in order to further understand the features and technical means of the invention and the specific objects and functions achieved.

Referring to fig. 1 to 9, a dual-mode platen die cutting apparatus includes a transporting mechanism 1 capable of driving a parent material 11 to move, a first die cutting machine 2 and a second die cutting machine 3 sequentially disposed above the transporting mechanism 1, and further includes:

the positioning bracket 4 is fixedly arranged at one end of the output conveying mechanism 1 far away from the first die cutting machine 2;

the material collecting box 8 is fixedly arranged on one side of the positioning bracket 4, which is close to the center line of the conveying mechanism 1;

the wind-up roll 9 is rotationally connected with one end of the transport mechanism 1, which is close to the material collecting box 8;

the winding mechanism 12 is connected with the positioning bracket 4 and can drive the winding roller 9 to intermittently rotate;

The blanking mechanism 20 is connected with the winding mechanism 12 and comprises a vacuum gripper 29, a push support 40 and an extrusion sliding plate 42, wherein the vacuum gripper 29 is arranged on one side of the positioning support 4 close to the material collecting box 8, the push support 40 is movably arranged above the winding roller 9, and the extrusion sliding plate 42 is arranged on one side of the film material 10 far away from the push support 40.

When the device is operated, an operator firstly places the female parent material 11 at the input end of the conveying mechanism 1, then the conveying mechanism 1 is started to drive the female parent material 11 to move, and the female parent material 11 is finally wound by the winding roller 9 after passing through the first die cutting machine 2 and the second die cutting machine 3.

In this process, the transporting mechanism 1 drives the female parent material 11 to intermittently move, so the winding mechanism 12 can drive the winding roller 9 to intermittently rotate at the same frequency after being started, meanwhile, the winding mechanism 12 can also drive the blanking mechanism 20 to operate, when the blanking mechanism 20 operates, the film material 10 molded on the transporting mechanism 1 can be moved into the collecting box 8 through the vacuum gripper 29, in order to prevent damage to the film material 10, the winding mechanism 12 can also drive the push support 40 to move towards the direction close to the film material 10, so that the push support 40 can provide a supporting point for the film material 10, and meanwhile, the extrusion sliding plate 42 can press the outer edge of the film material 10, so that the film material 10 is prevented from being associated with the female parent material 11 when being separated.

In order to supplement the specific structure of the positioning bracket 4, the following features are provided:

The locating support 4 still includes transfer baffle 7, first curb plate 5 and second curb plate 6, and second curb plate 6 links firmly with the lateral wall of collection material case 8, and one end and the second curb plate 6 of transfer baffle 7 keep away from the one side of collection material case 8 and link firmly, and first curb plate 5 links firmly with the other end of transfer baffle 7. When the device is in operation, the vacuum gripper 29 can transfer the film material 10 after compression molding into the material collecting box 8, and the interlayer between the first side plate 5 and the second side plate 6 is used for installing the blanking mechanism 20 so as to improve the integral integration level of the device.

To supplement the specific structure of the winding mechanism 12, the following features are specifically provided:

The winding mechanism 12 comprises a driving motor 13, a driving gear 14, an assembly gear 15, a first belt wheel 16, a second belt wheel 17, a residual tooth 18 and a winding gear 19, wherein the driving motor 13 is fixedly arranged on one side, far away from the second side plate 6, of the first side plate 5 through a motor frame, the driving gear 14 is fixedly connected with the output end of the driving motor 13 through a coaxial line, the assembly gear 15 is rotationally connected with the first side plate 5, the assembly gear 15 is meshed with the driving gear 14, the first belt wheel 16 is fixedly connected with the assembly gear 15 through a coaxial line, the winding gear 19 is fixedly connected with the winding roller 9 through a coaxial line, the residual tooth 18 is rotationally arranged on the side of the winding gear 19, the residual tooth 18 is meshed with the winding gear 19, the second belt wheel 17 is coaxially connected with the residual tooth 18 through a belt, and the second belt wheel 17 is connected with the first belt wheel 16 through a belt transmission. After the driving motor 13 is started, the driving motor 13 drives the assembly gear 15 to rotate through the driving gear 14, the assembly gear 15 drives the second belt pulley 17 to rotate through the first belt pulley 16, the second belt pulley 17 drives the winding gear 19 to rotate through the residual teeth 18 after rotating, and the residual teeth 18 only intermittently mesh with the winding gear 19, so that the winding gear 19 can be driven to intermittently rotate after the residual teeth 18 rotate.

To supplement the specific structure of the blanking mechanism 20, the following features are specifically provided:

The blanking mechanism 20 further comprises a first rocker 21, a driving sliding block 22, a driving groove ring 23, a reciprocating rack 24, a first sliding rail 25 and a reciprocating gear 26, wherein the first rocker 21 is arranged on one side of the first side plate 5, which is close to the second side plate 6, one end of the first rocker 21 is fixedly connected with the assembly gear 15 in a coaxial line, the driving sliding block 22 is coaxially connected with the other end of the first rocker 21 in a rotating manner, one side of the first sliding rail 25, which is close to the first side plate 5, of the second side plate 6 is fixedly connected with the reciprocating rack 24, the reciprocating rack 25 is in sliding connection with the first sliding rail 25, one side, which is far from the first sliding rail 25, of the driving groove ring 23 is fixedly connected with the reciprocating rack 24, the driving sliding block 22 is in sliding connection with the inner ring of the driving groove ring 23, the reciprocating gear 26 is rotatably connected with one side, which is close to the first side plate 5, of the second side plate 6 is meshed with the reciprocating gear 26. After the driving motor 13 is started, the driving motor 13 drives the first rocker 21 to rotate through the assembly gear 15, at this time, the first rocker 21 rotates by taking the center of the assembly gear 15 as a pivot, the driving slider 22 is driven to move along the inner ring of the driving groove ring 23 after the first rocker 21 rotates, and when the driving slider 22 moves, the driving slider 22 drives the reciprocating rack 24 to move along the first sliding rail 25 through the driving groove ring 23, and when the reciprocating rack 24 moves, the reciprocating gear 26 is driven to rotate.

In order to drive the vacuum gripper 29 to move, the following features are provided:

The blanking mechanism 20 further comprises a second rocker 27, a bearing platform 28, a limiting rotating shaft 30, a limiting roller shaft 31 and a limiting shaft seat 32, wherein the second rocker 27 is arranged on one side, far away from the first side plate 5, of the second side plate 6, one end of the second rocker 27 is fixedly connected with the reciprocating gear 26 in a coaxial line, the bearing platform 28 is hinged with the other end of the second rocker 27, the bearing platform 28 is fixedly connected with the vacuum gripper 29, one end of the limiting roller shaft 31 is fixedly connected with the bearing platform 28, the other end of the limiting roller shaft 31 is in sliding connection with the limiting shaft seat 32, the limiting rotating shaft 30 is fixedly connected with the second side plate 6, and the limiting rotating shaft 30 is in rotating connection with the limiting shaft seat 32. When the reciprocating gear 26 rotates, the reciprocating gear 26 drives the carrying platform 28 to move through the second rocker 27, the carrying platform 28 can drive the vacuum gripper 29 to take down the film material 10 and move into the collecting box 8 after moving, and the limiting roller shaft 31 can limit the movement of the carrying platform 28 to prevent the carrying platform 28 from moving.

To supplement the specific structure of the blanking mechanism 20, the following features are specifically provided:

The blanking mechanism 20 further comprises a transfer rack 33, a connection supporting rod 34, a driving rack 35, a driving gear 36 and a driven rack 37, wherein the transfer rack 33 is arranged on one side, close to the first side plate 5, of the second side plate 6, the transfer rack 33 is meshed with the reciprocating gear 26, one side of the connection supporting rod 34 is fixedly connected with one end, close to the conveying mechanism 1, of the transfer rack 33, the other side of the connection supporting rod 34 is fixedly connected with the driving rack 35, the driving rack 35 is slidably connected with the side wall of the conveying mechanism 1, the driving gear 36 is rotatably connected with the side wall of the conveying mechanism 1, the driving gear 36 is meshed with the driving rack 35, the driven rack 37 is slidably arranged on one side, far away from the driving rack 35, of the driving gear 36, and the driven rack 37 is meshed with the driving gear 36. When the reciprocating gear 26 rotates, the reciprocating gear 26 drives the connecting support rod 34 to move through the connecting rack 33, the connecting support rod 34 drives the driving gear 36 to rotate through the driving rack 35 after moving, and the driven rack 37 is driven to move after the driving gear 36 rotates.

In order to drive the push support 40 to move, the following features are specifically provided:

the blanking mechanism 20 further comprises a driven supporting rod 38 and a switching supporting rod 39, wherein the driven supporting rod 38 is fixedly connected with the driven rack 37, one end of the switching supporting rod 39 is adjustably connected with the driven supporting rod 38 through bolts, and the other end of the switching supporting rod 39 is adjustably connected with the pushing support 40 through bolts. When the driven rack 37 moves, the driven rack 37 drives the transfer support rod 39 to move through the driven support rod 38, the transfer support rod 39 assists the film material 10 to separate from the female parent material 11 through the push support 40 after moving, and the push support 40 can conduct angle adjustment through bolts at two ends of the transfer support rod 39, so that one side, close to the film material 10, of the push support 40 can face the film material 10.

In order to drive the extrusion slide 42 to disengage from the parent material 11 when the film material 10 is being extracted, the following features are provided:

The blanking mechanism 20 further comprises a reinforcing support 41, an extrusion rack 44, a translation rack 46, a first assembling tube 47, a second assembling tube 48 and a limiting inserting shaft 49, wherein the reinforcing support 41 is fixedly arranged on one side, close to the conveying mechanism 1, of the first side plate 5, the extrusion slide plate 42 is in sliding connection with the upper end of the reinforcing support 41, the extrusion rack 44 is fixedly connected with the lower end of the extrusion slide plate 42, the extrusion gear 45 is in rotating connection with one side, close to the extrusion rack 44, of the reinforcing support 41, the extrusion gear 45 is meshed with the extrusion rack 44, the translation rack 46 is in sliding connection with the reinforcing support 41, the translation rack 46 is meshed with the extrusion gear 45, the first assembling tube 47 is fixedly connected with the reinforcing support 41, the second assembling tube 48 is fixedly connected with one end, close to the reinforcing support 41, of the limiting inserting shaft 49 is fixedly connected with the second assembling tube 48, the other end is in sliding connection with the first assembling tube 47, and a avoidance hole 43 which can be used for the work of the vacuum grabber 29 is formed on the extrusion slide plate 42. When the push support 40 is close to the film material 10, the driven support rod 38 pushes the translation rack 46 to move through the second assembly tube 48, the translation rack 46 drives the extrusion rack 44 to move through the extrusion gear 45 after moving, and the extrusion rack 44 can drive the extrusion slide plate 42 to abut against the female parent material 11 after moving, so that the vacuum gripper 29 can grip the film material 10 after passing through the avoidance hole 43.

The theory of operation of this device is, and this device is when the operation, and operating personnel places maternal material 11 at transport mechanism 1's input earlier, and transport mechanism 1 starts afterwards and can drive maternal material 11 and remove, and maternal material 11 can be after first cross cutting machine 2 and second cross cutting machine 3 finally by wind-up roll 9 rolling.

In this process, the transporting mechanism 1 drives the female parent material 11 to intermittently move, so the driving motor 13 drives the wind-up roller 9 to intermittently rotate at the same frequency after being started, meanwhile, the driving motor 13 can also move the film material 10 molded on the transporting mechanism 1 into the collecting box 8 through the vacuum gripper 29 after being started, in order to prevent damage to the film material 10, the driven rack 37 can also drive the push support 40 to move towards the direction close to the film material 10, the push support 40 is ensured to provide a supporting point for the film material 10, and meanwhile, the extrusion sliding plate 42 can press the female parent material 11 at the outer edge of the film material 10, so that the film material 10 is prevented from being separated from the female parent material 11.

The foregoing examples merely illustrate one or more embodiments of the invention, which are described in greater detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (8)

1. The utility model provides a dual mode flat-pressing flat die cutting equipment, includes transport mechanism (1) that can drive female parent material (11) and remove, sets gradually first cross cutting machine (2) and second cross cutting machine (3) in transport mechanism (1) top, its characterized in that still includes:

The positioning bracket (4) is fixedly arranged at one end of the output conveying mechanism (1) far away from the first die cutting machine (2);

the material collecting box (8) is fixedly arranged on one side of the positioning bracket (4) close to the center line of the conveying mechanism (1);

The wind-up roll (9) is rotationally connected with one end of the conveying mechanism (1) close to the material collecting box (8);

the winding mechanism (12) is connected with the positioning bracket (4) and can drive the winding roller (9) to intermittently rotate;

unloading mechanism (20), link to each other with winding mechanism (12), including vacuum gripper (29), push support (40) and extrusion slide (42), vacuum gripper (29) set up in locating support (4) be close to one side of collection case (8), push support (40) activity set up in the top of wind-up roll (9), extrusion slide (42) set up in film material (10) keep away from one side of push support (40).

2. The dual-mode flat pressing flat die cutting equipment according to claim 1, wherein the positioning support (4) further comprises a transfer baffle (7), a first side plate (5) and a second side plate (6), the second side plate (6) is fixedly connected with the side wall of the material collecting box (8), one end of the transfer baffle (7) is fixedly connected with one side, far away from the material collecting box (8), of the second side plate (6), and the other end of the first side plate (5) is fixedly connected with the transfer baffle (7).

3. The dual-mode flat-pressing die cutting equipment according to claim 2, wherein the rolling mechanism (12) comprises a driving motor (13), a driving gear (14), an assembly gear (15), a first belt wheel (16), a second belt wheel (17), a residual tooth (18) and a rolling gear (19), the driving motor (13) is fixedly arranged on one side, far away from the second side plate (6), of the first side plate (5) through a motor frame, the driving gear (14) is fixedly connected with the output end of the driving motor (13) in a coaxial line, the assembly gear (15) is rotationally connected with the first side plate (5), the assembly gear (15) is meshed with the driving gear (14), the first belt wheel (16) is fixedly connected with the assembly gear (15) in a coaxial line, the rolling gear (19) is fixedly connected with the rolling roller (9), the residual tooth (18) is rotationally arranged on the side of the rolling gear (19), the residual tooth (18) is meshed with the rolling gear (19), the second belt wheel (17) is fixedly connected with the residual tooth (18) in a coaxial line, and the second belt wheel (17) is connected with the first belt wheel (16) in a coaxial line.

4. A dual-mode platen die cutting device according to claim 3, wherein the blanking mechanism (20) further comprises a first rocker (21), a driving sliding block (22), a driving groove ring (23), a reciprocating rack (24), a first sliding rail (25) and a reciprocating gear (26), the first rocker (21) is arranged on one side of the first side plate (5) close to the second side plate (6), one end of the first rocker (21) is fixedly connected with the assembly gear (15) in a coaxial line, the driving sliding block (22) is coaxially and rotatably connected with the other end of the first rocker (21), one side of the first sliding rail (25) close to the first side plate (5) is fixedly connected with the second side plate (6), the reciprocating rack (24) is slidably connected with the first sliding rail (25), one side of the driving groove ring (23) far away from the first sliding rail (25) is fixedly connected with the reciprocating rack (24), the driving sliding block (22) is slidably connected with the inner ring of the driving groove ring (23), the reciprocating gear (26) is rotatably connected with one side of the second side plate (6) close to the first side plate (5), and the reciprocating gear (24) is meshed with the reciprocating rack (24).

5. The dual-mode flat-pressing flat die cutting equipment according to claim 4, wherein the blanking mechanism (20) further comprises a second rocker (27), a bearing platform (28), a limiting rotating shaft (30), a limiting roller shaft (31) and a limiting shaft seat (32), the second rocker (27) is arranged on one side, far away from the first side plate (5), of the second side plate (6), one end of the second rocker (27) is fixedly connected with the reciprocating gear (26) in a coaxial line, the bearing platform (28) is hinged to the other end of the second rocker (27), the bearing platform (28) is fixedly connected with the vacuum gripper (29), one end of the limiting roller shaft (31) is fixedly connected with the bearing platform (28), the other end of the limiting roller shaft (31) is slidably connected with the limiting shaft seat (32), the limiting rotating shaft (30) is fixedly connected with the second side plate (6), and the limiting rotating shaft (30) is rotatably connected with the limiting shaft seat (32).

6. The dual-mode flat-pressing flat die cutting equipment according to claim 5, wherein the blanking mechanism (20) further comprises a transfer rack (33), a connection support rod (34), a driving rack (35), a driving gear (36) and a driven rack (37), the transfer rack (33) is arranged on one side, close to the first side plate (5), of the second side plate (6), the transfer rack (33) is meshed with the reciprocating gear (26), one side of the connection support rod (34) is fixedly connected with one end, close to the conveying mechanism (1), of the transfer rack (33), the other side of the connection support rod (34) is fixedly connected with the driving rack (35), the driving rack (35) is in sliding connection with the side wall of the conveying mechanism (1), the driving gear (36) is in rotating connection with the side wall of the conveying mechanism (1), the driving gear (36) is meshed with the driving rack (35), the driven rack (37) is arranged on one side, far away from the driving rack (35), and the driven rack (37) is meshed with the driving gear (36).

7. The dual-mode platen die cutting apparatus of claim 6, wherein the blanking mechanism (20) further comprises a driven strut (38) and a transfer strut (39), the driven strut (38) is fixedly connected with the driven rack (37), one end of the transfer strut (39) is adjustably connected with the driven strut (38) through a bolt, and the other end of the transfer strut (39) is adjustably connected with the push support (40) through a bolt.

8. The dual-mode platen die cutting apparatus according to claim 7, wherein the blanking mechanism (20) further comprises a reinforcing support (41), an extrusion rack (44), a translation rack (46), a first set of tubes (47), a second set of tubes (48) and a limiting plug-in shaft (49), the reinforcing support (41) is fixedly arranged on one side of the first side plate (5) close to the conveying mechanism (1), the extrusion slide plate (42) is slidably connected with the upper end of the reinforcing support (41), the extrusion rack (44) is fixedly connected with the lower end of the extrusion slide plate (42), the extrusion gear (45) is rotatably connected with one side of the reinforcing support (41) close to the extrusion rack (44), the extrusion gear (45) is meshed with the extrusion rack (44), the translation rack (46) is slidably connected with the reinforcing support (41), the translation rack (46) is meshed with the extrusion gear (45), the first set of tubes (47) is fixedly connected with the reinforcing support (41), the second set of tubes (48) is fixedly connected with one end of the driven support (38) close to the reinforcing support (41), the other end of the limiting plug-in shaft (49) is fixedly connected with the first set of tubes (47), the extrusion slide plate (42) is provided with a avoiding hole (43) which can be used for the vacuum gripper (29) to work.