CN113601608B - Die-cutting machine - Google Patents

Abstract

The utility model provides a die-cutting machine, includes the organism, all sets up the towards material mechanism that is used for punching out the product on the material area on the organism, is used for receiving the irritate bag mechanism of product, is used for pulling the material area so that the material area draws material mechanism and be used for collecting the garbage collection mechanism of the material area that has accomplished the product and has punched out in the organism of carrying out the material area. The bag filling mechanism comprises a bag filling seat, a cylinder body which is arranged on the bag filling seat and used for sleeving a bag, and a bag filling driving device which is arranged on the machine body and used for driving the bag filling seat to move; the bag filling driving device comprises an X-axis driving component for driving the bag filling seat to move transversely, a Y-axis driving component arranged on the X-axis driving component and used for driving the bag filling seat to move back and forth, and a Z-axis driving component arranged on the bag filling seat and used for driving the barrel to move up and down; the bag filling seat is arranged on the X-axis driving assembly. The improved die-cutting machine improves the layout of the bag filling mechanism, the material punching mechanism, the material pulling mechanism, the waste collecting mechanism and the machine body, is beneficial to improving the production efficiency of the die-cutting machine, and enables the die-cutting machine to be more reasonable in structure.

Description

Die-cutting machine

Technical Field

The invention belongs to the field of cutting equipment, and particularly relates to a die-cutting machine.

Background

The technical development of the die-cutting machine in China is slow, and particularly, a product bagging mechanism, a material pulling mechanism for pulling a material belt and a collecting mechanism for collecting a waste material belt of the die-cutting machine are old, so that improvement is urgently needed. In addition, the layout of the main machine of the existing die cutting machine is unreasonable, so that the installation and maintenance of the die cutting machine are inconvenient, and certain limitations exist.

Disclosure of Invention

The present invention is directed to a die cutting machine that overcomes at least one of the above-mentioned deficiencies of the prior art.

In order to achieve the above purpose, the embodiment of the present invention provides the following technical solutions:

the utility model provides a die-cutting machine, includes the organism, all sets up the towards material mechanism that is used for punching out the product on the material area on the organism, is used for receiving the irritate bag mechanism of product, is used for pulling the material area so that the material area draws material mechanism and be used for collecting the garbage collection mechanism of the material area that has accomplished the product and has punched out in the organism of carrying out the material area.

The bag filling mechanism comprises a bag filling seat, a barrel arranged on the bag filling seat and used for sleeving a bag, and a bag filling driving device arranged on the machine body and used for driving the bag filling seat to move;

the bag filling driving device comprises an X-axis driving assembly for driving the bag filling seat to move transversely, a Y-axis driving assembly arranged on the X-axis driving assembly and used for driving the bag filling seat to move back and forth, and a Z-axis driving assembly arranged on the bag filling seat and used for driving the barrel to move up and down;

the bag filling seat is arranged on the X-axis driving assembly.

The bag filling mechanism comprises a bag filling bracket arranged on the machine body;

the X-axis driving assembly comprises an X-axis guide rail arranged on the bag filling bracket and extending along the transverse direction, and an X-axis driver arranged on the bag filling bracket, connected with the bag filling seat and used for driving the bag filling seat to move transversely;

the bag filling seat is arranged on the X-axis guide rail in a sliding manner;

the Y-axis driving assembly comprises a bag filling underframe arranged on the machine body, a Y-axis guide rail arranged on the bag filling underframe and extending along the front-back direction, and a Y-axis driver arranged on the bag filling underframe, connected with the bag filling bracket and used for driving the bag filling bracket to move back and forth;

the bag filling bracket is arranged on the Y-axis guide rail in a sliding manner;

the Z-axis driving component comprises a bag filling lifting plate arranged on the bag filling seat and a Z-axis driver which is arranged between the bag filling seat and the bag filling lifting plate and is used for driving the bag filling lifting plate to move up and down;

the cylinder is arranged on the bag filling lifting plate.

The bag filling seats are at least two groups and are arranged at intervals in the front-back direction, the number of the X-axis driving assemblies is the same as that of the bag filling seats, and the bag filling seats correspond to the X-axis driving assemblies one by one;

the bag filling adjusting device is characterized in that a bag filling adjusting seat is arranged on the bag filling base, the Y-axis driver is arranged on the bag filling adjusting seat, and a bag filling rotary adjusting rod, one end of which is connected with the Y-axis driver and used for driving the Y-axis driver to move back and forth for adjustment, is in threaded connection with the bag filling adjusting seat.

The X-axis driving assembly, the Y-axis driving assembly and the Z-axis driving assembly are pneumatically driven;

the X-axis driver is an X-axis driving cylinder;

the Y-axis driver is a Y-axis driving cylinder;

the Z-axis driver is a Z-axis driving air cylinder.

The punching mechanism comprises a punching frame, a punch, a punching driving component and a punching adjusting component, wherein the punching frame is positioned above the bag filling mechanism;

the material punching adjusting assembly comprises an adjusting frame arranged on the material punching frame and a vertical adjusting rod arranged on the adjusting frame and the lower part of the vertical adjusting rod is connected with the material punching driving assembly.

The punching adjusting assembly comprises a punching fixing plate arranged on the upper part of the punching driving assembly and a punching pressing plate arranged on the upper part of the punching fixing plate;

the bottom of the vertical adjusting rod is provided with a limiting table, the vertical adjusting rod downwards passes through the punching press plate, and the limiting table is positioned between the punching fixing plate and the punching press plate;

the vertical adjusting rod is in transmission connection with the adjusting frame through threads;

the punching adjusting assembly comprises a transverse locking rod which is arranged on the adjusting frame and is tightly pressed on the side part of the vertical adjusting rod;

the transverse locking rod penetrates into the punching fixing plate, and the transverse locking rod is in transmission connection with the punching fixing plate through threads;

the limiting table is embedded in the punching fixing plate, and the inner end of the transverse locking rod is tightly pressed on the side part of the limiting table;

the adjusting frame comprises a main adjusting plate arranged on the punching frame and a vertical adjusting plate connected to the outer side of the bottom of the main adjusting plate;

the vertical adjusting rod is arranged on the main adjusting plate in a penetrating mode, a vertical strip-shaped groove is formed in the vertical adjusting plate corresponding to the transverse locking rod, and the transverse locking rod penetrates through the vertical strip-shaped groove;

the main adjusting plate is provided with a horizontal strip-shaped groove extending along the front-back direction, and the main adjusting plate and the punching frame are connected with each other through a fastener arranged on the horizontal strip-shaped groove in a penetrating manner;

the punching frame comprises two groups of punching arm plates which are arranged at intervals from left to right and a punching transverse plate which is connected with the two groups of punching arm plates and is positioned in front of the punching arm plates;

the punching driving assembly is arranged on the side part of the punching arm plate, and the adjusting frame is arranged on the punching arm plate;

a first punching insert is arranged on the punching arm plate corresponding to the adjusting frame, and the adjusting frame is arranged on the first punching insert;

the first punching insert is made of steel, and the punching arm plate and the punching transverse plate are made of aluminum;

the punching driving assemblies are two in number and are respectively arranged on the side parts of the two groups of punching arm plates;

the punching adjusting assemblies are two in number and are respectively arranged on the two groups of punching arm plates;

a punching connecting assembly is arranged between the punching driving assembly and the punch;

the punching connecting assembly comprises a punching transverse mounting plate positioned below the punching frame and two groups of punching connecting plates which are respectively arranged on two sides of the upper part of the punching transverse mounting plate and respectively opposite to the two groups of punching driving assemblies;

the punching connecting plate is connected to the bottom of the corresponding punching driving assembly, and the punch is arranged on the punching transverse mounting plate;

the number of the punching material transverse mounting plates is at least two, and the punching material transverse mounting plates are arranged at intervals from front to back, and are arranged at the bottom of the punching material connecting plate;

the punching connecting plate is provided with strip-shaped holes corresponding to the punching transverse mounting plate, and the punching connecting plate and the punching transverse mounting plate are connected through fasteners penetrating the strip-shaped holes;

the material punching driving assembly is a material punching air cylinder.

The material pulling mechanism comprises a material pulling rack positioned in front of the material punching mechanism and the bag filling mechanism, a main roller shaft, a first roller shaft, a second roller shaft and a material pulling driving assembly, wherein the main roller shaft is rotatably arranged on the material pulling rack;

a first material pulling adjusting assembly used for enabling the first roll shaft to move up and down is arranged on the material pulling rack;

the first pulling adjusting assembly comprises a first pulling guide pillar arranged on the pulling rack, a first pulling adjusting seat arranged on the first pulling guide pillar in a penetrating manner, a first pulling mounting plate arranged at the top of the first pulling guide pillar, and a first pulling spring sleeved on the first pulling guide pillar and positioned between the first pulling adjusting seat and the first pulling mounting plate;

a first shaft body is arranged on the material pulling rack corresponding to the first roller shaft, the first roller shaft is arranged on the first shaft body in a penetrating manner, and the side part of the first shaft body is arranged on the first material pulling adjusting seat;

the first material pulling adjusting assembly comprises a material pulling limiting rod which is rotatably arranged on the first material pulling mounting plate, downwardly penetrates through the first material pulling mounting plate and is rotatably arranged on the first material pulling adjusting seat;

the first material pulling spring is positioned on the side part of the material pulling limiting rod;

a first material pulling guide groove is formed in the material pulling rack corresponding to the first material pulling adjusting seat;

the bottom of the first material pulling guide column is arranged at the bottom of the first material pulling guide groove, and the first material pulling adjusting seat is arranged in the first material pulling guide groove;

a second material pulling adjusting assembly used for adjusting the front and rear positions of the second roller shaft is arranged on the material pulling rack;

the second pulling adjusting assembly comprises a second pulling guide pillar transversely arranged on the pulling rack, a second pulling adjusting seat arranged on the second pulling guide pillar in a penetrating manner, a second pulling mounting plate arranged at the outer end part of the second pulling guide pillar and a pulling adjusting rod connected to the second pulling adjusting seat through thread transmission;

a second shaft body is arranged on the material pulling rack corresponding to the second roller shaft, the second roller shaft is arranged on the second shaft body in a penetrating mode, and the side part of the second shaft body is arranged on a second material pulling adjusting seat;

the material pulling adjusting rod penetrates through the material pulling adjusting rod from the outer side of the second material pulling mounting plate;

a second material pulling guide groove is formed in the material pulling rack corresponding to the second material pulling adjusting seat;

the inner end part of the second material pulling guide column is arranged on the inner side part of the second material pulling guide groove, the second material pulling adjusting seat is arranged in the second material pulling guide groove, and a second spring is arranged between the second material pulling adjusting seat and the second material pulling guide groove.

The waste collecting mechanism comprises a material collecting rack arranged at the front part of the material pulling mechanism, a material collecting adjusting assembly and a material collecting roller shaft which are sequentially arranged on the material collecting rack, and a material belt sequentially bypasses the material collecting adjusting assembly and the material collecting roller shaft, and a material collecting driving assembly which is connected with the material collecting roller shaft and drives the material collecting roller shaft to rotate is arranged on the material collecting rack;

the receiving adjusting assembly comprises a vertical receiving guide rail arranged on the receiving rack, a receiving sliding seat arranged on the vertical receiving guide rail, an adjusting roller shaft arranged on the receiving sliding seat and a sensor arranged on the receiving rack and used for detecting the position of the receiving sliding seat;

the material receiving rack is provided with a pressing assembly which is positioned between the material receiving adjusting assembly and the material receiving roll shaft and used for pressing the material belt;

the pressing assembly comprises a lower roller shaft and a pressing roller shaft, the lower roller shaft is rotatably arranged on the material receiving rack, and the pressing roller shaft is positioned at the upper part of the lower roller shaft;

the lower roll shaft is positioned above the rear part of the material receiving roll shaft, and the lower roll shaft is positioned in front of the adjusting roll shaft;

the material receiving rack is provided with a roller shaft adjusting assembly for adjusting the upper and lower positions of the pressing roller shaft;

the roll shaft adjusting assembly comprises a roll shaft guide post arranged on the material receiving rack, a roll shaft adjusting seat arranged on the roll shaft guide post in a penetrating manner, a positioning mounting plate arranged at the top of the roll shaft guide post and a roll shaft adjusting rod connected to the roll shaft adjusting seat through thread transmission;

the material receiving rack is provided with a pressing shaft body corresponding to the pressing roller shaft, the pressing roller shaft is arranged on the pressing shaft body in a penetrating manner, and the side part of the pressing shaft body is arranged on the roller shaft adjusting seat;

the roll shaft adjusting rod penetrates through the positioning mounting plate downwards from the upper part of the positioning mounting plate;

a material receiving guide groove is formed in the material receiving rack corresponding to the roll shaft adjusting seat;

the bottom of the roller shaft guide column is arranged at the bottom of the material receiving guide groove, the roller shaft adjusting seat is arranged in the material receiving guide groove, and a material receiving spring is arranged between the roller shaft adjusting seat and the material receiving guide groove;

the material receiving roll shaft is positioned at the front part of the material receiving adjusting component;

the sensors comprise first sensors which are arranged on the material receiving rack and are opposite to the upper parts of the vertical material receiving guide rails and second sensors which are opposite to the lower parts of the vertical material receiving guide rails;

and two ends of the material receiving roll shaft are respectively provided with a limiting baffle plate used for limiting the material belt.

The machine body comprises a case for mounting cutting driving equipment of the die cutting machine, a distribution box arranged at the rear part of the case and used for mounting power supply equipment of the die cutting machine, and a control box arranged at the side part or the upper part of the case and/or the distribution box or externally arranged on the case and the distribution box and used for mounting control equipment of the die cutting machine;

the material punching mechanism, the bag filling mechanism, the material pulling mechanism and the waste material collecting mechanism are arranged at the front part of the case;

a wire groove for accommodating wires is formed in the side part of the case;

a sealing plate is arranged on the side part of the case;

the wire slot is positioned on the outer side of the sealing plate;

the case comprises a main case body and a motor cover body arranged at the rear part of the main case body;

the distribution box is arranged at the rear part of the motor cover body;

the control box is arranged on the side parts of the motor cover body and the distribution box;

a first cabinet door is arranged at the rear part and/or the side part of the distribution box;

a tool box is arranged at the bottom of the control box;

and a second cabinet door is arranged on the side part of the tool box.

The invention has the following beneficial effects:

the improved die-cutting machine improves the layout of the bag filling mechanism, the material punching mechanism, the material pulling mechanism, the waste collecting mechanism and the machine body, is beneficial to improving the production efficiency of the die-cutting machine, and enables the die-cutting machine to be more reasonable in structure.

1. The X-axis driving assembly of the bag filling mechanism of the die-cutting machine can drive the bag filling seat and the barrel on the bag filling seat to transversely move to the outer side of the material flushing mechanism so as to avoid the material flushing mechanism, so that an operator can conveniently take out a bag filled with a product from the barrel and sleeve the bag on the barrel of the bag filling mechanism again, and the labor intensity of the operator is reduced.

2. The X-axis driving assembly, the Y-axis driving assembly and the Z-axis driving assembly jointly form a three-axis bag filling driving device for driving the barrel to move, and the flexibility of the barrel to move is improved due to the use of the three-axis bag filling driving device.

3. The X-axis driving assembly, the Y-axis driving assembly and the Z-axis driving assembly are pneumatically driven, air used by pneumatic driving can be directly obtained from the atmosphere, used air can be directly discharged into the atmosphere, and the medium is convenient to obtain and treat and cannot pollute the environment; the adaptability of the working environment is good, the pneumatic driving action is rapid, and the reaction is rapid; the applied element has simple structure, easy processing and long service life; the maintenance is simple, and the problems of medium deterioration, supplement and replacement do not exist; the use is safe.

Drawings

Fig. 1 is a schematic structural view of a bag filling mechanism according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a bag filling mechanism according to an embodiment of the present invention.

Fig. 3 is a schematic structural view of a bag filling mechanism according to an embodiment of the invention.

Fig. 4 is a schematic structural view of a bag filling mechanism according to an embodiment of the invention.

Fig. 5 is a schematic structural diagram of a punching mechanism according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a punching mechanism according to an embodiment of the present invention.

Fig. 7 is an exploded view of the punch drive assembly and the punch adjustment assembly of the punch mechanism according to an embodiment of the present invention.

Fig. 8 is a schematic structural diagram of a material pulling mechanism according to an embodiment of the present invention.

Fig. 9 is a sectional view of a pulling mechanism according to an embodiment of the present invention.

Fig. 10 is a schematic structural diagram of a pulling mechanism according to an embodiment of the present invention.

Fig. 11 is an enlarged view of fig. 10A.

Fig. 12 is an enlarged view of fig. 10B.

Fig. 13 is a schematic structural diagram of a pulling mechanism according to an embodiment of the present invention.

Fig. 14 is a schematic structural diagram of a roller shaft adjusting assembly according to an embodiment of the invention.

Fig. 15 is a schematic structural diagram according to an embodiment of the invention.

Fig. 16 is a schematic structural diagram according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention.

Referring to fig. 1 to 16, the die cutting machine comprises a machine body a, a material punching mechanism B, a bag filling mechanism C, a material pulling mechanism D and a waste collecting mechanism E, wherein the material punching mechanism B is arranged on the machine body a and used for punching a product on a material belt 409, the bag filling mechanism C is used for receiving the product, the material pulling mechanism D is used for pulling the material belt 409 so that the material belt 409 is conveyed in the machine body, and the waste collecting mechanism E is used for collecting the material belt 409 after the product is punched out.

Further, the bag filling mechanism C includes a bag filling seat 32, a cylinder 33 disposed on the bag filling seat 32 and used for sleeving the bag 311, and a bag filling driving device disposed on the machine body a and used for driving the bag filling seat 32 to move;

the bag filling driving device comprises an X-axis driving component for driving the bag filling seat 32 to move transversely, a Y-axis driving component arranged on the X-axis driving component for driving the bag filling seat 32 to move back and forth, and a Z-axis driving component arranged on the bag filling seat 32 for driving the barrel 33 to move up and down;

the bag filling seat 32 is arranged on the X-axis driving assembly.

The number of the bag filling seats 32 is at least two, the bag filling seats are arranged at intervals in the front-back direction, the number of the X-axis driving assemblies is the same as that of the bag filling seats 32, and the bag filling seats 32 correspond to the X-axis driving assemblies one by one;

in this embodiment, the number of the bag filling seats 32 and the number of the X-axis driving assemblies are two, referring to fig. 2 to 3, one of the bag filling seats 32 and the cylinder 33 thereon move to a position right below the material punching mechanism B and are used for receiving products punched by the material punching mechanism B on the material strap 409, and the other of the bag filling seats 32 and the cylinder 33 thereon move to the outer side of the material punching mechanism B, so that an operator can take out or put in bags 311 on the corresponding cylinder 33 conveniently.

The X-axis driving assembly of the bag filling mechanism C of the die-cutting machine can drive the bag filling seat 32 and the barrel 33 on the bag filling seat to transversely move to the outer side of the material flushing mechanism B to avoid the material flushing mechanism B, so that an operator can conveniently take out a bag 311 filled with a product from the barrel 33 and sleeve the bag on the barrel 33 of the bag filling mechanism C again, and the labor intensity of the operator is reduced.

In addition, when the X-axis driving assembly enables the cylinder 33 on the bag filling seat 32 to be sleeved with bags, the cylinder 33 is driven to the outer side of the material punching mechanism B, and the structure mode facilitates subsequent upgrading and configuration and can replace a mechanical bag sleeving mechanism for manual bag sleeving.

The number of the cylinder bodies 33 is a plurality of groups, the cylinder bodies 33 in the plurality of groups can be arranged in more than two rows, the cylinder bodies 33 in each row are arranged at intervals along the transverse direction, and the cylinder bodies 33 in more than two rows are arranged at intervals along the front-back direction.

In this embodiment, the plurality of sets of barrels 33 are arranged in two rows.

The Y-axis driving assembly is arranged for driving the at least two groups of barrel bodies 33 on the bag filling seats 32 which are arranged at intervals in the front-back direction to be respectively aligned with the punch heads of the material punching mechanism B, and the material punching mechanism B does not need to be provided with a Y-axis driving device for driving the punch heads to move back and forth.

Referring to fig. 2-3, when the cylinder 33 of one set of the bag filling seat 32 moves to a position below the material punching mechanism B, the Z-axis driving assembly drives the cylinder 33 to move upward to be close to the material belt 409, so as to prevent the lighter products from floating out of the cylinder 33 when being punched from the material belt 409.

The X-axis driving assembly, the Y-axis driving assembly and the Z-axis driving assembly jointly form a three-axis bag filling driving device for driving the barrel 33 to move, and the flexibility of movement of the barrel 33 is improved due to the use of the three-axis bag filling driving device.

Further, the bag filling mechanism C comprises a bag filling bracket 3 arranged on the machine body a;

the X-axis driving assembly comprises an X-axis guide rail 31 which is arranged on the bag filling bracket 3 and extends along the transverse direction, and an X-axis driver 34 which is arranged on the bag filling bracket 3, connected with the bag filling seat 32 and used for driving the bag filling seat 32 to move transversely;

the bag filling seat 32 is arranged on the X-axis guide rail 31 in a sliding manner;

the number of the X-axis guide rails 31 is two, the X-axis guide rails 31 are arranged at intervals in the front and back direction, and the bag filling seats 32 are arranged on the X-axis guide rails 31 through sliding blocks.

The X-axis drive 34 is located at the bottom of the bag filling stand 32.

The Y-axis driving assembly comprises a bag filling chassis 35 arranged on the machine body A, a Y-axis guide rail 36 arranged on the bag filling chassis 35 and extending along the front-back direction, and a Y-axis driver 37 arranged on the bag filling chassis 35, connected with the bag filling bracket 3 and used for driving the bag filling bracket 3 to move back and forth;

the bag filling bracket 3 is arranged on the Y-axis guide rail 36 in a sliding manner;

the number of the Y-axis guide rails 36 is two, the Y-axis guide rails are arranged at left and right intervals, and the bag filling bracket 3 is arranged on the Y-axis guide rails 36 through a sliding block.

The Y-axis drive 37 is located at the bottom of the bag filling tray 3.

The die-cutting machine comprises a control device arranged on the host A, the bag filling mechanism C is located below the material flushing mechanism B, and a bag filling underframe 35 of the bag filling mechanism is connected to the front portion of the host A.

The Z-axis driving component comprises a bag filling lifting plate 38 arranged on the bag filling seat 32 and a Z-axis driver 39 which is arranged between the bag filling seat 32 and the bag filling lifting plate 38 and is used for driving the bag filling lifting plate 38 to move up and down;

the cylinder 33 is disposed on the bag-filling lifting plate 38.

The cylinder 33 moves up and down along with the bag filling lifting plate 38 to adjust the distance between the cylinder 33 and the material punching mechanism B and the material belt 409.

The two sides of the front part of the main machine A are respectively provided with a straight arm 304 extending along the front-back direction, the material punching mechanism B is positioned between the straight arms 304 at the two sides, and the bag filling mechanism is positioned below the straight arms 304.

Through the arrangement of the Z-axis driver 39, the barrel 33 on the bag filling seat 32 is driven to move downwards to avoid the straight arm 304 before traversing the straight arm 304, the bag filling seat 32 is positioned right below the material punching mechanism B to receive products, and the Z-axis driver 39 drives the barrel 33 to move upwards to enable the barrel 33 to be close to the material belt 409, so that the products with lighter weight are prevented from floating out of the barrel 33 when being punched from the material belt 409. Referring to fig. 2-3, the punch of the punching mechanism B moves downward and punches the product downward from the material strip 409; and sensors for detecting the position of the bag filling seat 32 and electrically connecting the bag filling seat with a control device are arranged on the host A, the straight arm 304, the bag filling bracket 3 and the bag filling underframe 35.

The barrel 33 is sequentially provided with a bag filling upper positioning plate 301, a bag filling inner positioning plate 302 and a bag filling lower positioning plate 303 from top to bottom in a penetrating manner;

the bag filling middle positioning plate 302 is arranged on the bag filling lifting plate 38, and the bag filling lower positioning plate 303 is arranged on the bag filling base 32;

the cylinder 33 penetrates through the upper bag positioning plate 301 upwards, the cylinder 33 penetrates through the bag lifting plate 38, and the bottom of the cylinder 33 is fixedly arranged on the lower bag positioning plate 303.

Barrel 33 is longer, through set up respectively and be used for fixing a position barrel 33 irritate bag upper portion locating plate 301, irritate bag inside locating plate 302 and irritate bag lower part locating plate 303, is favorable to improving barrel 33's stability, reduces barrel 33's rocking.

The bag filling lifting plate 38 drives the bag filling inner positioning plate 302 to synchronously move up and down, so that the barrel 33, the bag filling upper positioning plate 301 and the bag filling lower positioning plate 303 are linked, and a bag filling connecting rod which avoids the barrel 33 is arranged between the bag filling inner positioning plate 302 and the bag filling upper positioning plate 301.

Furthermore, a bag filling adjusting seat 305 is arranged on the bag filling base 35, a Y-axis driver 37 is arranged on the bag filling adjusting seat 305, and a bag filling rotary adjusting rod 306, one end of which is connected with the Y-axis driver 37 and is used for driving the Y-axis driver 37 to move back and forth and adjust, is in threaded connection with the bag filling adjusting seat 305.

The front-rear position of the bag carriage 3 is changed by rotating the bag rotation lever 306 to adjust the front-rear position of the Y-axis driver 37.

Specifically, a bag filling positioning table is arranged at one end of the bag filling rotary adjusting rod 306 connected with the Y-axis driver 37, a positioning cover plate 310 is fixed at the end part of the Y-axis driver 37 opposite to the bag filling rotary adjusting rod 306, the bag filling rotary adjusting rod 306 penetrates through the positioning cover plate 310, the bag filling positioning table is embedded in the positioning cover plate 310, and the bag filling positioning table is limited between the positioning cover plate 310 and the Y-axis driver 37, so that when the bag filling rotary adjusting rod 306 is rotated, the bag filling rotary adjusting rod 306 moves back and forth on the bag filling adjusting seat 305, and the Y-axis driver 37 is driven to synchronously move through the bag filling positioning table and the positioning cover plate 310.

Furthermore, the X-axis driving assembly, the Y-axis driving assembly and the Z-axis driving assembly are driven pneumatically (or called pneumatic drive);

the X-axis driver 34 is an X-axis driving cylinder;

the X-axis driving cylinder can adopt a rodless cylinder, and a moving part on the rodless cylinder is fixedly connected with the bag filling seat 32.

Compared with the form of screw motor driving, the form of adopting the X-axis to drive the cylinder can not cause the damage of the X-axis driving cylinder even if the X-axis driving cylinder is blocked during operation, and the burning of the motor can be easily caused once the X-axis driving cylinder is blocked during operation of the screw motor.

The Y-axis driver 37 is a Y-axis driving cylinder;

and a piston rod of the Y-axis driving cylinder is fixedly connected with the bag filling bracket 3.

The Z-axis driver 39 is a Z-axis driving cylinder.

And a piston rod of the Z-axis driving cylinder is fixedly connected with the bag filling lifting plate 38.

The pneumatic driving mode has the advantages that:

1. the air used by pneumatic drive can be directly obtained from the atmosphere, and meanwhile, the used air can also be directly discharged into the atmosphere, so that the working medium is convenient to obtain and treat, and the environment is not polluted;

2. the pneumatic driving system can safely and reliably operate even in inflammable, explosive, dusty, radiation, strong magnetism, vibration and other severe environments, and particularly when the die-cutting machine is used for processing sealing gasket products applied to beverage bottles, cosmetic bottles and the like, the die-cutting machine needs to be arranged on occasions requiring high purification and no pollution, and the form of pneumatic driving is suitable for the occasions requiring high purification and no pollution;

3. the pneumatic driving action is faster and the response is faster than the hydraulic driving action;

4. the pneumatic driving applied element has simple structure, easy processing and long service life, and is suitable for standardization, serialization and universalization of products;

5. the pneumatic drive is simple to maintain, and the problems of medium deterioration, supplement and replacement do not exist;

6. the pneumatic drive is safe to use, and the overload protection is convenient to realize.

The X-axis driving air cylinder, the Y-axis driving air cylinder and the Z-axis driving air cylinder are respectively connected with a bag filling reversing valve through pipelines, the bag filling reversing valve is connected with an air pump externally arranged on the die cutting machine through a pipeline, the control device is respectively connected with the X-axis driving air cylinder, the Y-axis driving air cylinder, the Z-axis driving air cylinder, the bag filling reversing valve and the air pump in an electric connection mode, and the bag filling reversing valve is arranged on the side portion of the bag filling base frame 35.

The number of the Z-axis drivers 39 is four and the Z-axis drivers are respectively arranged at four corners of the upper portion of the bag filling seat 32.

The four sets of Z-axis drivers 39 are used for improving the up-and-down movement stability of the bag filling lifting plate 38.

The punching mechanism B comprises a punching frame 2 positioned above the bag filling mechanism C, a punch 21, a punching driving component 22 connected to the upper part of the punch 21 and used for driving the punch 21 to move up and down, and a punching adjusting component for adjusting the up-and-down position of the punching driving component 22;

the punching adjusting component comprises an adjusting frame 23 arranged on the punching frame 2 and a vertical adjusting rod 24 which is arranged on the adjusting frame 23 and the lower part of which is connected with the punching driving component 22.

The operator can change the upper and lower position of the punching driving assembly 22 by adjusting the vertical adjusting rod 24, so as to adjust the upper and lower position of the punch 21, conveniently adjust the distance between the punch 21 and the material belt 409, and improve the punching effect, therefore, the punching adjusting assembly of the punching mechanism B of the die-cutting machine can conveniently adjust the upper and lower position of the punch 21.

Further, the material punching adjusting assembly comprises a material punching fixing plate 25 arranged on the upper part of the material punching driving assembly 22 and a material punching pressing plate 26 arranged on the upper part of the material punching fixing plate 25;

the bottom of the vertical adjusting rod 24 is provided with a limiting table 27, the vertical adjusting rod 24 downwards penetrates through the punching press plate 26, and the limiting table 27 is positioned between the punching fixing plate 25 and the punching press plate 26 to realize the positioning and installation of the limiting table 27;

the material punching press plate 26, the material punching fixing plate 25, the material punching driving assembly 22 and the punch 21 move up and down along with the vertical adjusting rod 24.

The vertical adjusting rod 24 is in transmission connection with the adjusting frame 23 through threads;

by rotating the vertical adjustment rod 24, the up-down position of the vertical adjustment rod 24 on the adjustment frame 23 can be adjusted, thereby adjusting the up-down position of the punch 21.

The top end of the vertical adjusting rod 24 is provided with a first rotating cap 210 positioned on the upper part of the adjusting frame 23, and the arrangement of the first rotating cap 210 is convenient for the rotation adjustment of the vertical adjusting rod 24.

The punching adjusting assembly comprises a transverse locking rod 28 which is arranged on the adjusting frame 23 and is used for being tightly pressed on the side part of the vertical adjusting rod 24;

after the adjustment of the vertical adjusting rod 24 is completed, the horizontal locking rod 28 is tightly pressed on the side part of the vertical adjusting rod 24, so that the vertical adjusting rod 24 is locked, and the displacement of the vertical adjusting rod 24 on the adjusting frame 23 during the operation of the die cutting machine is avoided.

The transverse locking rod 28 penetrates into the punching fixing plate 25, and the transverse locking rod 28 is in transmission connection with the punching fixing plate 25 through threads;

the transverse locking lever 28 can be moved closer to and pressed against the side of the vertical adjustment lever 24 or away from the vertical adjustment lever 24 by rotating the transverse locking lever 28.

The limiting table 27 is embedded in the material punching fixing plate 25, and the inner end of the transverse locking rod 28 is tightly pressed on the side part of the limiting table 27, so that the vertical adjusting rod 24 is locked.

Namely, the material punching fixing plate 25 is provided with a mounting groove 209 penetrating through the upper part thereof corresponding to the limiting table 27, and the limiting table 27 is arranged in the mounting groove 209.

The side part of the punching material fixing plate 25 is provided with a threaded hole 212 penetrating to the mounting groove 209 corresponding to the transverse locking rod 28, and the transverse locking rod 28 is screwed on the threaded hole 212.

The outer end of the transverse locking rod 28 is provided with a second screw cap 211 positioned outside the adjusting frame 23, and the arrangement of the second screw cap 211 is convenient for the screw adjustment of the transverse locking rod 28.

The adjusting frame 23 comprises a main adjusting plate 29 arranged on the punching frame 2 and a vertical adjusting plate 201 connected to the outer side of the bottom of the main adjusting plate 29;

the vertical adjusting rod 24 is arranged on the main adjusting plate 29 in a penetrating manner, a vertical strip-shaped groove 202 is formed in the vertical adjusting plate 201 corresponding to the transverse locking rod 28, and the transverse locking rod 28 penetrates through the vertical strip-shaped groove 202;

that is, the vertical adjusting rod 24 is in threaded transmission connection with the main adjusting plate 29, and when the vertical adjusting rod 24 is adjusted up and down, the transverse locking rod 28 can also move up and down in the vertical strip-shaped groove 202 along with the vertical adjusting rod 24 and the punching fixing plate 25.

The main adjusting plate 29 is provided with a horizontal strip-shaped groove 208 extending along the front-back direction, and the main adjusting plate 29 and the punching frame 2 are connected with each other through a fastener arranged on the horizontal strip-shaped groove 208 in a penetrating manner;

the horizontal strip-shaped groove 208 is used for adjusting the front and back positions of the punching frame 2, the punching driving assembly 22, the punching adjusting assembly and the punch 21.

The punching frame 2 comprises two groups of punching arm plates 203 which are arranged at left and right intervals and a punching transverse plate 204 which is connected with the two groups of punching arm plates 203 and is positioned in front of the punching arm plates 203;

the punching driving assembly 22 is arranged on the side part of the punching arm plate 203, and the adjusting frame 23 is arranged on the punching arm plate 203;

in this embodiment, the punching transverse plates 204 are two in number and are arranged at intervals in the front-back direction.

Specifically, the main adjusting plate 29 of the adjusting bracket 23 is arranged on the corresponding blanking arm plate 203.

A first punching insert 205 is arranged on the punching arm plate 203 corresponding to the adjusting frame 23, and the adjusting frame 23 is arranged on the first punching insert 205;

specifically, the main adjusting plate 29 of the adjusting bracket 23 is disposed on the corresponding first blanking insert 205.

The first punching insert 205 is made of steel, and the punching arm plate 203 and the punching transverse plate 204 are made of aluminum;

the punching arm plate 203 and the punching transverse plate 204 are large in size, and the punching arm plate 203 and the punching transverse plate 204 made of aluminum materials can reduce the weight of the punching frame 2, so that the transportation and the installation of the punching mechanism of the die-cutting machine are facilitated.

The connecting part of the adjusting frame 23 and the punching arm plate 203 belongs to a position which is frequently installed and adjusted, and in view of the large size and the multiple connection parts of the punching arm plate 203, if the punching arm plate 203 is seriously worn, the difficulty in replacing the punching arm plate 203 is high, the problem that the punching arm plate 203 is easily worn can be solved by arranging the first punching insert 205 which is connected with the adjusting frame 23, is made of steel and has good wear resistance on the punching arm plate 203, and the punching arm plate 203 does not need to be replaced.

The punching driving assemblies 22 are two groups and are respectively arranged on the side parts of the two groups of punching arm plates 203;

specifically, two sets of the punching driving assemblies 22 are respectively located at the outer sides of the two sets of the punching arm plates 203.

The number of the punching adjusting assemblies is two, and the punching adjusting assemblies are respectively arranged on the two groups of punching arm plates 203;

a material punching connecting component is arranged between the material punching driving component 22 and the punch 21;

the punching connecting component comprises a punching transverse mounting plate 206 positioned below the punching frame 2 and two punching connecting plates 207 which are respectively arranged at two sides of the upper part of the punching transverse mounting plate 206 and are respectively opposite to the two punching driving components 22;

in this embodiment, the number of the punches 21 is several, and the punches are arranged at intervals in the left-right direction and are disposed on the punching material transverse mounting plate 206.

The punching connecting plate 207 is connected to the bottom of the corresponding punching driving component 22, and the punch 21 is arranged on the punching transverse mounting plate 206;

the number of the punching transverse mounting plates 206 is at least two, and the punching transverse mounting plates 206 are arranged at intervals in the front-back direction, and the punching transverse mounting plates 206 are arranged at the bottom of the punching connecting plate 207;

in this embodiment, the number of the punching transverse mounting plates 206 is two, and the punching connecting plate 207 is used to connect all the punching transverse mounting plates 206, so that the linkage of all the punching transverse mounting plates 206 is realized, that is, all the punching transverse mounting plates 206 share two groups of punching driving assemblies 22, thereby reducing the use of the punching driving assemblies 22.

The punching connecting plate 207 is provided with a strip-shaped hole 213 corresponding to the punching transverse mounting plate 206, and the punching connecting plate 207 and the punching transverse mounting plate 206 are connected through a fastener arranged on the strip-shaped hole 213 in a penetrating manner;

the arrangement of the strip-shaped holes 213 enables the adjustment of the relative position between the transverse punching material mounting plate 206 and the punching material connection plate 207.

The punching driving component 22 is a punching cylinder.

The die-cutting machine comprises a cutting die mechanism F which is arranged on a main machine body A and is positioned at the rear part of a punching mechanism B, the cutting die mechanism is used for pre-cutting a product on a material belt 409, the punching mechanism B can punch the product downwards conveniently, the cutting die mechanism comprises a lower die device and an upper die device which are arranged on the main machine A, and the rear part (specifically, the rear part of a punching arm plate 203) of a punching frame 2 is fixedly connected to an upper die base of the upper die device.

The material punching cylinder is sequentially connected with a material punching reversing valve and an air pump externally arranged on the die cutting machine through pipelines, the control device is electrically connected with the material punching cylinder, the material punching reversing valve and the air pump, and the material punching reversing valve is arranged on the side portion of the bag filling base 35.

Further, the material pulling mechanism D comprises a material pulling frame 4 located in front of the material punching mechanism B and the bag filling mechanism C, a main roller shaft 41 both rotatably arranged on the material pulling frame 4, a first roller shaft 42 located on the upper portion of the main roller shaft 41, a second roller shaft 43 located in front of the main roller shaft 41, and a material pulling driving assembly 44 arranged on the material pulling frame 4, in transmission connection with the main roller shaft 41, and used for driving the main roller shaft 41 to rotate;

specifically, the pulling frame 4 is fixedly connected to the front portion of the straight arm 304 and the upper portion of the front portion of the bag filling chassis 35.

This drawing mechanism D of cross cutting machine can be used for the pulling of material area 409.

The material pulling driving assembly 44 drives the first roller shaft 42 to rotate during operation, and the material strap 409 is pulled by matching the first roller shaft 42 and the second roller shaft 43.

As shown in fig. 9, the material tape 409 is input from the rear of the material pulling mechanism D of the die cutter, and the material tape 409 sequentially passes between the upper portion of the main roller shaft 41 and the lower portion of the first roller shaft 42, and between the front portion of the main roller shaft 41 and the rear portion of the second roller shaft 43 from the rear of the main roller shaft 41, and is finally output downward from the front portion of the main roller shaft 41.

First roller 42 pushes down material area 409 in the upper portion of primary roller 41, and second roller 43 inject in the front portion of material area 409 and primary roller 41, realizes compressing tightly when material area 409 carries, avoids taking off when material area 409 stimulates, makes and to draw material drive assembly 44 to move and can realize the high accuracy pulling of material area 409 and carry.

The control device is electrically connected with the material pulling driving assembly 44.

The material pulling driving component 44 is a material pulling driving motor.

The primary roll shaft 41 is a steel roll, and the primary roll shaft 42 and the secondary roll shaft 43 are rubber rolls.

The material pulling rack 4 is provided with a first material pulling adjusting component for enabling the first roll shaft 42 to move up and down;

through setting up first drawing material adjusting part, can change the distance between first roller 42 and the main roll axle 41, make this cross cutting machine draw material mechanism can adapt to the material area 409 of different thickness.

The first pulling adjusting assembly comprises a first pulling guide pillar 45 arranged on the pulling rack 4, a first pulling adjusting seat 46 arranged on the first pulling guide pillar 45 in a penetrating manner, a first pulling mounting plate 47 arranged at the top of the first pulling guide pillar 45, and a first pulling spring 48 sleeved on the first pulling guide pillar 45 and positioned between the first pulling adjusting seat 46 and the first pulling mounting plate 47;

the number of the first material pulling guide pillars 45 is two and the first material pulling guide pillars are arranged at intervals in the front-back direction.

A first shaft body 49 is arranged on the material pulling frame 4 corresponding to the first roller shaft 42, the first roller shaft 42 is arranged on the first shaft body 49 in a penetrating manner, and the side part of the first shaft body 49 is arranged on the first material pulling adjusting seat 46;

the number of the first pulling adjusting assemblies is two, and the first pulling adjusting assemblies are respectively located on two sides of the first shaft body 49 and the first roller shaft 42.

The first material pulling adjusting assembly comprises a material pulling limiting rod 401 which is rotatably arranged on the first material pulling mounting plate 47, downwardly penetrates through the first material pulling mounting plate 47 and is rotatably arranged on the first material pulling adjusting seat 46;

the first material pulling spring 48 is positioned at the side part of the material pulling limiting rod 401;

the material pulling limiting rod 401 is located between the two groups of first material pulling guide pillars 45.

The material pulling limiting rod 401 is connected to the first material pulling mounting plate 47 and the first material pulling adjusting seat 46 through threaded transmission;

draw the material gag lever post 401 top to be equipped with and lie in the first material mounting panel 47 top of drawing and be convenient for to adjust soon and draw the first material of drawing of material gag lever post 401 and revolve the cap.

The operator accessible rotates the adjustment and draws the height that the upper and lower position change first drawing material of material gag lever post 401 adjusted seat 46, primary shaft 49 and primary roller 42 to the material area 409 of the different thickness of adaptation, first drawing material spring 48 to first drawing material all the time adjusts seat 46 and applys decurrent effort, avoids drawing material gag lever post 401 and first drawing material to adjust seat 46 and loosen under the condition of non-human intervention and takes off the aversion.

A first material pulling guide groove 402 is formed in the material pulling rack 4 corresponding to the first material pulling adjusting seat 46;

the first drawing guide groove 402 is used for guiding the up-and-down movement of the first drawing adjusting base 46.

The bottom of the first material pulling guide pillar 45 is arranged at the bottom of the first material pulling guide groove 402, and the first material pulling adjusting seat 46 is arranged in the first material pulling guide groove 402;

the material pulling frame 4 is provided with a second material pulling adjusting component for adjusting the front and rear positions of the second roll shaft 43;

the second material pulling and adjusting assembly is positioned at the front part of the material pulling rack 4.

The second pulling adjusting component comprises a second pulling guide post 403 transversely arranged on the pulling rack 4, a second pulling adjusting seat 404 penetrated on the second pulling guide post 403, a second pulling mounting plate 405 arranged at the outer end part of the second pulling guide post 403 and a pulling adjusting rod 406 connected to the second pulling adjusting seat 404 through screw thread transmission;

a second shaft body 407 is arranged on the material pulling rack 4 corresponding to the second roll shaft 43, the second roll shaft 43 is mounted on the second shaft body 407 in a penetrating manner, and the side part of the second shaft body 407 is arranged on the second material pulling adjusting seat 404;

the number of the second material pulling guide posts 403 is two, and the second material pulling guide posts 403 are arranged at intervals up and down, and the material pulling adjusting rods 406 are located between the two groups of the second material pulling guide posts 403.

The number of the second material pulling adjusting assemblies is two, and the second material pulling adjusting assemblies are respectively located on two sides of the second shaft body 407 and the second roller shaft 43.

Aiming at the material belt 409 with different thicknesses, the distance between the second roller shaft 43 and the main roller shaft 41 is adjusted by rotating and adjusting the material pulling adjusting rod 406, so that the material belt 409 is tightly pressed on the main roller shaft 41 by the second roller shaft 43, and the pressing of the material belt 409 during conveying is realized.

The material pulling adjusting rod 406 penetrates through the material pulling adjusting rod 406 from the outer side of the second material pulling mounting plate 405;

the outer end of the material pulling adjusting rod 406 is provided with a second material pulling turncap which is positioned outside the second material pulling mounting plate 405 and is convenient for turning and adjusting the material pulling adjusting rod 406.

A second material pulling guide groove 408 is formed in the material pulling rack 4 corresponding to the second material pulling adjusting seat 404;

the inner end of the second drawing guide pillar 403 is arranged on the inner side of the second drawing guide groove 408, the second drawing adjusting seat 404 is arranged in the second drawing guide groove 408, and a second spring 410 is arranged between the second drawing adjusting seat 404 and the second drawing guide groove 408.

The second material pulling guide groove 408 is used for guiding the second material pulling adjusting seat 404 to move back and forth, and the second spring 410 always provides an outward acting force for the second material pulling adjusting seat 404, so that the material pulling adjusting rod 406 and the second material pulling adjusting seat 404 are prevented from loosening and shifting under the condition of no human intervention.

Further, the waste collecting mechanism E comprises a material receiving rack 5 arranged in front of the material pulling mechanism D, a material receiving adjusting assembly and a material receiving roller shaft 51 which are sequentially arranged on the material receiving rack 5 and around which the material strap 409 sequentially passes, and a material receiving driving assembly 52 connected with the material receiving roller shaft 51 and driving the material receiving roller shaft 51 to rotate is arranged on the material receiving rack 5;

specifically, the material receiving rack 5 is connected to the front part of the material pulling rack 4.

The material receiving adjusting assembly comprises a vertical material receiving guide rail 53 arranged on the material receiving rack 5, a material receiving sliding seat 54 arranged on the vertical material receiving guide rail 53, an adjusting roller shaft 55 arranged on the material receiving sliding seat 54 and a sensor 56 arranged on the material receiving rack 5 and used for detecting the position of the material receiving sliding seat 54, wherein the adjusting roller shaft 55 is rotatably arranged on the material receiving sliding seat 54;

the control device is electrically connected with the material receiving driving assembly 52 and the sensor 56.

The material strap 409 draws back from drawing material mechanism D, and the material strap 409 is walked around from the lower part of adjusting roller 55 to continue to receive on the material roller 51, receive material drive assembly 52 operation material strap 409 and constantly collect on receiving the material roller 51, avoid the scattering of material strap 409.

The pulling speed of the pulling mechanism D is different from the receiving speed of the waste collecting mechanism E, so that the material belt 409 between the pulling mechanism D and the adjusting roller shaft 55 is too much or too little.

When the material belt 409 between the adjusting roller shaft 55 and the material pulling mechanism D is too much, so that the material receiving sliding seats 54 fall to a low position along the vertical material receiving guide rails 53, the sensors 56 detect the positions of the corresponding material receiving sliding seats 54 and transmit corresponding signals to the control device, and the control device controls the material receiving driving assembly 52 to operate or accelerate, so that the material belt 409 is collected or accelerated;

when the material belt 409 between the adjusting roller shaft 55 and the material pulling mechanism D is too small, so that the material receiving sliding seat 54 moves upwards to a high position along the vertical material receiving guide rail 53, the sensor 56 detects the position of the corresponding material receiving sliding seat 54 and transmits a corresponding signal to the control device, and the control device controls the material receiving driving assembly 52 to stop or decelerate, so that the collection of the material belt 409 is stopped or decelerated.

Draw material mechanism D and garbage collection mechanism E to compress tightly material area 409 respectively, and garbage collection mechanism E is equipped with and is used for handling the too much or what condition of material area 409 between drawing material mechanism D and the garbage collection mechanism E, avoids drawing the material area 409 between material mechanism D and the garbage collection mechanism E to carry and collect and take place the conflict.

The material receiving driving assembly 52 is a material receiving driving motor.

The vertical material receiving guide rails 53 and the material receiving sliding seats 54 are two in number and are arranged on two sides of the adjusting roller shaft 55 in bilateral symmetry.

The material receiving rack 5 is provided with a pressing component which is positioned between the material receiving adjusting component and the material receiving roll shaft 51 and used for pressing the material belt 409;

the setting up of compressing tightly the subassembly makes the material area 409 between compressing tightly the subassembly and receiving material roller 51 be in the state of tightening all the time, adjusts the roller 55 and draws the material mechanism between the material area 409 too much or too little circumstances can not influence the material area 409 on receiving material roller 51, avoids the winding material area 409 on receiving material roller 51 to appear loosening and take off.

In this embodiment, the material receiving adjusting assembly, the pressing assembly and the material receiving roller shaft 51 are sequentially arranged from back to front.

The pressing assembly comprises a lower roll shaft 57 and a pressing roll shaft 58, wherein the lower roll shaft 57 is rotatably arranged on the material receiving rack 5;

the material belt 409 passes under the adjustment roller 55, passes between the lower roller 57 and the pressing roller 58, and continues to the receiving roller 51.

The lower roller shaft 57 is positioned above the rear part of the receiving roller shaft 51, and the lower roller shaft 57 is positioned in front of the adjusting roller shaft 55;

the material receiving rack 5 is provided with a roller shaft adjusting component for adjusting the upper and lower positions of the pressing roller shaft 58;

the roll shaft adjusting component is arranged on the upper part of the material receiving rack 5.

The roll shaft adjusting assembly comprises a roll shaft guide post 59 arranged on the material receiving rack 5, a roll shaft adjusting seat 501 arranged on the roll shaft guide post 59 in a penetrating manner, a positioning mounting plate 502 arranged at the top of the roll shaft guide post 59 and a roll shaft adjusting rod 503 connected to the roll shaft adjusting seat 501 through thread transmission;

a pressing shaft body 504 is arranged on the material receiving rack 5 corresponding to the pressing roller shaft 58, the pressing roller shaft 58 is arranged on the pressing shaft body 504 in a penetrating manner, and the side part of the pressing shaft body 504 is arranged on the roller shaft adjusting seat 501;

the number of the roller guide posts 59 is two, and the roller guide posts 59 are arranged at intervals, and the roller adjusting rod 503 is positioned between the two roller guide posts 59.

The number of the roller shaft adjusting assemblies is two, and the roller shaft adjusting assemblies are arranged at left and right intervals and are respectively positioned at two sides of the pressing shaft body 504 and the pressing roller shaft 58.

For the material belts 409 with different thicknesses, the distance between the pressing shaft body 504 and the lower roller shaft 57 is adjusted by rotating the roller shaft adjusting rod 503.

The roller shaft adjusting rod 503 passes through the positioning mounting plate 502 from the upper part of the positioning mounting plate 502 downwards;

the top of the roller shaft adjusting rod 503 is provided with an adjusting screw cap which is positioned above the positioning mounting plate 502 and facilitates the adjustment of the roller shaft adjusting rod 503.

A material receiving guide groove 505 is formed in the material receiving rack 5 corresponding to the roll shaft adjusting seat 501;

the bottom of the roller shaft guide column 59 is arranged at the bottom of the material receiving guide groove 505, the roller shaft adjusting seat 501 is arranged in the material receiving guide groove 505, and a material receiving spring 510 is arranged between the roller shaft adjusting seat 501 and the material receiving guide groove 505;

the material receiving guide groove 505 is used for guiding the roll shaft adjusting seat 501 to move up and down, the material receiving spring 510 always applies upward acting force to the roll shaft adjusting seat 501, and the roll shaft adjusting seat 501 and the roll shaft adjusting rod 503 are prevented from loosening and shifting under the condition of non-human intervention.

The material receiving roller shaft 51 is positioned at the front part of the material receiving adjusting component;

the two ends of the material receiving roller shaft 51 are respectively provided with a limiting baffle 511 used for limiting the material belt 409, so that the material belt 409 wound on the material receiving roller shaft 51 is more orderly.

The sensor 56 comprises a first sensor 506 and a second sensor 507, wherein the first sensor 506 and the second sensor are arranged on the material receiving rack 5 and are opposite to the upper part of the vertical material receiving guide rail 53, and the second sensor 507 is opposite to the lower part of the vertical material receiving guide rail 53.

That is, the first sensor 506 is used to detect that the tape 409 between the adjustment roller shaft 55 and the drawing mechanism D is too small, and the second sensor 507 is used to detect that the tape 409 between the adjustment roller shaft 55 and the drawing mechanism D is too large.

The first sensor 506 and the second sensor 507 may be position sensors, or may be replaced with a flip-flop type trigger switch that can contact the material receiving slide 54.

The control device is electrically connected with the first sensor 506 and the second sensor 507.

Further, the machine body A comprises a case 6 for mounting a cutting driving device of the die cutting machine, a distribution box 7 arranged at the rear part of the case 6 for mounting a power supply device of the die cutting machine, and a control box 8 arranged at the side part or the upper part of the case 6 and/or the distribution box 7 or externally arranged on the case 6 and the distribution box 7 and used for mounting a control device of the die cutting machine;

the control device is arranged in the control box 8.

The case 6 is located at the front end, and if the control box 8 is located at one side of the case 6, the operator can still maintain and debug the cutting driving device in the case 6 at the other side of the case 6.

Block terminal 7 is located the rear end, and the operational section is big, the debugging of the installation of being convenient for to work a telephone switchboard and cross cutting machine.

The distribution box 7 is arranged at the rear part of the case 6, but not arranged at the side part of the case 6, so that the width size of the machine body structure is reduced;

in addition, in die-cutting machine practical application, the rear of organism A can reserve for the feeding mechanism (not shown in the figure) that is used for carrying material area 409 to the die-cutting machine and carry the buffer interval, set up block terminal 7 at the rear portion of quick-witted case 6 and make block terminal 7 be located the front portion of carrying the buffer interval, still keep having longer interval between block terminal 7 and the feeding mechanism, can hold the operation personnel and operate block terminal 7, block terminal 7 can not interfere the transport of material area 409, material area 409 passes through from block terminal 7's top when carrying, the transport buffer interval of rational utilization material area 409 below.

The machine body A of the die-cutting machine is reasonable in layout and beneficial to installation and maintenance of the die-cutting machine.

And a cutting die mechanism F is arranged at the upper part of the case 6, and cutting driving equipment in the case 6 is in transmission connection with the cutting die mechanism F.

The material punching mechanism B, the bag filling mechanism C, the material pulling mechanism D and the waste material collecting mechanism E are arranged at the front part of the case 6;

specifically, the straight arm 304 is fixed to the upper portion of the housing 6 and extends forward, and the bag filling chassis 35 is fixed to the lower portion of the front surface of the housing 6.

When the material belt 409 is used, the material belt is firstly output from a feeding mechanism behind the machine body A and sequentially passes through a cutting die mechanism F, a punching mechanism B, a pulling mechanism D and a waste collecting mechanism E.

In this embodiment, the control box 8 is disposed at the side portions of the chassis 6 and the distribution box 7, specifically, the control box 8 is disposed at the side portions of the motor cover 66 and the distribution box 7, and the inside of the control box 8 is communicated with the inside of the chassis 6 and the inside of the distribution box 7, so as to facilitate the passing of the electric wire.

The inside and the inside intercommunication of block terminal 7 of quick-witted case 6 are convenient for the electric wire, the passing through of pipeline.

A wire slot 9 for accommodating wires is arranged at the side part of the case 6;

the die cutting machine is provided with an electric wire and an air pipe, and the electric wire and the air pipe can be stored in the wire slot 9 and penetrate into the case 6.

A sealing plate 61 is arranged on the side of the case 6;

the operator can maintain and debug the cutting drive device in the housing 6 by removing the cover plate 61.

The wire groove 9 is positioned on the outer side of the closing plate 61;

in this embodiment, the trunking 9 is located above and in front of the sealing plate 61, and the case 6 has the sealing plate 61 on both sides.

The case 6 comprises a main case 65 and a motor cover 66 arranged at the rear part of the main case 65;

the distribution box 7 is arranged at the rear part of the motor cover body 66;

the closing plate 61 is provided at a side of the main case 65.

A first cabinet door 62 is arranged at the rear part and/or the side part of the distribution box 7;

in this embodiment, the first door 62 is located at the rear of the electrical box 7.

The bottom of the control box 8 is provided with a tool box 63;

the tool box 63 may be used to place tools commonly used by workers.

The side of the tool box 63 is provided with a second cabinet door 64.

The foregoing is a preferred embodiment of the present invention, and the basic principles, principal features and advantages of the invention are shown and described. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the present invention, but various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims (8)

1. The die cutting machine is characterized by comprising a machine body A, a material punching mechanism B, a bag filling mechanism C, a material pulling mechanism D and a waste collecting mechanism E, wherein the material punching mechanism B is arranged on the machine body A and used for punching a product on a material belt (409), the bag filling mechanism C is used for receiving the product, the material pulling mechanism D is used for pulling the material belt (409) to enable the material belt (409) to be conveyed in the machine body A, and the waste collecting mechanism E is used for collecting the material belt (409) punched by the product;

the bag filling mechanism C comprises a bag filling seat (32), a cylinder (33) arranged on the bag filling seat (32) and used for sleeving a bag (311), and a bag filling driving device arranged on the machine body A and used for driving the bag filling seat (32) to move;

the bag filling driving device comprises an X-axis driving component for driving the bag filling seat (32) to move transversely, a Y-axis driving component arranged on the X-axis driving component for driving the bag filling seat (32) to move back and forth, and a Z-axis driving component arranged on the bag filling seat (32) for driving the barrel (33) to move up and down;

the bag filling seat (32) is arranged on the X-axis driving assembly;

the bag filling mechanism C comprises a bag filling bracket (3) arranged on the machine body A;

the X-axis driving assembly comprises an X-axis guide rail (31) which is arranged on the bag filling bracket (3) and extends along the transverse direction, and an X-axis driver (34) which is arranged on the bag filling bracket (3), is connected with the bag filling seat (32) and is used for driving the bag filling seat (32) to move transversely;

the bag filling seat (32) is arranged on the X-axis guide rail (31) in a sliding manner;

the Y-axis driving assembly comprises a bag filling chassis (35) arranged on the machine body A, a Y-axis guide rail (36) arranged on the bag filling chassis (35) and extending along the front-back direction, and a Y-axis driver (37) arranged on the bag filling chassis (35), connected with the bag filling bracket (3) and used for driving the bag filling bracket (3) to move back and forth;

the bag filling bracket (3) is arranged on the Y-axis guide rail (36) in a sliding manner;

the Z-axis driving assembly comprises a bag filling lifting plate (38) arranged on the bag filling seat (32) and a Z-axis driver (39) which is arranged between the bag filling seat (32) and the bag filling lifting plate (38) and is used for driving the bag filling lifting plate (38) to move up and down;

the cylinder (33) is arranged on the bag filling lifting plate (38).

2. The die cutting machine according to claim 1, wherein the number of the bag filling seats (32) is at least two, the bag filling seats are arranged at intervals in the front and back direction, the number of the X-axis driving assemblies is the same as that of the bag filling seats (32), and the bag filling seats (32) are in one-to-one correspondence with the X-axis driving assemblies;

the bag filling machine is characterized in that a bag filling adjusting seat (305) is arranged on the bag filling base (35), a Y-axis driver (37) is arranged on the bag filling adjusting seat (305), and a bag filling rotary adjusting rod (306) is connected with the Y-axis driver (37) in one end through threads on the bag filling adjusting seat (305) and used for driving the Y-axis driver (37) to move back and forth for adjustment.

3. The die cutting machine of claim 1, wherein the X-axis drive assembly, the Y-axis drive assembly, and the Z-axis drive assembly are pneumatically driven;

the X-axis driver (34) is an X-axis driving cylinder;

the Y-axis driver (37) is a Y-axis driving cylinder;

and the Z-axis driver (39) is a Z-axis driving air cylinder.

4. The die cutting machine as recited in claim 1, wherein the punching mechanism B comprises a punching frame (2) located above the bag filling mechanism C, a punch (21), a punching driving assembly (22) connected to an upper portion of the punch (21) and used for driving the punch (21) to move up and down, and a punching adjusting assembly for adjusting an upper and lower position of the punching driving assembly (22);

the punching adjusting assembly comprises an adjusting frame (23) arranged on the punching frame (2) and a vertical adjusting rod (24) arranged on the adjusting frame (23) and the lower part of the vertical adjusting rod is connected with the punching driving assembly (22).

5. The die cutting machine according to claim 4, wherein the punching adjusting assembly comprises a punching fixing plate (25) arranged at the upper part of the punching driving assembly (22) and a punching press plate (26) arranged at the upper part of the punching fixing plate (25);

the bottom of the vertical adjusting rod (24) is provided with a limiting table (27), the vertical adjusting rod (24) downwards penetrates through the punching press plate (26), and the limiting table (27) is positioned between the punching fixing plate (25) and the punching press plate (26);

the vertical adjusting rod (24) is in transmission connection with the adjusting frame (23) through threads;

the punching adjusting assembly comprises a transverse locking rod (28) which is arranged on the adjusting frame (23) and is used for being tightly pressed on the side part of the vertical adjusting rod (24);

the transverse locking rod (28) penetrates into the punching fixing plate (25), and the transverse locking rod (28) is in transmission connection with the punching fixing plate (25) through threads;

the limiting table (27) is embedded in the punching fixing plate (25), and the inner end of the transverse locking rod (28) is tightly pressed on the side part of the limiting table (27);

the adjusting frame (23) comprises a main adjusting plate (29) arranged on the punching frame (2) and a vertical adjusting plate (201) connected to the outer side of the bottom of the main adjusting plate (29);

the vertical adjusting rod (24) is arranged on the main adjusting plate (29) in a penetrating mode, a vertical strip-shaped groove (202) is formed in the vertical adjusting plate (201) corresponding to the transverse locking rod (28), and the transverse locking rod (28) penetrates through the vertical strip-shaped groove (202);

the main adjusting plate (29) is provided with a horizontal strip-shaped groove (208) extending along the front-back direction, and the main adjusting plate (29) and the punching frame (2) are connected with each other through a fastener penetrating the horizontal strip-shaped groove (208);

the punching frame (2) comprises two groups of punching arm plates (203) which are arranged at left and right intervals and a punching transverse plate (204) which is connected with the two groups of punching arm plates (203) and is positioned in front of the punching arm plates (203);

the punching driving assembly (22) is arranged on the side part of the punching arm plate (203), and the adjusting frame (23) is arranged on the punching arm plate (203);

a first punching insert (205) is arranged on the punching arm plate (203) corresponding to the adjusting frame (23), and the adjusting frame (23) is arranged on the first punching insert (205);

the first punching insert (205) is made of steel, and the punching arm plate (203) and the punching transverse plate (204) are made of aluminum;

the punching driving assemblies (22) are two in number and are respectively arranged on the side parts of the two groups of punching arm plates (203);

the number of the punching adjusting assemblies is two, and the punching adjusting assemblies are respectively arranged on the two groups of punching arm plates (203);

a material punching connecting component is arranged between the material punching driving component (22) and the punch head (21);

the punching connecting assembly comprises a punching transverse mounting plate (206) positioned below the punching frame (2) and two groups of punching connecting plates (207) which are respectively arranged on two sides of the upper part of the punching transverse mounting plate (206) and respectively opposite to the two groups of punching driving assemblies (22);

the punching connecting plate (207) is connected to the bottom of the corresponding punching driving assembly (22), and the punch (21) is arranged on the punching transverse mounting plate (206);

the number of the punching transverse mounting plates (206) is at least two, the punching transverse mounting plates (206) are arranged at intervals in the front-back direction, and the punching transverse mounting plates (206) are arranged at the bottom of the punching connecting plate (207);

the punching connecting plate (207) is provided with a strip-shaped hole (213) corresponding to the punching transverse mounting plate (206), and the punching connecting plate (207) and the punching transverse mounting plate (206) are connected through a fastener penetrating through the strip-shaped hole (213);

the material punching driving assembly (22) is a material punching cylinder.

6. The die cutting machine according to claim 1, wherein the drawing mechanism D comprises a drawing frame (4) positioned in front of the punching mechanism B and the bag filling mechanism C, a main roller shaft (41) rotatably arranged on the drawing frame (4), a first roller shaft (42) positioned on the upper portion of the main roller shaft (41), a second roller shaft (43) positioned in front of the main roller shaft (41), and a drawing driving assembly (44) arranged on the drawing frame (4), in transmission connection with the main roller shaft (41), and used for driving the main roller shaft (41) to rotate;

a first material pulling adjusting component used for enabling a first roll shaft (42) to move up and down is arranged on the material pulling rack (4);

the first pulling adjusting assembly comprises a first pulling guide post (45) arranged on the pulling rack (4), a first pulling adjusting seat (46) arranged on the first pulling guide post (45) in a penetrating manner, a first pulling mounting plate (47) arranged at the top of the first pulling guide post (45), and a first pulling spring (48) sleeved on the first pulling guide post (45) and positioned between the first pulling adjusting seat (46) and the first pulling mounting plate (47);

a first shaft body (49) is arranged on the material pulling rack (4) corresponding to the first shaft body (42), the first shaft body (42) is arranged on the first shaft body (49) in a penetrating mode, and the side portion of the first shaft body (49) is arranged on the first material pulling adjusting seat (46);

the first material pulling adjusting assembly comprises a material pulling limiting rod (401) which is rotatably arranged on the first material pulling mounting plate (47), downwardly penetrates through the first material pulling mounting plate (47) and is rotatably arranged on the first material pulling adjusting seat (46);

the first material pulling spring (48) is positioned at the side part of the material pulling limiting rod (401);

a first material pulling guide groove (402) is formed in the material pulling rack (4) corresponding to the first material pulling adjusting seat (46);

the bottom of the first material pulling guide column (45) is arranged at the bottom of the first material pulling guide groove (402), and the first material pulling adjusting seat (46) is arranged in the first material pulling guide groove (402);

a second material pulling adjusting component used for adjusting the front and rear positions of a second roller shaft (43) is arranged on the material pulling rack (4);

the second pulling adjusting assembly comprises a second pulling guide post (403) transversely arranged on the pulling rack (4), a second pulling adjusting seat (404) penetrated on the second pulling guide post (403), a second pulling mounting plate (405) arranged at the outer end part of the second pulling guide post (403), and a pulling adjusting rod (406) connected to the second pulling adjusting seat (404) through screw transmission;

a second shaft body (407) is arranged on the material pulling rack (4) corresponding to the second roller shaft (43), the second roller shaft (43) is arranged on the second shaft body (407) in a penetrating manner, and the side part of the second shaft body (407) is arranged on the second material pulling adjusting seat (404);

the pulling adjusting rod (406) penetrates through the pulling adjusting rod (406) from the outer side of the second pulling mounting plate (405);

a second material pulling guide groove (408) is formed in the material pulling rack (4) corresponding to the second material pulling adjusting seat (404);

the inner end part of the second material pulling guide column (403) is arranged on the inner side part of the second material pulling guide groove (408), the second material pulling adjusting seat (404) is arranged in the second material pulling guide groove (408), and a second spring (410) is arranged between the second material pulling adjusting seat (404) and the second material pulling guide groove (408).

7. The die cutting machine according to claim 6, wherein the waste collecting mechanism E comprises a material receiving rack (5) arranged at the front part of the material pulling mechanism D, a material receiving adjusting assembly and a material receiving roller shaft (51) which are sequentially arranged on the material receiving rack (5) and a material belt (409) sequentially bypasses, and a material receiving driving assembly (52) which is connected with the material receiving roller shaft (51) and drives the material receiving roller shaft (51) to rotate is arranged on the material receiving rack (5);

the material receiving adjusting assembly comprises a vertical material receiving guide rail (53) arranged on the material receiving rack (5), a material receiving sliding seat (54) arranged on the vertical material receiving guide rail (53), an adjusting roller shaft (55) arranged on the material receiving sliding seat (54), and a sensor (56) which is arranged on the material receiving rack (5) and is used for detecting the position of the material receiving sliding seat (54);

the material receiving rack (5) is provided with a pressing component which is positioned between the material receiving adjusting component and the material receiving roll shaft (51) and used for pressing the material belt (409);

the pressing assembly comprises a lower roll shaft (57) which is rotatably arranged on the material receiving rack (5) and a pressing roll shaft (58) which is positioned at the upper part of the lower roll shaft (57);

the lower roll shaft (57) is positioned above the rear part of the material receiving roll shaft (51), and the lower roll shaft (57) is positioned in front of the adjusting roll shaft (55);

the material receiving rack (5) is provided with a roll shaft adjusting component for adjusting the upper and lower positions of the pressing roll shaft (58);

the roll shaft adjusting assembly comprises a roll shaft guide post (59) arranged on the material receiving rack (5), a roll shaft adjusting seat (501) arranged on the roll shaft guide post (59) in a penetrating manner, a positioning mounting plate (502) arranged at the top of the roll shaft guide post (59) and a roll shaft adjusting rod (503) connected to the roll shaft adjusting seat (501) through threaded transmission;

a pressing shaft body (504) is arranged on the material receiving rack (5) corresponding to the pressing roller shaft (58), the pressing roller shaft (58) is arranged on the pressing shaft body (504) in a penetrating mode, and the side portion of the pressing shaft body (504) is arranged on the roller shaft adjusting seat (501);

the roller shaft adjusting rod (503) penetrates through the positioning mounting plate (502) from the upper part of the positioning mounting plate (502) downwards;

a material receiving guide groove (505) is formed in the material receiving rack (5) corresponding to the roll shaft adjusting seat (501);

the bottom of the roller shaft guide post (59) is arranged at the bottom of the material receiving guide groove (505), the roller shaft adjusting seat (501) is arranged in the material receiving guide groove (505), and a material receiving spring (510) is arranged between the roller shaft adjusting seat (501) and the material receiving guide groove (505);

the receiving roll shaft (51) is positioned at the front part of the receiving adjusting assembly;

the sensor (56) comprises a first sensor (506) and a second sensor (507), wherein the first sensor (506) and the second sensor are arranged on the material receiving rack (5) and are opposite to the upper part of the vertical material receiving guide rail (53), and the second sensor (507) is opposite to the lower part of the vertical material receiving guide rail (53);

and two ends of the material receiving roller shaft (51) are respectively provided with a limit baffle (511) used for limiting a material belt (409).

8. The die cutting machine according to claim 1, wherein the machine body A comprises a case (6) for mounting a cutting driving device of the die cutting machine, a distribution box (7) arranged at the rear part of the case (6) for mounting a power supply device of the die cutting machine, and a control box (8) arranged at the side part or the upper part of the case (6) and/or the distribution box (7) or arranged outside the case (6) and the distribution box (7) and used for mounting a control device of the die cutting machine;

the material punching mechanism B, the bag filling mechanism C, the material pulling mechanism D and the waste material collecting mechanism E are arranged at the front part of the case (6);

a wire groove (9) for accommodating wires is formed in the side of the case (6);

a sealing plate (61) is arranged on the side of the case (6);

the wire groove (9) is positioned on the outer side of the sealing plate (61);

the case (6) comprises a main case body (65) and a motor cover body (66) arranged at the rear part of the main case body (65);

the distribution box (7) is arranged at the rear part of the motor cover body (66);

the control box (8) is arranged on the side parts of the motor cover body (66) and the distribution box (7);

a first cabinet door (62) is arranged at the rear part and/or the side part of the distribution box (7);

a tool box (63) is arranged at the bottom of the control box (8);

and a second cabinet door (64) is arranged at the side part of the tool box (63).

Images