CN111516377A

CN111516377A - Self-limiting anti-skew die cutting device for printing and use method thereof

Info

Publication number: CN111516377A
Application number: CN202010336633.5A
Authority: CN
Inventors: 尹品
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-04-26
Filing date: 2020-04-26
Publication date: 2020-08-11

Abstract

The invention discloses a self-limiting anti-skew die cutting device for printing and a using method thereof. This from crooked cutting device for printing of spacing formula and application method thereof, along with installation blade carries out the side forms downwards through electric putter and cuts work, through with the meshing structure between the drive gear, stable haulage rope through the butt joint drives 2 groups of spacing piece and moves in opposite directions, and then carries out secondary spacing work to the limit end of material, further assurance its accuracy of cutting.

Description

Self-limiting anti-skew die cutting device for printing and use method thereof

Technical Field

The invention relates to the technical field of printing equipment, in particular to a self-limiting anti-skew die cutting device for printing and a using method thereof.

Background

With the continuous development of the printing industry in China, the research and development technology of printing equipment is mature continuously, the printing is a technology for transferring printing ink to the surfaces of materials such as paper and the like through processes such as plate making, pressurizing, die cutting and the like, and copying the content of the original documents in batches, after the materials are printed and molded, the edge of the materials need to be cut through a die cutting device, but the existing die cutting device for printing has certain defects, such as:

1. the existing die cutting device for printing cannot stably perform anti-skew and deviation-rectifying work on materials such as paper to be cut, so that the edge end of the paper cannot be accurately cut, the phenomenon of inaccurate cutting uniformity is easy to occur, the formed materials cannot meet the standard size condition, and further, inconvenience is brought to the operation of a user;

2. the existing die cutting device for printing cannot realize automatic edge waste removal work after edge blank cutting and die cutting work is carried out on materials, and a user needs to manually clean the work, so that the blade is easy to touch a relatively sharp blade position, and certain potential safety hazards exist.

Aiming at the problems, innovative design is urgently needed on the basis of the structure of the original die cutting device.

Disclosure of Invention

The invention aims to provide a self-limiting anti-skew die cutting device for printing and a use method thereof, and the self-limiting anti-skew die cutting device is used for solving the problems that the materials such as paper to be cut cannot be stably subjected to anti-skew correction work, so that the edge ends of the paper cannot be accurately cut, the phenomenon of inaccurate cutting uniformity is easy to occur, the formed materials cannot meet the standard size condition, automatic edge end waste material removal work cannot be realized after edge end blank cutting and die cutting work is performed on the materials, and a user needs to manually clean the materials, so that the sharp blade position is easy to touch.

In order to achieve the purpose, the invention provides the following technical scheme: a self-limiting anti-skew die cutting device for printing comprises a base body, an electric push rod, a mounting blade and a limiting block, wherein the electric push rod is installed on the inner side of the upper end of the base body through a bolt, the mounting blade is installed on the output end of the electric push rod through a bolt, a fixing rack is fixedly connected to the upper end of the mounting blade, a butt joint groove is formed in the upper end of the inner surface of the base body and is connected with the fixing rack, a transmission gear is installed on the inner side of the butt joint groove in an embedded mode, a first traction rope is installed on the shaft end of the transmission gear in an embedded mode and is connected with the inner surface of the base body, a first sliding groove is formed in the inner side of the base body, a reset spring is fixedly connected to the inner surface of the first sliding groove, the limiting block is installed on the inner side of the first sliding groove in an, the outer end fixedly connected with second haulage rope of first haulage rope, and the terminal nestification of second haulage rope installs the connecting axle to the connecting axle is connected with the internal surface of base member, the first torsion spring of outer fixed surface of connecting axle is connected, and the outer end of first torsion spring is connected with the internal surface of base member, the upper end fixedly connected with movable block of connecting axle, and the lower extreme nestification of movable block installs the pulley, the second spout has been seted up to the up end of base member, and the second spout is connected with the pulley, the relief groove has been seted up to the outer end of base member, and the upper end of base member installs the backup pad to the backup pad is connected with the installation blade, the terminal bearing of base member is connected with the guide.

Preferably, the fixed rack and the upper end of the mounting blade are of an integral structure, the fixed rack and the upper end of the base body form a sliding structure through the butt joint groove, and the fixed rack and the transmission gear form an engagement structure.

Preferably, the limiting block and the inner side of the first sliding groove form an elastic structure through a return spring, and the limiting block and the shaft end of the transmission gear form a rotating structure through a first traction rope.

Preferably, the outer ends of the second traction rope and the first traction rope are connected through bearings, and the second traction rope and the first traction rope form a rotating structure through a connecting shaft.

Preferably, the movable block is provided with 3 about the central point symmetry of base member, and the activity angle of 3 movable blocks reduces gradually to the movable block passes through first torsional spring and constitutes elastic structure with the internal surface of base member, and the length of movable block equals the length of connecting axle to backup pad outer end simultaneously.

Preferably, the second sliding groove is of a circular ring structure in plan view, and the second sliding groove is symmetrically distributed about the central point of the base body, and forms a sliding structure with the lower end of the movable block through the pulley.

Preferably, the guide block is provided with a second torsion spring and a limiting roller, the shaft end of the guide block is fixedly connected with the second torsion spring, and the limiting roller is arranged at the outer end of the guide block in a nested mode.

Preferably, the guide block is of an arc-shaped structure in front view, the guide block and the outer end of the base body form an elastic structure through a second torsion spring, and the guide block is symmetrically distributed about the central point of the base body.

The invention provides a use method of a self-limiting anti-skew die cutting device for printing, which comprises the following steps:

s1, a user places the printed object stably inwards along the rear end of the base body, at the moment, the edge end of the object is in contact with 2 groups of inclined guide blocks in advance, and then the guide blocks are extruded by the limit rollers which are in stable matching contact, so that the guide blocks are pressed to rotate angularly, and at the moment, the second torsion springs which are in butt joint with the guide blocks are in a compression state, so that the limit rollers and the guide blocks which are symmetrically distributed are matched to perform preliminary guide and deviation correction work on the edge end of the material, and the phenomenon that the edge end of the material is inclined is avoided;

s2: after the position of the side die where the article needs to be cut is determined, a user can start the electric push rod to drive the mounting blade to cut downwards, at the moment, the fixed rack fixed to the upper end of the electric push rod moves downwards along with the electric push rod, the transmission gear in contact is meshed for transmission, at the moment, the first traction rope connected with the shaft end of the transmission gear performs winding operation, 2 groups of limiting blocks connected with the tail ends are stably driven to move oppositely, and the transmission roller is matched to perform secondary limiting operation on the side end of the material, so that the cutting accuracy is further guaranteed;

s3, the first traction rope connected with the shaft end is driven by the transmission gear to perform winding work, the second traction rope connected with the outer end of the first traction rope drives 3 groups of movable blocks with different angles to perform winding work, the first torsion spring connected with the shaft end of the first traction rope is in a compression state at the moment, and when the second traction rope upwards resets through the electric push rod after the installation blade performs single die cutting operation, the second traction rope is separated from the winding state, so that the 3 groups of movable blocks separated from the limiting state stably rotate along the upper end of the base body from right to left in different angle ranges through the annular second sliding groove by relative resetting force of the first torsion spring, and accordingly, the cut edge dies are stably and automatically discharged outwards.

Compared with the prior art, the invention has the beneficial effects that: the self-limiting anti-skew die cutting device for printing and the use method thereof are as follows:

1. the guide blocks are provided with the arc-shaped guide blocks which are symmetrically distributed, so that when the objects move along the inner sides of the 2 groups of guide blocks, the guide blocks can be extruded by the limit rollers which are stably matched and contacted, and then the guide blocks are pressed to rotate angularly, so that the limit rollers which are symmetrically distributed are matched to perform preliminary guide and deviation correction on the edge ends of the materials, and the phenomenon of deflection of the materials is avoided;

2. the movable limiting blocks are arranged, the side die cutting work is carried out downwards through the electric push rod along with the installation blade, the stable driving fixed rack is subjected to position movement, and then through a meshing structure between the movable limiting blocks and the transmission gear, the stable traction ropes which are butted drive the 2 groups of limiting blocks to move oppositely, so that the secondary limiting work is carried out on the edge end of the material, the cutting precision of the material is further ensured, and the practicability of the device is improved;

3. be provided with the movable block that the angle distributes such as, carry out the time of the work that resets after the single die cutting operation along with the installation blade, break away from 3 groups of movable blocks of spacing state, will follow thereupon through torsion spring's the stable equidistance rotation that carries out different angle ranges along the upper end of base member of the relative power that resets to the stable side forms after cutting outwards carry out automatic row material work, have avoided user manual operation's dangerous phenomenon.

Drawings

FIG. 1 is a schematic top sectional view of the present invention;

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic cross-sectional view of the electric putter of the present invention;

FIG. 4 is a schematic cross-sectional view of the movable block of the present invention;

FIG. 5 is a schematic bottom view of the drive gear of the present invention;

fig. 6 is a front cross-sectional structural schematic view of the guide block of the present invention.

In the figure: 1. a substrate; 2. an electric push rod; 3. installing a blade; 4. fixing a rack; 5. a butt joint groove; 6. a transmission gear; 7. a first pull cord; 8. a first chute; 9. a return spring; 10. a limiting block; 11. a driving roller; 12. a second pull cord; 13. a connecting shaft; 14. a movable block; 15. a first torsion spring; 16. a pulley; 17. a second chute; 18. a guide block; 1801. a second torsion spring; 1802. a limiting roller; 19. a discharge chute; 20. and a support plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a self-limiting anti-skew die cutting device for printing comprises a base body 1, an electric push rod 2, a mounting blade 3, a fixed rack 4, a butt joint groove 5, a transmission gear 6, a first traction rope 7, a first sliding groove 8, a reset spring 9, a limiting block 10, a transmission roller 11, a second traction rope 12, a connecting shaft 13, a movable block 14, a first torsion spring 15, a pulley 16, a second sliding groove 17, a guide block 18, a discharge groove 19 and a supporting plate 20, wherein the electric push rod 2 is mounted on an inner side bolt at the upper end of the base body 1, the mounting blade 3 is mounted on an output end bolt of the electric push rod 2, the fixed rack 4 is fixedly connected to the upper end of the mounting blade 3, the butt joint groove 5 is formed in the upper end of the inner surface of the base body 1, the butt joint groove 5 is connected with the fixed rack 4, the transmission gear 6 is mounted on the inner side of the butt joint groove 5, the first traction rope 7 is connected with the inner surface of the base body 1, the inner side of the base body 1 is provided with a first sliding groove 8, the inner surface of the first sliding groove 8 is fixedly connected with a return spring 9, the inner side of the first sliding groove 8 is nested with a limiting block 10, the outer side of the limiting block 10 is rotatably connected with a driving roller 11, the lower end of the limiting block 10 is connected with the tail end of the first traction rope 7, the outer end of the first traction rope 7 is fixedly connected with a second traction rope 12, the tail end of the second traction rope 12 is nested with a connecting shaft 13, the connecting shaft 13 is connected with the inner surface of the base body 1, the outer surface of the connecting shaft 13 is fixedly connected with a first torsion spring 15, the outer end of the first torsion spring 15 is connected with the inner surface of the base body 1, the upper end of the connecting shaft 13 is fixedly connected with a movable block 14, the lower end of the, and the second chute 17 is connected with the pulley 16, the outer end of the base body 1 is provided with a discharge groove 19, the upper end of the base body 1 is provided with a support plate 20, the support plate 20 is connected with the installation blade 3, and the tail end of the base body 1 is connected with a guide block 18 through a bearing.

The fixed rack 4 and the upper end of the mounting blade 3 are of an integrated structure, the fixed rack 4 and the upper end of the base body 1 form a sliding structure through the butt joint groove 5, and the fixed rack 4 and the transmission gear 6 form a meshing structure.

The limiting block 10 forms an elastic structure with the inner side of the first sliding groove 8 through the return spring 9, and the limiting block 10 forms a rotating structure with the shaft end of the transmission gear 6 through the first traction rope 7.

The outer ends of the second traction rope 12 and the first traction rope 7 are connected through bearings, and the second traction rope 12 and the first traction rope 7 form a rotating structure through a connecting shaft 13.

The number of the movable blocks 14 is 3 about the center point of the base 1, the movable angle of the 3 movable blocks 14 is gradually reduced, the movable blocks 14 and the inner surface of the base 1 form an elastic structure through the first torsion springs 15, and the length of the movable blocks 14 is equal to the length from the connecting shaft 13 to the outer end of the supporting plate 20.

The second sliding grooves 17 are in a circular ring-shaped structure in plan view, the second sliding grooves 17 are symmetrically distributed about the center point of the base body 1, and the second sliding grooves 17 and the lower end of the movable block 14 form a sliding structure through the pulley 16.

The guide block 18 is provided with a second torsion spring 1801 and a limit roller 1802, the shaft end of the guide block 18 is fixedly connected with the second torsion spring 1801, and the outer end of the guide block 18 is nested with the limit roller 1802.

The guide block 18 is in a circular arc structure in front view, the guide block 18 and the outer end of the base body 1 form an elastic structure through a second torsion spring 1801, and the guide block 18 is symmetrically distributed about the center point of the base body 1.

s1, a user places the printed object stably inwards along the rear end of the base body 1, at the moment, the edge end of the object is in contact with 2 groups of inclined guide blocks 18 in advance, and then the limit rollers 1802 in stable matching contact extrude the guide blocks 18, so that the guide blocks 18 are pressed to rotate angularly, at the moment, the second torsion springs 1801 in butt joint with the guide blocks are in a compressed state, and preliminary guide deviation correction work is carried out on the edge end of the material by matching with the limit rollers 1802 and the guide blocks 18 which are symmetrically distributed, and the phenomenon of deflection of the material is avoided;

s2: after the position of the side die where the object needs to be cut is determined, a user can start the electric push rod 2 to drive the mounting blade 3 to cut downwards, at the moment, the fixing rack 4 fixed to the upper end of the electric push rod moves downwards along with the electric push rod, the transmission gear 6 in contact is meshed for transmission, at the moment, the first traction rope 7 connected to the shaft end of the transmission gear 6 is wound, 2 groups of limiting blocks 10 connected to the tail end of the transmission gear are stably driven to move towards each other, the transmission roller 11 is matched to perform secondary limiting operation on the side end of the material, and the cutting accuracy is further guaranteed;

s3, as the transmission gear 6 drives the first traction rope 7 connected with the shaft end to perform winding work, the second traction rope 12 connected with the outer end of the transmission gear will drive 3 groups of movable blocks 14 with different angles to perform winding work, at the moment, the first torsion spring 15 connected with the shaft end of the transmission gear will be in a compressed state, and as the installation blade 3 performs reset work upwards through the electric push rod 2 after performing single die cutting operation, the second traction rope 12 will be separated from the winding state, so that the 3 groups of movable blocks 14 separated from the limiting state will follow the relative reset force of the first torsion spring 15 to stably perform equidistant rotation in different angle ranges along the upper end of the base body 1 through the second chute 17 in a right annular shape to perform equidistant rotation in a left direction, thereby stably performing automatic discharging work outwards on the edge die after cutting.

Those not described in detail in this specification are within the skill of the art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a from crooked cutting device for printing of spacing formula, includes base member (1), electric putter (2), installation blade (3) and stopper (10), its characterized in that: an electric push rod (2) is mounted on the inner side of the upper end of the base body (1) through a bolt, a mounting blade (3) is mounted on the output end of the electric push rod (2) through a bolt, a fixed rack (4) is fixedly connected to the upper end of the mounting blade (3), a butt joint groove (5) is formed in the upper end of the inner surface of the base body (1), the butt joint groove (5) is connected with the fixed rack (4), a transmission gear (6) is mounted on the inner side of the butt joint groove (5) in an embedded mode, a first traction rope (7) is mounted at the shaft end of the transmission gear (6) in an embedded mode, the first traction rope (7) is connected with the inner surface of the base body (1), a first sliding groove (8) is formed in the inner side of the base body (1), a reset spring (9) is fixedly connected to the inner surface of the first, a driving roller (11) is rotatably connected to the outer side of the limiting block (10), the lower end of the limiting block (10) is connected with the tail end of a first traction rope (7), a second traction rope (12) is fixedly connected to the outer end of the first traction rope (7), a connecting shaft (13) is installed at the tail end of the second traction rope (12) in a nested mode, the connecting shaft (13) is connected with the inner surface of the base body (1), a first torsion spring (15) is fixedly connected to the outer surface of the connecting shaft (13), the outer end of the first torsion spring (15) is connected with the inner surface of the base body (1), a movable block (14) is fixedly connected to the upper end of the connecting shaft (13), a pulley (16) is installed at the lower end of the movable block (14) in a nested mode, a second sliding chute (17) is formed in the upper end face of the base body (1), the second sliding chute (17) is connected with the pulley (16), and a material, and the upper end of the base body (1) is provided with a support plate (20), the support plate (20) is connected with the installation blade (3), and the tail end of the base body (1) is connected with a guide block (18) in a bearing mode.

2. The self-limiting anti-skew printing die-cutting device according to claim 1, wherein: the upper ends of the fixed rack (4) and the mounting blade (3) are of an integrated structure, the fixed rack (4) and the upper end of the base body (1) form a sliding structure through the butt joint groove (5), and the fixed rack (4) and the transmission gear (6) form a meshing structure.

3. The self-limiting anti-skew printing die-cutting device according to claim 1, wherein: the limiting block (10) and the inner side of the first sliding groove (8) form an elastic structure through a return spring (9), and the limiting block (10) and the shaft end of the transmission gear (6) form a rotating structure through a first traction rope (7).

4. The self-limiting anti-skew printing die-cutting device according to claim 1, wherein: the outer ends of the second traction rope (12) and the first traction rope (7) are connected through bearings, and the second traction rope (12) and the first traction rope (7) form a rotating structure through a connecting shaft (13).

5. The self-limiting anti-skew printing die-cutting device according to claim 1, wherein: the movable block (14) is provided with 3 about the central point symmetry of base member (1), and the activity angle of 3 movable blocks (14) reduces gradually to movable block (14) constitute elastic construction through first torsional spring (15) and the internal surface of base member (1), and the length of movable block (14) equals the length of connecting axle (13) to backup pad (20) outer end simultaneously.

6. The self-limiting anti-skew printing die-cutting device according to claim 1, wherein: the second sliding grooves (17) are of an annular structure in plan view, the second sliding grooves (17) are symmetrically distributed about the center point of the base body (1), and the second sliding grooves (17) and the lower ends of the movable blocks (14) form a sliding structure through the pulleys (16).

7. The self-limiting anti-skew printing die-cutting device according to claim 1, wherein: the guide block (18) is provided with a second torsion spring (1801) and a limiting roller (1802), the shaft end of the guide block (18) is fixedly connected with the second torsion spring (1801), and the limiting roller (1802) is nested at the outer end of the guide block (18).

8. The self-limiting anti-skew printing die-cutting device according to claim 7, wherein: the front view of the guide block (18) is of an arc-shaped structure, the guide block (18) and the outer end of the base body (1) form an elastic structure through a second torsion spring (1801), and the guide block (18) is symmetrically distributed about the center point of the base body (1).

9. The use method of the self-limiting anti-skew printing die-cutting device according to claim 8, comprising the following steps:

s1, a user places the printed object stably inwards along the rear end of the base body (1), at the moment, the edge end of the object is in contact with 2 groups of inclined guide blocks (18) in advance, and then the guide blocks (18) are extruded by the limit rollers (1802) which are in stable matched contact, so that the guide blocks (18) are pressed to rotate angularly, at the moment, the second torsion springs (1801) which are in butt joint with the guide blocks are in a compressed state, and preliminary guide deviation rectification work is carried out on the edge end of the material by matching with the limit rollers (1802) and the guide blocks (18) which are symmetrically distributed, and the phenomenon that the material is inclined is avoided;

s2: after the position of the side die where the object needs to be cut is determined, a user can start the electric push rod (2) to drive the mounting blade (3) to cut downwards, at the moment, the fixing rack (4) fixed to the upper end of the electric push rod moves downwards along with the electric push rod, then the transmission gear (6) in contact is meshed and transmitted, at the moment, the first traction rope (7) connected with the shaft end of the transmission gear (6) performs winding operation, then 2 groups of limiting blocks (10) connected with the tail end of the transmission gear move oppositely and are stably driven, and then the transmission roller (11) is matched to perform secondary limiting operation on the side end of the material, so that the cutting accuracy of the material is further guaranteed;

s3: the first traction rope (7) connected with the shaft end is driven by the transmission gear (6) to perform winding work, the second traction rope (12) connected with the outer end of the traction rope drives 3 groups of movable blocks (14) with different angles to perform rolling operation, at the moment, the first torsion spring (15) connected with the shaft end of the traction rope is in a compressed state, when the blade (3) is mounted to perform single die cutting operation and then reset upwards through the electric push rod (2), the second traction rope (12) is separated from a rolling state, so that the 3 groups of movable blocks (14) which are separated from the limit state can be stably fixed along the upper end of the base body (1) by the relative resetting force of the first torsion spring (15), the second sliding groove (17) in the annular shape rotates from right to left in the same distance within different angle ranges, so that the cut edge die can be stably and automatically discharged outwards.