CN220363634U - A cutter module turnover transport platform for packing printing machine - Google Patents

Abstract

The utility model provides a tool module turnover transportation platform for a packaging printer, which is applied to turnover transportation operation of a tool module; the device comprises a supporting plate, a protection stop lever, a supporting plate, longitudinal stop pieces, transverse positioning pieces and transverse stop pieces, wherein a plurality of protection stop levers are arranged on the supporting plate, the supporting plate is arranged at the top of the protection stop lever, the longitudinal stop pieces are arranged on the side walls of the protection stop lever, and the transverse positioning pieces and the transverse stop pieces are arranged on the supporting plate; the cutter module is placed between a plurality of protection stop bars, the upper end of cutter module supports through the backup pad, the middle-end of cutter module is spacing through vertical fender piece, the lower extreme of cutter module supports through the layer board, and carries out spacing through horizontal setting element and horizontal fender piece. According to the utility model, the gravity center of the cutter module is transferred to the contact position of the supporting plate and the cutter module, so that the height of the gravity center away from the lower end supporting block of the cutter module is reduced, and the safety is effectively ensured.

Description

A cutter module turnover transport platform for packing printing machine

Technical Field

The utility model relates to the technical field of cutter module turnover transportation equipment for production and use of printing machines, in particular to a cutter module turnover transportation platform for packaging printing machines.

Background

A nine-color gravure press is commonly used in a printing workshop, and eight cutter modules (the cutter modules comprise rolling cutters, indentation and concave-convex tool devices) are arranged in a strip joint and a flip cover of the nine-color gravure press. For example, in the prior art, the weight of one tool exceeds 1 ton, the gravity center of the tool is 611mm away from the supporting surface, the supporting width of the lower end of the tool is 220mm, and the supporting area is smaller than 60cm < 2 >. As shown in fig. 5, the tool module is a tool fixture 8, the tool fixture 8 includes an upper roller 801, an upper roller bearing block 803, a lower roller 802, a lower roller bearing block 804, and a lower end supporting block 805, the number of the upper roller bearing block 803 and the lower roller bearing block 804 is two, the upper roller 801 is rotatably disposed between the two upper roller bearing blocks 803, the lower roller 802 is rotatably disposed between the two lower roller bearing blocks 804, and the upper roller bearing block 803 and the lower roller bearing block 804 are connected through a connecting piece; the lower end supporting block 805 is fixed to the lower roller bearing housing 804.

When the support surface of the tool fixture is in a fully horizontal state, the entire tool fixture is very stable (as shown in fig. 6). However, during storage and turnover, the supporting surface must be inclined left and right, the center of gravity of the tool is high from the supporting surface, and the inclination of the supporting surface by alpha degrees greatly influences the safe and stable state of the tool module (as shown in fig. 7).

In order to ensure the requirement of stable production of the cutter, the cutter module needs to be stored in a heat preservation room at 35 ℃, but the heat preservation room is at a certain distance from the position of the gravure press, the cutter module needs to be circulated frequently, the cutter module has larger potential safety hazards in consideration of jolt and vibration of a road surface, the cutter tool is hoisted into a wooden box for protection in the current solving mode in each turnover and transportation process, time and labor are wasted, the cutter tool is inconvenient, and the wooden box is easy to damage and the cost is higher.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, the present utility model is to provide a tool module turnover transportation platform for a packaging printer, which is used for facilitating the safe turnover and transportation of tool modules in the packaging printer, and avoiding the potential safety hazards in the turnover process of the tool modules, so as to ensure safe transportation, and solve the problems of unchanged turnover and high cost and low efficiency due to the adoption of wooden boxes in the prior art.

In order to achieve the above object, the present utility model provides a turnover transportation platform for a cutter module of a packaging printer, which is applied to turnover transportation operation of the cutter module; the device comprises a supporting plate, a protection stop lever, a supporting plate, longitudinal stop pieces, transverse positioning pieces and transverse stop pieces, wherein a plurality of protection stop levers are arranged on the supporting plate, the supporting plate is arranged at the top of the protection stop lever, the longitudinal stop pieces are arranged on the side walls of the protection stop lever, and the transverse positioning pieces and the transverse stop pieces are arranged on the supporting plate; the cutter module is placed between a plurality of protection stop bars, the upper end of cutter module supports through the backup pad, the middle-end of cutter module is spacing through vertical fender piece, the lower extreme of cutter module supports through the layer board, and carries out spacing through horizontal setting element and horizontal fender piece.

Preferably, the protection pin includes base, channel-section steel, strengthening rib, reinforcement rib and mounting panel, the base sets up on the layer board, the channel-section steel passes through strengthening rib, reinforcement rib and base fixed connection, the mounting panel sets up on the top end face of channel-section steel, the backup pad can be dismantled with the mounting panel and be connected.

Preferably, the mounting plate is provided with a mounting plate connecting hole, the supporting plate is provided with a supporting plate connecting groove, the mounting plate connecting hole is aligned with the supporting plate connecting groove, and a connecting piece is arranged in the mounting plate connecting hole and the supporting plate connecting groove in a penetrating way; the end of the supporting plate is provided with a concave groove, and the upper end of the cutter module is clamped in the concave groove.

Preferably, the longitudinal baffle comprises a longitudinal cushion block and a baffle block, wherein a longitudinal cushion block through hole is formed in the longitudinal cushion block, a baffle block through hole is formed in the baffle block, a cushion block fixing hole is formed in the side wall of the protection baffle rod, and the baffle block through hole, the longitudinal cushion block through hole and the cushion block fixing hole are aligned and the connecting piece is arranged in the three through holes in a penetrating mode.

Preferably, the transverse positioning piece comprises a transverse connecting block, a transverse cushion block, a transverse guide block and a spacer bush, wherein a transverse connecting block groove and a transverse connecting block through hole are formed in the transverse connecting block, a transverse cushion block through hole is formed in the transverse cushion block, a guide block through hole is formed in the transverse guide block, a sleeve inner hole of the spacer bush is aligned with the transverse connecting block groove, a connecting piece is arranged between the sleeve inner hole of the spacer bush and the transverse connecting block groove in a penetrating manner, and the transverse connecting block is fixed on the supporting plate through the spacer bush; the transverse connecting block through holes, the transverse cushion block through holes and the guide block through holes are aligned and the connecting piece is arranged between the transverse connecting block through holes, the transverse cushion block through holes and the guide block through holes in a penetrating mode.

Preferably, the end parts of the transverse guide blocks are rounded; the transverse baffle piece is arranged on the outer side of the transverse positioning piece, and the lower end of the cutter module is clamped between the transverse positioning piece and the transverse baffle piece.

Preferably, the tool module turnover transportation platform for the packaging printer further comprises supporting plate supporting legs, wherein supporting leg connecting holes and supporting leg supporting holes are formed in the supporting plate supporting legs, first supporting plate connecting holes are formed in the supporting plates, and the first supporting plate connecting holes are aligned with the supporting leg connecting holes and connected through connecting pieces.

Preferably, the inner wall of the supporting leg supporting hole is provided with an internal thread, the supporting leg supporting hole is internally provided with a supporting bolt, one end of the supporting bolt is screwed into the supporting leg supporting hole, and the other end of the supporting bolt is abutted against the ground; or the lower end face of the supporting leg supporting hole is provided with a nut, one end of the supporting bolt penetrates through the nut and is screwed into the supporting leg supporting hole, and the other end of the supporting bolt is abutted to the ground.

Preferably, the cutter module is a cutter tool, the cutter tool comprises an upper roller, an upper roller bearing seat, a lower roller bearing seat and a lower end supporting block, the number of the upper roller bearing seat and the lower roller bearing seat is two, the upper roller is rotatably arranged between the two upper roller bearing seats, the lower roller is rotatably arranged between the two lower roller bearing seats, and the upper roller bearing seat and the lower roller bearing seat are connected through a connecting piece; the lower end supporting block is fixed on the lower roller bearing seat.

Preferably, bearing seat shoulders are arranged on two sides of the upper roller bearing seat; the bearing seat shoulder is abutted with the top end surface of the supporting plate.

As described above, the cutter module turnover transportation platform for the packaging printer has the following beneficial effects:

the turnover conveying platform for the cutter modules of the packaging printer can be customized according to the outline dimensions of the cutter modules, is provided with the supporting plates and the supporting plate supporting legs, and can be supported by the supporting plate supporting legs even when the supporting plates are inclined. According to the utility model, the gravity center of the cutter module is transferred to the contact position of the supporting plate and the cutter module, so that the height of the gravity center away from the lower end supporting block of the cutter module is reduced, and the safety is effectively ensured. For example, the height of the gravity center of the cutter module which does not use the utility model in the prior art is 611mm, and the height of the gravity center of the turnover transportation platform which uses the utility model is 14mm, so that the safety risk is greatly reduced.

Drawings

FIG. 1 is a schematic view of the spatial configuration of a knife module epicyclic transport platform for a packaging printer of the present utility model;

FIG. 2 is an enlarged view at A in FIG. 1;

FIG. 3 is a front view of the present utility model for a cutter module epicyclic transport platform of a packaging printer;

FIG. 4 is a top view of the present utility model for a cutter module epicyclic transport platform of a packaging printer;

FIG. 5 is a schematic spatial illustration of a tool module to which the present utility model is applicable;

FIG. 6 is a schematic view of a tool module to which the present utility model is applicable in steady state;

FIG. 7 is a schematic view of a tool module to which the present utility model is applicable when tilted;

FIG. 8 is a schematic view of a first condition of a knife module according to the present utility model being placed in the epicyclic transport platform;

FIG. 9 is a schematic view of a second condition of the present utility model with a knife module in place in the epicyclic transport platform;

fig. 10 is a gravity center height comparison of a tool module to which the present utility model is applied when the epicyclic transportation platform is employed.

Reference numerals illustrate:

1. a supporting plate; 2. a protective stop lever; 201. a base; 202. reinforcing rib plates; 203. reinforcing ribs; 204. channel steel; 205. a mounting plate; 3. a support plate; 301. a support plate connecting groove; 302. a concave groove; 4. a longitudinal stop; 401. a longitudinal cushion block; 402. a stop block; 5. a transverse positioning member; 501. a spacer bush; 502. a transverse connecting block; 503. a transverse cushion block; 504. a transverse guide block; 6. a transverse baffle; 7. supporting plate supporting legs; 701. a support bolt; 702. a support leg connecting hole; 703. a supporting hole for supporting the foot; 8. tool fixture; 801. an upper roller; 802. a lower roller; 803. an upper roller bearing seat; 804. a lower roller bearing seat; 805. and a lower end supporting block.

Detailed Description

Further advantages and effects of the present utility model will become apparent to those skilled in the art from the disclosure of the present utility model, which is described by the following specific examples.

It should be understood that the structures, proportions, sizes, etc. shown in the drawings are for illustration purposes only and should not be construed as limiting the utility model to the extent that it can be practiced, since modifications, changes in the proportions, or adjustments of the sizes, which are otherwise, used in the practice of the utility model, are included in the spirit and scope of the utility model which is otherwise, without departing from the spirit or scope thereof. Also, the terms such as "upper", "lower", "left", "right", "middle", etc. are used herein for convenience of description, but are not to be construed as limiting the scope of the utility model, and the relative changes or modifications are not to be construed as essential to the scope of the utility model.

For convenience of description, the present utility model defines a longitudinal direction of a pallet 1 as a left-right direction, a height direction of the pallet 1 as an up-down direction, and a width direction of the pallet 1 as a front-back direction, so that a rectangular space coordinate system is established in fig. 1, an X direction is a front-back direction, a Y direction is a left-right direction, and a Z direction is an up-down direction, as shown in fig. 1.

As shown in fig. 1-10, the utility model provides a turnover transportation platform for a cutter module of a packaging printer, which is applied to turnover transportation operation of the cutter module; the device comprises a supporting plate 1, a protection stop lever 2, a supporting plate 3, a longitudinal stop piece 4, a transverse positioning piece 5 and a transverse stop piece 6, wherein a plurality of protection stop levers 2 are arranged on the supporting plate 1, the supporting plate 3 is arranged at the top of the protection stop lever 2, the longitudinal stop piece 4 is arranged on the side wall of the protection stop lever 2, and the transverse positioning piece 5 and the transverse stop piece 6 are arranged on the supporting plate 1 along the left-right direction; the cutter module is placed between a plurality of protection pin 2, and the upper end of cutter module carries out the support of upper and lower direction through backup pad 3, and the middle-end of cutter module carries out the spacing of fore-and-aft direction through vertical fender 4, and the lower extreme of cutter module supports through layer board 1, and carries out the spacing of left and right directions through horizontal setting element 5 and horizontal fender 6.

The utility model is provided with the supporting plate 3 to realize the supporting of the cutter module in the up-down direction; the longitudinal baffle 4 is arranged to limit the front and rear directions of the cutter module; the transverse locating piece 5 and the transverse blocking piece 6 are arranged to limit the left and right directions of the cutter module, so that the cutter module can be stably placed on the turnover transportation platform. The pallet 1 and the pallet support legs 7 are provided, and even when the pallet 1 is inclined, the pallet support legs 7 can support the pallet. According to the utility model, the bearing seat shoulder of the cutter module is abutted with the supporting plate 3, so that the distance between the gravity center of the cutter module and the supporting surface is reduced, and the stability is higher.

Preferably, as shown in fig. 1 and 2, the guard bar 2 includes a base 201, a channel 204, a reinforcing rib 203, a reinforcing rib 202, and a mounting plate 205, where the base 201 is disposed on the supporting plate 1, the channel 204 is welded to the base 201 through the reinforcing rib 203 and the reinforcing rib 202, the mounting plate 205 is welded to a top end surface of the channel 204, and the supporting plate 3 is detachably connected to the mounting plate 205. Further, in this embodiment, the base 201 is further provided with a plurality of base through holes, the supporting plate 1 is provided with a plurality of second supporting plate connecting holes, and the base through holes are aligned with the second supporting plate connecting holes and the connecting pieces are arranged between the base through holes and the second supporting plate connecting holes in a penetrating manner, so that the base 201 is fastened and connected to the supporting plate 1. In other embodiments, the base 201 may be welded directly to the pallet 1.

Further, as shown in fig. 1 and 3, a mounting plate connection hole is formed in the mounting plate 205, a support plate connection groove 301 is formed in the support plate 3, the mounting plate connection hole is aligned with the support plate connection groove 301, and a connecting piece is arranged in the mounting plate connection hole and the support plate connection groove in a penetrating manner; the end of the support plate 3 is provided with a concave groove 302, and the upper end of the cutter module is clamped in the concave groove 302. In this embodiment, the number of the mounting plate connecting holes is two, the two mounting plate connecting holes are arranged in the front-rear direction, the two mounting plate connecting holes are aligned with the support plate connecting grooves 301, and the fixing position of the support plate 3 can be changed by moving according to the alignment position of the mounting plate connecting holes and the support plate connecting grooves 301, so that the support plate 3 is fastened and connected with the mounting plate 205 by the connecting piece.

Preferably, as shown in fig. 1, the longitudinal blocking member 4 includes a longitudinal cushion block 401 and a stop block 402, a longitudinal cushion block through hole is formed in the longitudinal cushion block 401 along the front-rear direction, a stop block through hole is formed in the stop block 402 along the front-rear direction, a cushion block fixing hole is formed in the side wall of the protection stop lever 2, and a connecting member is arranged in the stop block through hole, the longitudinal cushion block through hole and the cushion block fixing hole in an aligned manner. In this embodiment, the number of the cushion block fixing holes is three, and the cushion block fixing holes are arranged along the side wall of the protection stop lever 2 in an up-down extending manner, and the number of each cushion block fixing hole is two, so that the number of the stop block through holes and the number of the longitudinal cushion block through holes are also two. One end face of the longitudinal cushion block 401 is abutted against the stop block 402, and the other end face is abutted against the protection stop lever 2.

Preferably, as shown in fig. 1 and 2, the transverse positioning piece 5 comprises a transverse connection block 502, a transverse cushion block 503, a transverse guide block 504 and a spacer bush 501, wherein a transverse connection block groove and a transverse connection block through hole are formed in the transverse connection block 502 along the left-right direction, a transverse cushion block through hole is formed in the transverse cushion block 503 along the up-down direction, a guide block through hole is formed in the transverse guide block 504 along the up-down direction, a sleeve inner hole of the spacer bush 501 is aligned with the transverse connection block groove, a connecting piece is arranged between the sleeve inner hole and the transverse connection block groove in a penetrating manner, and the transverse connection block 502 is fixed on the supporting plate 1 through the spacer bush 501; the transverse connecting block through hole, the transverse cushion block through hole and the guide block through hole are aligned and a connecting piece is arranged between the transverse connecting block through hole, the transverse cushion block through hole and the guide block through hole in a penetrating mode. In this embodiment, the number of the through holes of the transverse connection block is two, so the number of the through holes of the transverse cushion block and the through holes of the guide block is also two. The bottom of spacer 501 is fixedly connected with layer board 1, and the top of spacer 501 and the bottom surface butt of transverse connection piece 502, and pass through connecting piece fastening connection between the sleeve hole of spacer 501 and the transverse connection piece recess. The bottom surface of the lateral cushion block 503 is abutted against the top surface of the lateral connection block 502, and the top surface of the lateral cushion block 503 is abutted against the bottom surface of the lateral guide block 504.

Preferably, as shown in fig. 1 and 2, the right end of the lateral guide block 504 is rounded; the transverse baffle 6 is arranged on the outer side of the right side of the transverse locating piece 5, and the lower end of the cutter module is clamped between the transverse locating piece 5 and the transverse baffle 6. In the present embodiment, the number of the lateral retainers 5 is two, and are arranged in the front-rear direction. The transverse positioning member 5 and the transverse blocking member 6 only need to limit the left side or the right side of the cutter module.

Preferably, as shown in fig. 1 and 3, the turnover transportation platform for the cutter module of the packaging printer further comprises a supporting plate supporting leg 7, wherein a supporting leg connecting hole 702 and a supporting leg supporting hole 703 are formed in the supporting plate supporting leg 7, a first supporting plate connecting hole is formed in the supporting plate 1, and the first supporting plate connecting hole is aligned with the supporting leg connecting hole 702 and connected with the supporting leg connecting hole through a connecting piece. In this embodiment, the number of the supporting leg connecting holes 702 is two, and the supporting leg connecting holes are respectively stepped holes, and the connecting pieces sequentially penetrate through the first supporting plate connecting holes and the supporting leg connecting holes 702 from top to bottom, so as to fasten the supporting leg 7 on the bottom surface of the supporting plate 1. The number of the supporting leg supporting holes 703 is one, supporting bolts 701 are arranged in the supporting leg supporting holes 703, and the supporting bolts 701 penetrate through the supporting leg supporting holes 703 from bottom to top to support the supporting plate supporting legs 7. In other embodiments, the supporting bolts 701 may penetrate the supporting leg supporting holes 703 from bottom to top and enter the pallet 1. The number of the supporting feet 7 of the supporting plate is four.

Preferably, in the present embodiment, the inner wall of the supporting leg supporting hole 703 is provided with an internal thread, the supporting leg supporting hole 703 is provided with a supporting bolt 701 therein, the top end of the supporting bolt 701 is screwed into the supporting leg supporting hole 703, and the bottom end is abutted against the ground; or the lower end face of the supporting leg supporting hole 703 is provided with a nut, the top end of the supporting bolt 701 penetrates through the nut and is screwed into the supporting leg supporting hole 703, and the bottom end is abutted with the ground. By providing the support bolts 701 in the support leg support holes 703, leveling and height adjustment of the pallet 1 can be achieved by adjusting the length of the support bolts 701 screwed into the support leg support holes 703.

Preferably, as shown in fig. 5-10, the tool module in the embodiment is a tool fixture 8, the tool fixture 8 includes an upper roller bearing 803, and bearing seat shoulders are further disposed on two sides of the upper roller bearing 803; when the cutter module falls on the protection stop lever 2, the bearing seat shoulder is abutted with the top end surface of the supporting plate 3.

Further, in this embodiment, the pallet 1, the support plate 3, the transverse connection block 502, the transverse cushion block 503, the longitudinal cushion block 401, and the spacer 501 are all made of 45 # steel. The transverse guide block 504 and the stop block 402 are made of polytetrafluoroethylene materials.

Furthermore, the connecting pieces in this embodiment may be connected by using fasteners such as bolts and screws.

The utility model relates to a tool module turnover transportation platform for a packaging printer, which has the working principle that: be provided with layer board 1, be provided with four protection pin 2 on the layer board 1, constitute the rectangle between four protection pin 2, vertical fender 4 sets up on the relative lateral wall of two protection pin 2 of fore-and-aft direction, and transverse locating piece 5 sets up between two protection pin 2 of fore-and-aft direction, and transverse connecting block 502 of transverse locating piece 5 extends along the left and right directions. The length and width between the four protection stop rods 2 are determined according to the length and width of the cutter module. As shown in fig. 8, when the cutter module is put on the four protection bars 2, the lower end supporting block 805 of the cutter module first passes through the concave groove 302 of the supporting plate 3 until the lower end supporting block 805 contacts with the transverse guiding block 504 of the transverse positioning member 5, and the right end of the transverse guiding block 504 is rounded, so that the lower end supporting block 805 enters between the transverse guiding block 504 and the transverse blocking member 6 according to guiding, and limiting of the cutter module in the left-right direction is realized. As shown in fig. 9, after the tool module is dropped, the stopper 402 of the longitudinal stopper 4 abuts against the lower end supporting block 805 of the tool module, so that the limitation of the tool module in the front-rear direction is realized; the bearing seat shoulder on the cutter module is abutted on the top end surface of the concave groove 302 of the supporting plate 3, so that the support of the cutter module in the up-down direction is realized.

The utility model relates to a tool module turnover transportation platform for a packaging printer, which has the following beneficial effects:

1. the utility model is provided with the supporting plate 1, four protection stop rods 2 are arranged on the supporting plate 1, the cutter module is placed on the protection stop rods 2, and when the cutter module has a tilting trend, the cutter module can be supported by the supporting plate supporting legs 7 by means of the supporting plate 1 and the supporting plate supporting legs 7 arranged below the supporting plate 1, so that the cutter module is not easy to turn over.

2. The support plate 3 is provided with the support plate connecting groove 301, namely the position of the support plate connecting groove 301 can be adjusted along the front-back direction, namely the distance between the two concave grooves 302 of the opposite support plate 3 can be adjusted; the transverse connection block 502 is provided with a transverse connection block groove, namely the position of the transverse connection block 502 on the supporting plate 1 can be adjusted along the left-right direction, namely the distance between the transverse positioning piece 5 and the transverse blocking piece 6 can be adjusted, the application range is enlarged, and the cutter module is suitable for cutter modules with various specifications.

3. The bottom of the supporting plate 1 is provided with the supporting legs 7, the supporting legs 7 are provided with the supporting bolts 701, and the leveling of the supporting plate 1 and the height adjustment of the supporting plate 1 can be realized by changing the lengths of the supporting bolts 701 in the supporting leg supporting holes 703, so that the transport of a transport tool to the turnover transport platform is facilitated.

4. As shown in fig. 10, when the turnover transportation platform is adopted, the gravity center of the cutter module is changed from 611mm to 14mm, so that the stability of the cutter module during transportation is greatly improved, namely, the supporting surface of the original cutter module is the bottom surface of the lower supporting block 805, the distance from the gravity center is 611mm, and when the turnover transportation platform is adopted, the supporting surface of the cutter module is the supporting plate 3, the distance from the gravity center is 14mm, the distance between the gravity center and the supporting surface is reduced, and the safety risk is reduced.

In conclusion, the utility model effectively overcomes various defects in the prior art and has high industrial utilization value.

The above embodiments are merely illustrative of the principles of the present utility model and its effectiveness, and are not intended to limit the utility model. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the utility model. Accordingly, it is intended that all equivalent modifications and variations of the utility model be covered by the claims, which are within the ordinary skill of the art, be within the spirit and scope of the present disclosure.

Claims (10)

1. The tool module turnover transportation platform is used for a packaging printer and is applied to turnover transportation operation of the tool modules; the method is characterized in that: the device comprises a supporting plate (1), a protection stop lever (2), a supporting plate (3), a longitudinal stop piece (4), a transverse positioning piece (5) and a transverse stop piece (6), wherein a plurality of protection stop levers (2) are arranged on the supporting plate (1), the supporting plate (3) is arranged at the top of the protection stop lever (2), the longitudinal stop piece (4) is arranged on the side wall of the protection stop lever (2), and the transverse positioning piece (5) and the transverse stop piece (6) are arranged on the supporting plate (1); the utility model discloses a cutting tool, including cutter module, support board (3), vertical fender piece (4), support board (1), transverse locating piece (5) and transverse fender piece (6) are passed through to the lower extreme of cutter module, cutter module is placed between a plurality of protection pin (2), the upper end of cutter module supports through backup pad (3), the middle-end of cutter module is spacing through vertical fender piece (4), the lower extreme of cutter module supports through layer board (1), and carries out spacingly through transverse locating piece (5) and transverse fender piece (6).

2. The tool module epicyclic transport platform for a packaging printer according to claim 1, wherein: the protection pin (2) includes base (201), channel-section steel (204), strengthening rib (203), reinforcing rib plate (202) and mounting panel (205), base (201) set up on layer board (1), channel-section steel (204) are through strengthening rib (203), reinforcing rib plate (202) and base (201) fixed connection, mounting panel (205) set up on the top end face of channel-section steel (204), backup pad (3) can dismantle with mounting panel (205) and be connected.

3. The tool module epicyclic transport platform for a packaging printer according to claim 2, wherein: the mounting plate (205) is provided with a mounting plate connecting hole, the supporting plate (3) is provided with a supporting plate connecting groove (301), the mounting plate connecting hole is aligned with the supporting plate connecting groove (301), and a connecting piece is arranged in the mounting plate connecting hole and the supporting plate connecting groove in a penetrating manner; the end of the supporting plate (3) is provided with a concave groove (302), and the upper end of the cutter module is clamped in the concave groove (302).

4. The tool module epicyclic transport platform for a packaging printer according to claim 1, wherein: the vertical retaining piece (4) comprises a vertical cushion block (401) and a stop block (402), wherein a vertical cushion block through hole is formed in the vertical cushion block (401), a stop block through hole is formed in the stop block (402), a cushion block fixing hole is formed in the side wall of the protective stop lever (2), and connecting pieces are arranged in the aligned three of the stop block through hole, the vertical cushion block through hole and the cushion block fixing hole.

5. The tool module epicyclic transport platform for a packaging printer according to claim 1, wherein: the transverse positioning piece (5) comprises a transverse connecting block (502), a transverse cushion block (503), a transverse guide block (504) and a spacer bush (501), wherein a transverse connecting block groove and a transverse connecting block through hole are formed in the transverse connecting block (502), a transverse cushion block through hole is formed in the transverse cushion block (503), a guide block through hole is formed in the transverse guide block (504), a sleeve inner hole of the spacer bush (501) is aligned with the transverse connecting block groove, a connecting piece is arranged between the sleeve inner hole and the transverse connecting block groove in a penetrating mode, and the transverse connecting block (502) is fixed on the supporting plate (1) through the spacer bush (501); the transverse connecting block through holes, the transverse cushion block through holes and the guide block through holes are aligned and the connecting piece is arranged between the transverse connecting block through holes, the transverse cushion block through holes and the guide block through holes in a penetrating mode.

6. The tool module epicyclic transport platform for packaging presses according to claim 5, wherein: the end parts of the transverse guide blocks (504) are rounded; the transverse baffle (6) is arranged on the outer side of the transverse locating piece (5), and the lower end of the cutter module is clamped between the transverse locating piece (5) and the transverse baffle (6).

7. The tool module epicyclic transport platform for a packaging printer according to claim 1, wherein: still include layer board supporting legs (7), set up supporting legs connecting hole (702) and supporting legs supporting hole (703) in layer board supporting legs (7), set up first layer board connecting hole on layer board (1), first layer board connecting hole aligns with supporting legs connecting hole (702) and is connected through the connecting piece between the two.

8. The tool module epicyclic transport platform for packaging presses according to claim 7, wherein: an internal thread is formed on the inner wall of the supporting leg supporting hole (703), a supporting bolt (701) is arranged in the supporting leg supporting hole (703), one end of the supporting bolt (701) is screwed into the supporting leg supporting hole (703), and the other end is abutted against the ground; or a nut is arranged on the lower end face of the supporting leg supporting hole (703), one end of the supporting bolt (701) penetrates through the nut and is screwed into the supporting leg supporting hole (703), and the other end of the supporting bolt is abutted against the ground.

9. The tool module epicyclic transport platform for a packaging printer according to claim 1, wherein: the cutter module is a cutter tool device (8), the cutter tool device (8) comprises an upper roller (801), an upper roller bearing seat (803), a lower roller (802), a lower roller bearing seat (804) and a lower end supporting block (805), the number of the upper roller bearing seats (803) and the lower roller bearing seats (804) is two, the upper roller (801) is rotatably arranged between the two upper roller bearing seats (803), the lower roller (802) is rotatably arranged between the two lower roller bearing seats (804), and the upper roller bearing seats (803) and the lower roller bearing seats (804) are connected through connecting pieces; the lower end supporting block (805) is fixed on the lower roller bearing (804).

10. The tool module epicyclic transport platform for a packaging printer according to claim 9, wherein: bearing seat shoulders are further arranged on two sides of the upper roller bearing seat (803); the bearing seat shoulder is abutted with the top end surface of the supporting plate (3).