CN111745743B

CN111745743B - Full-automatic die-cutting machine

Info

Publication number: CN111745743B
Application number: CN202010612400.3A
Authority: CN
Inventors: 张流华; 王涛
Original assignee: Everything Industrial Co ltd
Current assignee: Everything Industrial Co ltd
Priority date: 2020-06-30
Filing date: 2020-06-30
Publication date: 2021-10-19
Anticipated expiration: 2040-06-30
Also published as: CN111745743A

Abstract

The invention discloses a full-automatic die-cutting machine, which comprises a machine body, a die-cutting center, a conveying table, a base and a driver, wherein the conveying table is movably clamped with the machine body, the base is welded with the machine body, the driver is movably clamped with the base, the die-cutting center is fixedly connected with the machine body in an embedded manner, the inclined slide block can slide upwards along the combining block in an inclined way by the upward reverse thrust generated by the printing paper on the conveying table to the inclined slide block, so that the die cutting tool bit can extend downwards to cut the clusters on the printed straight paper, the telescopic rod can slide upwards along the guide frame to retract through the reverse thrust of the printed paper on the conveying table to the telescopic rod on the pressurizing plate, the two sides of the boosting sheet push the outer exhibition plate, so that the outer exhibition plate can be unfolded outwards along the bearing plate, thereby make the abduction board can push out the telescopic link downwards along the pedestal, so make the telescopic link can push the printing paper of adhesion in the pressure boost board bottom down.

Description

Full-automatic die-cutting machine

Technical Field

The invention relates to the field of die cutting machines, in particular to a full-automatic die cutting machine.

Background

Full-automatic die cutting machine is the equipment that is used for carrying out post processing to the printed matter and tailors, can be through the instruction of setting up completion in advance, make the die cutting tool bit tailor to the pattern on the printed matter, thereby make the printed pattern can separate with printing paper main part, extensive the work of tailorring that applies to paper printed matters such as various stickers, and tailor the sticker and divide into the full-break cross cutting and half-break die cutting, full-break then is completely with the sticker pattern with printing paper separation, half-break otherwise is to cut off the upper sticker of printing paper and remain printing paper wholly, based on the discovery of the inventor of the above-mentioned description, present full-automatic die cutting machine mainly has following not enough, for example:

if the printing paper appears buckling when the transport, then when leading to the printing paper to convey on the conveying platform easily, the condition that exceeds other positions of printing paper can appear in the department of buckling to lead to the die cutter utensil when cutting out printing paper half-absolutely, can appear the department of buckling and contact the cutting die tool bit in advance, lead to the cutting die tool bit to cut off the sticker on the department of buckling upper strata in advance, continue to push down again and then can make the printing paper the condition of breaking entirely appear.

Disclosure of Invention

Aiming at the problems, the invention provides a full-automatic die cutting machine.

In order to achieve the purpose, the invention is realized by the following technical scheme: a full-automatic die-cutting machine structurally comprises a machine body, a die-cutting center, a conveying table, a base and a driver, wherein the conveying table is movably clamped with the machine body, the base is welded with the machine body, the driver is movably clamped with the base, and the die-cutting center is fixedly connected with the machine body in an embedded manner; the die cutting center comprises a connecting end, a frame body, a die cutting tool, an induction head, a moving end and a guide rail, wherein the connecting end is fixedly embedded at the upper end of the frame body, the die cutting tool is connected with the moving end, the top of the induction head is attached to the bottom of the moving end, the moving end is movably clamped with the frame body, and the guide rail is arranged at the inner position of the frame body.

As a further optimization of the invention, the die cutting tool comprises a block body, a combination block, two inclined slide blocks and a die cutting tool bit, wherein the combination block and the block body are of an integrated structure, the inclined slide blocks are movably clamped with the combination block, the die cutting tool bit is fixedly embedded at the bottom of the combination block, and the two inclined slide blocks are uniformly and symmetrically distributed on the left side and the right side of the combination block.

As a further optimization of the invention, the inclined slider comprises a frame, a linkage plate, an elastic strip, an upper top plate, a lower swing plate and a lower pressing rod, one end of the linkage plate is connected with the frame, the other end of the linkage plate is movably clamped with the upper top plate, the upper top plate is hinged with the frame through the elastic strip, the lower swing plate is hinged with the upper top plate, the lower pressing rod is arranged between the lower swing plate and the linkage plate, and the upper top plate can be upwards contracted through the reverse thrust generated by an object on the upper top plate.

As a further optimization of the invention, the lower swing plate comprises an elastic sheet, a pressure increasing plate, a bottom plate and a plate body, wherein the elastic sheet is arranged between the bottom plate and the pressure increasing plate, the pressure increasing plate is hinged with the bottom plate, the bottom plate and the plate body are of an integrated structure, and the three pressure increasing plates are uniformly distributed in parallel at the bottom of the bottom plate.

As a further optimization of the invention, the pressure increasing plate comprises a plate surface, a guide frame, three telescopic rods and a bottom plate, wherein the guide frame is fixedly connected with the plate surface in an embedded manner, the telescopic rods are in clearance fit with the guide frame, the bottom plate and the plate surface are of an integrated structure, and the three telescopic rods are uniformly distributed on the top of the inner wall of the plate surface in parallel through the guide frame.

As a further optimization of the invention, the telescopic rod comprises a bearing plate, an outer display plate, a movable roller and a boosting sheet, wherein the outer display plate is hinged with the bearing plate, the movable roller is embedded and fixed at the bottom position of the bearing plate, the boosting sheet is arranged between the two outer display plates, and the outer display plates at the two sides can be pushed to be outwards spread along the bearing plate through the boosting sheet.

As a further optimization of the invention, the movable roller comprises a stress plate, a return spring plate, a middle connecting plate and an inner ring, wherein the stress plate is hinged with the middle connecting plate, the return spring plate is arranged between the stress plate and the middle connecting plate, the middle connecting plate is fixedly embedded with the inner ring, six stress plates are arranged, and the outer surfaces of the inner rings which are uniformly matched through the middle connecting plate are distributed in a circular shape.

The invention has the following beneficial effects:

1. when the cross cutting maincenter drives the die cutting tool to descend, the printing paper on the conveying platform generates upward reverse thrust to the oblique sliding block, the oblique sliding block can slide upwards along the combination block in an inclined mode, so that the die cutting tool bit can stretch out downwards to cut a group on the printing straight paper, and the bent printing paper can be flatly supported through the oblique sliding block when sliding.

2. Through the telescopic link thrust of conveying bench printing paper on to the pressure boost plate, can make the telescopic link along the guide frame shrink of upwards sliding, and when the cross cutting maincenter drove the cross cutting cutter and goes up, through the both sides of boosting piece to the outer panel thrust, can make the abduction board along accepting the board and outwards expanding to make the abduction board can push the telescopic link down along the guide frame, so make the telescopic link can push off the printing paper of adhesion in the pressure boost plate bottom.

Drawings

Fig. 1 is a schematic structural view of a full-automatic die cutting machine according to the present invention.

FIG. 2 is a schematic view of a die cutting hub in front elevation with a half-section configuration according to the present invention.

Fig. 3 is a front half-section schematic view of the die cutting tool of the present invention.

FIG. 4 is a front view of a half-section of the oblique slider according to the present invention.

FIG. 5 is a schematic structural view of a lower swing plate of the present invention.

Fig. 6 is a schematic structural view of a front cross section of the pressure increasing plate of the present invention.

Fig. 7 is a schematic structural view of a front section of the telescopic rod of the present invention.

Fig. 8 is a schematic structural view of a front section of the movable roll of the present invention.

In the figure: machine body-1, die cutting pivot-2, conveying table-3, base-4, driver-5, connecting end-21, frame-22, die cutting tool-23, induction head-24, moving end-25, guide rail-26, block-a 1, combination block-a 2, inclined slide block-a 3, die cutting tool-a 4, frame-a 31, linkage plate-a 32, elastic strip-a 33, upper top plate-a 34, lower swing plate-a 35, lower pressing rod-a 36, elastic sheet-b 1, pressure increasing plate-b 2, bottom plate-b 3, plate-b 4, plate-b 21, guide frame-b 22, telescopic rod-b 23, bottom plate-b 24, bearing plate-c 1, outward expansion plate-c 2, movable roller-c 3, push assisting sheet-c 4, Stress board-c 31, resilient sheet-c 32, middle connecting board-c 33 and inner ring-c 34.

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.

Example 1

As shown in fig. 1-5:

the invention provides a full-automatic die-cutting machine which structurally comprises a machine body 1, a die-cutting center 2, a conveying table 3, a base 4 and a driver 5, wherein the conveying table 3 is movably clamped with the machine body 1, the base 4 is welded with the machine body 1, the driver 5 is movably clamped with the base 4, and the die-cutting center 2 is fixedly connected with the machine body 1; the die cutting center 2 comprises a connecting end 21, a frame 22, a die cutting tool 23, an induction head 24, a moving end 25 and a guide rail 26, wherein the connecting end 21 is embedded at the upper end of the frame 22, the die cutting tool 23 is connected with the moving end 25, the top of the induction head 24 is attached to the bottom of the moving end 25, the moving end 25 is movably clamped with the frame 22, and the guide rail 26 is installed at the inner position of the frame 22.

The die-cutting tool 23 comprises a block body a1, a combination block a2, an inclined slider a3 and a die-cutting head a4, the combination block a2 and the block body a1 are of an integrated structure, the inclined slider a3 is movably clamped with the combination block a2, the die-cutting head a4 is embedded at the bottom of the combination block a2, the inclined sliders a3 are arranged in two numbers and are uniformly and symmetrically distributed on the left side and the right side of the combination block a2, and an object generates upward reverse thrust on the inclined slider a3, so that the inclined slider a3 can slide obliquely upwards along the combination block a2, and the die-cutting head a4 can cut printing paper.

The inclined slider a3 comprises a frame a31, a linkage plate a32, an elastic strip a33, an upper top plate a34, a lower swing plate a35 and a lower pressing rod a36, wherein one end of the linkage plate a32 is connected with the frame a31, the other end of the linkage plate a32 is movably clamped with the upper top plate a34, the upper top plate a34 is hinged with the frame a33 through the elastic strip a33, the lower swing plate a33 is hinged with the upper top plate a33, the lower pressing rod a33 is installed between the lower swing plate a33 and the linkage plate a33, the upper top plate a33 can be upwardly contracted through a counter-thrust generated by an object on the upper top plate a33, so that the upper top plate a33 can upwardly lift the linkage plate a33, the linkage plate a33 can downwardly press the lower pressing rod a33, the lower pressing rod a33 can downwardly push the lower swing plate 33 a33 to downwardly to swing along the surface of the upper swing plate a33 and the object 33.

The lower swing plate a35 comprises an elastic sheet b1, a pressure increasing plate b2, a bottom plate b3 and a plate body b4, the elastic sheet b1 is installed between the bottom plate b3 and the pressure increasing plate b2, the pressure increasing plate b2 is hinged to the bottom plate b3, the bottom plate b3 and the plate body b4 are of an integrated structure, the number of the pressure increasing plates b2 is three, the pressure increasing plates b2 are uniformly distributed at the bottom of the bottom plate b3 in parallel, the pressure increasing plate b2 can swing upwards along the bottom plate b3 through the reverse thrust of an object on the pressure increasing plate b2, and the pressure increasing plate b2 can be pushed downwards through the elastic sheet b1 to be tightly attached to the surface of printing paper.

The detailed use method and action of the embodiment are as follows:

in the invention, because the printing paper is easy to bend during transportation, the bending part can be higher than other positions of the printing paper when the printing paper is transported on the transport table 3, so that the situation that the bending part contacts the die-cutting tool 23 in advance when the die-cutting tool 23 performs half-cut cutting on the printing paper can occur, the die-cutting tool 23 cuts off the paster on the upper layer of the bending part in advance, and then the printing paper is completely cut off when the die-cutting tool 23 continues to press downwards, the problems can be effectively solved through the inclined sliding block a3 on the die-cutting tool 23, the printing paper is placed on the transport table 3 for transport, the die-cutting tool 23 is driven to descend through the die-cutting center 2, and the printing paper on the transport table 3 generates upward reverse thrust to the inclined sliding block a3, so that the inclined sliding block a3 can slide upwards along the combination block a2 in an inclined manner, and the die-cutting tool head a4 can extend downwards to cut lumps on the printing straight paper, and the continuous pushing force generated by the printing paper diagonal slider a3 on the conveying table 3 can make the upper top plate a34 contract upwards, so that the upper top plate a34 lifts the linkage plate a32 upwards, and the linkage plate a32 can press the lower pressing rod a36 downwards, so that the lower pressing rod a36 can push the lower swinging plate a35 downwards along the upper top plate a34 until the bottom of the lower swinging plate a35 is attached to the surface of the printing paper, when the lower swinging plate a35 is attached to the printing paper on the conveying table 3, the pressure increasing plate b2 can swing upwards along the bottom plate b3 to close by the pressing of the printing paper on the conveying table 3 against the pressure increasing plate b2 on the lower swinging plate a35, and the pressure increasing plate b2 can be pushed downwards to be attached to the printing paper tightly by the matching of the elastic sheet b1, so that the diagonal slider a3 can support the printing paper at the bending position when sliding along the combination block a2, thereby effectively avoiding the half-cut paper from being cut at the time of the printing paper cutting cutter segment. The sticker on the upper layer of the bent part is easily cut off in advance, so that the situation that the printed paper is completely broken due to continuous pressing is caused.

Example 2

As shown in fig. 6-8:

the supercharging plate b2 comprises a plate surface b21, a guide frame b22, an expansion link b23 and a bottoming plate b24, the guide frame b22 is fixedly connected with the plate surface b21 in an embedded mode, the expansion link b23 is in clearance fit with the guide frame b22, the bottoming plate b24 and the plate surface b21 are of an integrated structure, the expansion links b23 are three, the expansion links b23 are uniformly distributed on the top of the inner wall of the plate surface b21 in a parallel mode through the guide frame b22, and an object generates upward reverse thrust to the expansion link b23, so that the expansion link b23 can slide and retract inwards along the guide frame b 22.

The telescopic rod b23 comprises a bearing plate c1, an extension plate c2, a movable roller c3 and a boosting sheet c4, wherein the extension plate c2 is hinged to the bearing plate c1, the movable roller c3 is fixedly embedded at the bottom of the bearing plate c1, the boosting sheet c4 is installed between the two extension plates c2, the two extension plates c2 on two sides can be pushed to be outwards spread along the bearing plate c1 through the boosting sheet c4, and therefore the extension plates c2 can push the bearing plate c1 to be outwards extended.

The movable roller c3 comprises a force bearing plate c31, a resilient sheet c32, a middle connecting plate c33 and an inner ring c34, wherein the force bearing plate c31 is hinged to the middle connecting plate c33, the resilient sheet c32 is installed between the force bearing plate c31 and the middle connecting plate c33, the middle connecting plate c33 is fixedly connected with the inner ring c34, the force bearing plate c31 is provided with six force bearing plates, the outer surfaces of the inner ring c34 uniformly matched with the middle connecting plate c33 are distributed in a circular shape, and the force bearing plate c31 can swing inwards along the middle connecting plate c33 through the counter thrust generated by an object on the force bearing plate c 31.

The detailed use method and action of the embodiment are as follows:

in the invention, when the printed paper is manufactured into a sticker, glue is easily left on the paper surface inadvertently, so that when the pressure increasing plate b2 on the lower swing plate a35 is attached to the surface of the printed paper, the printed paper is easily adhered to the bottom of the pressure increasing plate b2, the problem can be effectively solved through the telescopic rod b23 on the pressure increasing plate b2, when the printed paper on the conveying table 3 pushes the telescopic rod b23 on the pressure increasing plate b2 reversely, the telescopic rod b23 can slide and contract upwards along the guide frame b22, and the die cutting pivot 2 drives the die cutting cutter 23 to ascend, the outer expanding plate c2 can be expanded outwards through the pushing force of the two sides of the push-assisting sheet c4 on the outer expanding plate c2, so that the two outer expanding plates c2 can press the inner side of the guide frame b22, the telescopic rod b23 can be pushed downwards along the guide frame b22, and the telescopic rod b23 can push the printed paper adhered to the bottom of the pressure increasing plate b2 downwards, the situation that printing paper with glue left on the outer surface is adhered to the bottom of the pressurizing plate b2 and is difficult to separate is effectively avoided, the movable roller c3 can roll along the movement of the pressurizing plate b2 when the telescopic rod b23 contracts, and the printing paper on the conveying table 3 can extrude the stress plate c31 when rolling, so that the stress plate c31 can swing and contract inwards along the middle connecting plate c33, the elastic piece c32 can push the stress plate c31 to swing and reset outwards along the middle connecting plate c33 when the stress plate c31 leaves the printing paper surface on the conveying table 3, so that the stress plate c31 can push the printing paper adhered to the bottom of the telescopic rod b23 away, and the situation that the printing paper is adhered to the movable roller c3 when the telescopic rod b23 pushes the paper at the bottom of the pressurizing plate b2 due to the fact that the printing paper is adhered to the bottom of the telescopic rod b23 is avoided.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The utility model provides a full-automatic cross cutting machine, its structure includes organism (1), cross cutting maincenter (2), conveying platform (3), base (4), driver (5), conveying platform (3) and organism (1) activity block, base (4) weld mutually with organism (1), driver (5) and base (4) activity block, its characterized in that: the die cutting center (2) is fixedly connected with the machine body (1) in an embedded manner;

the die cutting center (2) comprises a connecting end (21), a frame body (22), a die cutting tool (23), an induction head (24), a moving end (25) and a guide rail (26), the connecting end (21) is embedded in the upper end of the frame body (22), the die cutting tool (23) is connected with the moving end (25), the top of the induction head (24) is attached to the bottom of the moving end (25), the moving end (25) is movably clamped with the frame body (22), and the guide rail (26) is installed in the inner position of the frame body (22);

the die-cutting tool (23) comprises a block body (a1), a combination block (a2), an inclined slide block (a3) and a die-cutting head (a4), wherein the combination block (a2) and the block body (a1) are of an integrated structure, the inclined slide block (a3) is movably clamped with the combination block (a2), and the die-cutting head (a4) is embedded at the bottom position of the combination block (a 2);

the inclined sliding block (a3) comprises a frame (a31), a linkage plate (a32), an elastic strip (a33), an upper top plate (a34), a lower swinging plate (a35) and a lower pressing rod (a36), one end of the linkage plate (a32) is connected with the frame (a31), the other end of the linkage plate (a32) is movably clamped with the upper top plate (a34), the upper top plate (a34) is hinged with the frame (a31) through the elastic strip (a33), the lower swinging plate (a35) is hinged with the upper top plate (a34), and the lower pressing rod (a36) is installed between the lower swinging plate (a35) and the linkage plate (a 32);

the lower swinging plate (a35) comprises an elastic sheet (b1), a pressure increasing plate (b2), a bottom plate (b3) and a plate body (b4), wherein the elastic sheet (b1) is installed between the bottom plate (b3) and the pressure increasing plate (b2), the pressure increasing plate (b2) is hinged with the bottom plate (b3), and the bottom plate (b3) and the plate body (b4) are of an integrated structure;

the supercharging plate (b2) comprises a plate surface (b21), a guide frame (b22), an expansion link (b23) and a bottoming plate (b24), wherein the guide frame (b22) is fixedly connected with the plate surface (b21), the expansion link (b23) is in clearance fit with the guide frame (b22), and the bottoming plate (b24) and the plate surface (b21) are of an integrated structure;

the telescopic rod (b23) comprises a bearing plate (c1), an extension plate (c2), a movable roller (c3) and a boosting sheet (c4), wherein the extension plate (c2) is hinged with the bearing plate (c1), the movable roller (c3) is embedded at the bottom of the bearing plate (c1), and the boosting sheet (c4) is installed between the two extension plates (c 2);

the movable roller (c3) comprises a stress plate (c31), a rebound sheet (c32), a middle connecting plate (c33) and an inner ring (c34), wherein the stress plate (c31) is hinged with the middle connecting plate (c33), the rebound sheet (c32) is installed between the stress plate (c31) and the middle connecting plate (c33), and the middle connecting plate (c33) is fixedly connected with the inner ring (c 34).