CN113858335A

CN113858335A - Printing die-cutting machine for printing production

Info

Publication number: CN113858335A
Application number: CN202111064798.2A
Authority: CN
Inventors: 肖建喜
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-09-11
Filing date: 2021-09-11
Publication date: 2021-12-31

Abstract

The invention discloses a printing die-cutting machine for printing production, which structurally comprises a die-cutting mechanism, an observation window, a controller and a fixed table, wherein the observation window is embedded and fixed on the side surface of the die-cutting mechanism, the controller is arranged on the side surface of the die-cutting mechanism, the lower end of the die-cutting mechanism is welded on the left side of the upper end of the fixed table, a paperboard slides to the surface of a friction structure from a guide structure when being placed, so that a gap between the paperboards is prevented from generating large friction, the middle part of a multilayer paperboard is blocked in the side direction under the expansion and contraction of a lifting plate, reverse acting force is performed under the bending force of a bending plate and the elastic force of an extrusion block, so that the side sliding force of the paperboard in the pressing process is uniform, the paperboard is prevented from being placed unevenly and generating deflection, the upper end of the friction plate is used for blocking the paperboard, the paperboard is prevented from moving due to unbalanced stress, the wrinkle generated by the blocking plate is prevented from being damaged by the cutting acting force, and the paper board is prevented from being rubbed and blocked on the surface of the blocking plate by the elastic force, the bottom layer paper board is prevented from sliding under uneven stress under the friction deviation of the gap.

Description

Printing die-cutting machine for printing production

Technical Field

The invention relates to the technical field of printing, in particular to a printing die-cutting machine for printing production.

Background

The die cutting machine is an important machine for processing and packaging molding, an article is cut into a certain shape by using a cutting die of the die cutting machine, and meanwhile, an indentation effect exists when the paperboard is subjected to die cutting, so that the paperboard is easy to fold, and the paperboard is folded to form a packaging box.

The cardboard carries out the extrusion when printing and cutting the membrane, fixes the cardboard, but when the cardboard thickness is thinner, can produce the clearance when multilayer superimposed cardboard cuts the membrane under the extrusion force to produce the friction offset easily under the extrusion force in the clearance of cardboard, make the cardboard produce the slope problem easily, cause the cardboard to cut the unstability of membrane process, thereby lead to every cardboard to cut the membrane position different.

Disclosure of Invention

The invention is realized by the following technical scheme: the utility model provides a printing cross cutting machine for printing production, its structure includes cross cutting mechanism, observation window, controller, fixed station, the observation window inlays admittedly in cross cutting mechanism side, the controller is installed in cross cutting mechanism side, the welding of cross cutting mechanism lower extreme is in fixed station upper end left side, cross cutting mechanism is equipped with cross cutting machine, expansion bend, placement mechanism, fixed plate, cross cutting machine upper end inlays admittedly at fixed plate upper end inboard, the expansion bend upper end is installed in fixed plate upper end inboard, placement mechanism lower extreme welding is inboard in the fixed plate bottom, the welding of fixed plate lower extreme is in fixed station upper end left side, translation about the cross cutting machine upper end can carry out, the expansion bend is equipped with two, and carries out synchronous motion, has the balanced effect of reinforcing atress.

As a further improvement of the invention, the placing mechanism is provided with a friction structure, a spring rod, a guide structure and a stress plate, the lower end of the friction structure is embedded and fixed at the upper end of the spring rod, the lower end of the guide structure is arranged at the left end and the right end of the surface of the friction structure, the lower end of the spring rod is welded at the upper end of the stress plate, the lower end of the stress plate is welded at the inner side of the bottom end of the fixed plate, and the spring rod is a spring rod with the same elastic coefficient.

As a further improvement of the invention, the guide structure is provided with a stretching plate, a blocking structure, a telescopic rod and a lifting plate, the left end of the stretching plate is attached to the right side of the blocking structure, the right end of the telescopic rod is embedded and fixed on the left side of the lower end of the lifting plate, the right side of the lower end of the blocking structure is installed at the left end of the telescopic rod, the right side of the stretching plate is attached to the left side of the lifting plate, the lower end of the lifting plate is installed at the left end and the right end of the surface of the friction structure, the stretching plate is made of rubber and has the characteristic of easy deformation, and the interior of the lifting plate is of a telescopic structure.

As a further improvement of the invention, the blocking structure is provided with a bending plate, a rubber plate, a supporting plate and an extrusion block, the bending plate is embedded and fixed on the left side of the extrusion block, the side surface of the left end of the bending plate is in clearance fit with the inner side of the rubber plate, the extrusion block is attached to the inner side surface of the supporting plate, the rubber plate is arranged on the side surface of the supporting plate, the right side of the lower end of the supporting plate is arranged at the left end of the telescopic rod, the telescopic bending plate is made of aluminum alloy and has the characteristics of strong toughness and easy bending, and the telescopic extrusion block is made of rubber and has the characteristic of easy compression.

As a further improvement of the invention, the friction structure is provided with a clearance groove, a pressing structure, an elastic plate and a connecting plate, the lower end of the elastic plate is attached to the upper end of the connecting plate, the clearance groove is positioned on the surface of the upper end of the elastic plate, the lower end of the pressing structure is arranged in the upper end of the elastic plate, the lower end of the connecting plate is embedded and fixed at the upper end of the spring rod, the clearance groove is of a semicircular structure, and the elastic plate is made of plastic materials and has the characteristics of strong toughness and easiness in compression.

The invention is further improved in that the pressing structure is provided with a friction plate, a stress structure, a deformation plate and a force bearing plate, the lower end of the friction plate is attached to the upper end of the deformation plate, the lower end of the stress structure is embedded and fixed on the left side and the right side of the upper end of the deformation plate, the lower end of the deformation plate is clamped and connected with the upper end of the force bearing plate, the lower end of the force bearing plate is arranged inside the upper end of the elastic plate, the friction plate is made of sponge and has the characteristic of large friction force, the deformation plate is made of rubber and has the characteristic of easy compression deformation, and the left side and the right side of the force bearing plate are in a hollow state.

As a further improvement of the invention, the stress structure is provided with an arc-shaped plate, a barrier plate, connecting grooves and stress blocks, wherein the connecting grooves are positioned in the barrier plate, the left side and the right side of the lower end of the barrier plate are embedded and fixed at the upper end of the stress block, the arc-shaped plate is arranged on the inner side of the barrier plate, the lower end of the stress block is embedded and fixed at the left side and the right side of the upper end of the deformation plate, the barrier plate is made of rubber and has the characteristic of easy deformation, and the arc-shaped plate is made of aluminum alloy and has the characteristics of strong toughness and easy bending.

Advantageous effects

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

1. the cardboard is from sliding to the friction structure surface on the guide structure when placing, avoid the clearance between the cardboard to produce great friction, the cardboard stops under the elasticity that blocks structure lower extreme right side telescopic link when producing the skew simultaneously, the intermediate part to the multilayer cardboard carries out the blockking of side direction under the flexible of lifter plate, then the elasticity through the extension plate makes the structure lower extreme that blocks carry out slight rotation, carry out reverse effort under the bending force of bent plate and the elasticity of stripper block, it is even to make the cardboard press the in-process side sliding force, avoid the cardboard to place the unevenness and produce the skew.

2. The telescopic device presses the frictional force of the bottom layer of cardboard reinforcing under the elasticity of elastic plate in-process, make the left and right both ends of deformation board sink under the support of middle in the bearing plate, thereby friction plate upper end rubs the cardboard and stops, avoid the cardboard atress unbalance and remove, and the bottom cardboard extrudees downwards through the clearance of spread groove when pressing the barrier plate, avoid the barrier plate to produce the fold and is destroyed by cutting effort, make elasticity make the cardboard rub and stop on the barrier plate surface, prevent that the bottom cardboard atress is uneven and slide under the friction skew in clearance.

Drawings

FIG. 1 is a schematic structural diagram of a printing die-cutting machine for printing production according to the present invention.

FIG. 2 is a schematic side view of the internal structure of a die-cutting mechanism according to the present invention.

Fig. 3 is a schematic side view of a placement mechanism according to the present invention.

Fig. 4 is a schematic side view of a guiding structure according to the present invention.

Fig. 5 is a schematic view of a partial h-enlargement structure of a barrier structure according to the present invention.

FIG. 6 is a partial enlarged structural view of a friction structure according to the present invention.

Fig. 7 is a schematic side view of a pressing structure according to the present invention.

FIG. 8 is a schematic side view of a force-bearing structure according to the present invention.

In the figure: a die cutting mechanism-1, an observation window-2, a controller-3, a fixed station-4, a die cutting machine-11, a telescopic device-12, a placing mechanism-13, a fixed plate-14, a friction structure-131, a spring rod-132, a guide structure-133, a stress plate-134, a stretching plate-a 1, a blocking structure-a 2, a telescopic rod-a 3 and a lifting plate-a 4, the device comprises a bending plate-a 21, a rubber plate-a 22, a supporting plate-a 23, an extrusion block-a 24, a clearance groove-w 1, a pressing structure-w 2, an elastic plate-w 3, a connecting plate-w 4, a friction plate-w 21, a stress structure-w 22, a deformation plate-w 23, a force bearing plate-w 24, an arc plate-e 1, a blocking plate-e 2, a connecting groove-e 3 and a stress block-e 4.

Detailed Description

The technology of the present invention is further described with reference to the accompanying drawings:

example 1:

as shown in fig. 1-5:

the invention relates to a printing die-cutting machine for printing production, which structurally comprises a die-cutting mechanism 1, an observation window 2, a controller 3 and a fixed table 4, wherein the observation window 2 is embedded and fixed on the side surface of the die-cutting mechanism 1, the controller 3 is installed on the side surface of the die-cutting mechanism 1, the lower end of the die-cutting mechanism 1 is welded on the left side of the upper end of the fixed table 4, the die-cutting mechanism 1 is provided with a die-cutting machine 11, an expansion piece 12, a placing mechanism 13 and a fixed plate 14, the upper end of the die-cutting machine 11 is embedded and fixed on the inner side of the upper end of the fixed plate 14, the upper end of the expansion piece 12 is installed on the inner side of the upper end of the fixed plate 14, the lower end of the placing mechanism 13 is welded on the inner side of the bottom end of the fixed plate 14, the lower end of the fixed plate 14 is welded on the left side of the upper end of the fixed table 4, the upper end of the die-cutting machine 11 can carry out left-right translation, the expansion pieces 12 are provided with two expansion pieces and carry out synchronous movement, and have the effect of enhancing stress balance, the controller 3 thus controls the retractor 12 to press the paper sheet at the upper end of the placing mechanism 13, and then cuts the shape of the paper sheet by moving the cutter 11.

As a further improvement of the present invention, the placing mechanism 13 is provided with a friction structure 131, a spring rod 132, a guiding structure 133, and a force-bearing plate 134, the lower end of the friction structure 131 is embedded in the upper end of the spring rod 132, the lower end of the guiding structure 133 is installed at the left and right ends of the surface of the friction structure 131, the lower end of the spring rod 132 is welded at the upper end of the force-bearing plate 134, the lower end of the force-bearing plate 134 is welded at the inner side of the bottom end of the fixing plate 14, the spring rod 132 is a spring rod with the same elastic coefficient, the paper plates slide onto the surface of the friction structure 131 on the guiding structure 133, and the friction structure 131 presses the spring rod 132 under the extrusion force, so that the gaps between the paper plates can be slowly attached, and the gaps between the paper plates can be prevented from generating large friction.

The guide structure 133 is provided with a stretching plate a1, a blocking structure a2, a telescopic rod a3 and a lifting plate a4, the left end of the stretching plate a1 is attached to the right side of the blocking structure a2, the right end of the telescopic rod a3 is embedded in the left side of the lower end of the lifting plate a4, the right end of the lower end of the blocking structure a2 is mounted at the left end of the telescopic rod a3, the right side of the stretching plate a1 is attached to the left side of the lifting plate a4, the lower end of the lifting plate a4 is mounted at the left end and the right end of the surface of the friction structure 131, the stretching plate a1 is made of rubber and has the characteristic of easy deformation, and the lifting plate a4 is of a telescopic structure, so that the telescopic rod blocks the lower end of the right side a3 of the blocking structure a2 when the telescopic rod generates deviation, and the lower end of the blocking structure a2 slightly rotates through the elasticity of the stretching plate a1, and the inclined deviation of the paperboard is blocked.

The blocking structure a2 is provided with a bending plate a21, a rubber plate a22, a supporting plate a23 and an extrusion block a24, the bending plate a21 is embedded and fixed on the left side of the extrusion block a24, the left end side face of the bending plate a21 is in clearance fit with the inner side of the rubber plate a22, the extrusion block a24 is attached to the inner side face of the supporting plate a23, the rubber plate a22 is mounted on the side face of the supporting plate a23, the right side of the lower end of the supporting plate a23 is mounted at the left end of an expansion link a3, the telescopic bending plate a21 is made of aluminum alloy and has the characteristics of strong toughness and easy bending, the telescopic extrusion block a24 is made of rubber and easy to compress, the side face of the paper plate presses the rubber plate a22, reverse acting force is performed under the bending force of the bending plate a21 and the elastic force of the extrusion block a24, so that the side face sliding force of the paper plate is uniform in the pressing process, and the paper plate is prevented from being placed unevenly and offset.

The embodiment has the following specific use modes and functions:

in the invention, the controller 3 controls the telescopic device 12 to press the paper board at the upper end of the placing mechanism 13, then the paper board is moved by the die cutter 11 to cut the shape of the paper board, the paper board slides to the surface of the friction structure 131 from the guide structure 133 when placed, the friction structure 131 presses the spring rod 132 under the extrusion force, so that the gap between the paper boards can be slowly attached, the gap between the paper boards is prevented from generating large friction, the paper board is blocked under the elastic force of the telescopic rod a3 at the right side of the lower end of the blocking structure a2 when the paper board is deflected, the middle part of the multilayer paper board is blocked in the side direction under the expansion and contraction of the lifting plate a4, then the lower end of the blocking structure a2 is slightly rotated by the elastic force of the stretching plate a1, the oblique deflection of the paper board is blocked, then the paper board side is pressed against the rubber plate a22, the bending force of the bending plate a21 is opposite to the elastic force of the pressing block a24, the side sliding force of the paper board is uniform in the pressing process, and the paper board is prevented from being placed unevenly to cause deviation.

Example 2:

as shown in fig. 6-8:

wherein, friction structure 131 is equipped with clearance groove w1, presses structure w2, elastic plate w3, connecting plate w4, the laminating of elastic plate w3 lower extreme is in connecting plate w4 upper end, clearance groove w1 is located elastic plate w3 upper end surface, press structure w2 lower extreme and install inside elastic plate w3 upper end, connecting plate w4 lower extreme inlays admittedly in spring beam 132 upper end, clearance groove w1 is semi-circular structure, elastic plate w3 is the plastic material, has the characteristic that toughness is strong easily compressed to the cardboard strengthens the frictional force of bottommost under elastic plate w 3's elasticity in the pressing process, and the bottommost cardboard extrudees pressing structure w2 simultaneously, avoids the cardboard atress unbalance and removes when reinforcing cardboard frictional force.

The pressing structure w2 is provided with a friction plate w21, a stressed structure w22, a deformation plate w23 and a bearing plate w24, the lower end of the friction plate w21 is attached to the upper end of the deformation plate w23, the lower end of the stressed structure w22 is fixedly embedded in the left side and the right side of the upper end of the deformation plate w23, the lower end of the deformation plate w23 is clamped at the upper end of the bearing plate w24, the lower end of the bearing plate w24 is installed in the upper end of the elastic plate w3, the friction plate w21 is made of sponge and has a large friction force, the deformation plate w23 is made of rubber and has a characteristic of easy compression deformation, and the left side and the right side of the bearing plate w24 are in a hollow state, so that the paperboard is stressed on the stressed structure w22, the left end and the right end of the deformation plate 23 are supported by the bearing plate w24 in the middle, and the upper end of the friction plate 21 blocks the paperboard.

Wherein the stress structure w22 is provided with an arc plate e1, a blocking plate e2, a connecting groove e3 and a stress block e4, the connecting groove e3 is positioned inside the blocking plate e2, the left and right sides of the lower end of the blocking plate e2 are embedded and fixed at the upper end of the stress block e4, the arc-shaped plate e1 is arranged at the inner side of the stop plate e2, the lower end of the stress block e4 is embedded and fixed at the left and right sides of the upper end of the deformation plate w23, the barrier plate e2 is made of rubber e2 and has the characteristic of easy deformation, the arc plate e1 is made of aluminum alloy and has the characteristics of strong toughness and easy bending, so that the bottom layer paperboard is downwards extruded through the gap of the connecting groove e3 when the bottom layer paperboard presses the blocking plate e2, the wrinkles generated by the blocking plate e2 are prevented from being damaged by cutting force, meanwhile, the arc-shaped plate e1 generates elastic force after being squeezed by the blocking plate e2, so that the paper plate is frictionally blocked on the surface of the blocking plate e2 by the elastic force, and the bottom layer paper plate is prevented from sliding due to uneven stress under the frictional deviation of the gap.

The embodiment has the following specific use modes and functions:

according to the invention, in the pressing process of the expansion piece 12, the friction force of the bottommost layer is enhanced by the paper board under the elastic force of the elastic board w3, and meanwhile, the pressing structure w2 is extruded by the bottommost layer paper board, so that the paper board is stressed on the stressed structure w22, the left end and the right end of the deformation board w23 are supported by the bearing board w24 in the middle and sink, so that the upper end of the friction board w21 is subjected to friction blocking on the paper board, the movement of the paper board due to unbalanced stress is avoided, the bottom layer paper board is pressed on the blocking board e2 and is downwards extruded through the gap of the connecting groove e3, the phenomenon that wrinkles generated by the blocking board e2 are damaged by a cutting action force is avoided, meanwhile, the arc-shaped board e1 is extruded by the blocking board e2 to generate elastic force, so that the paper board is subjected to friction blocking on the surface of the blocking board e2 due to the elastic force, and the sliding of the bottom layer paper board under the uneven friction deviation of the gap is prevented.

The technical scheme of the invention is utilized, or a similar technical scheme is designed by a person skilled in the art based on the inspiration of the technical scheme of the invention, so that the technical effects are achieved, and the technical scheme and the method fall into the protection scope of the invention.

Claims

1. The utility model provides a printing cross cutting machine for printing production, its structure includes die-cutting mechanism (1), observation window (2), controller (3), fixed station (4), observation window (2) are inlayed and are fixed in die-cutting mechanism (1) side, install in die-cutting mechanism (1) side controller (3), the welding of die-cutting mechanism (1) lower extreme is in fixed station (4) upper end left side, its characterized in that:

die-cutting mechanism (1) is equipped with cross cutting machine (11), expansion bend (12), placement mechanism (13), fixed plate (14), cross cutting machine (11) upper end is inlayed admittedly at fixed plate (14) upper end inboard, install in fixed plate (14) upper end inboard on expansion bend (12), placement mechanism (13) lower extreme welding is inboard in fixed plate (14) bottom, fixed plate (14) lower extreme welding is in fixed station (4) upper end left side.

2. A printing die cutter for printing production according to claim 1, characterized in that: place mechanism (13) and be equipped with friction structure (131), spring beam (132), guide structure (133), atress board (134), friction structure (131) lower extreme inlays admittedly in spring beam (132) upper end, both ends about friction structure (131) surface are installed to guide structure (133) lower extreme, spring beam (132) lower extreme welding is in atress board (134) upper end, atress board (134) lower extreme welding is inboard in fixed plate (14) bottom.

3. A printing die cutter for printing production according to claim 2, characterized in that: guide structure (133) are equipped with tensile board (a1), block structure (a2), telescopic link (a3), lifter plate (a4), the laminating of tensile board (a1) left end is on blockking structure (a2) right side, telescopic link (a3) right end is inlayed and is fixed in lifter plate (a4) lower extreme left side, block structure (a2) lower extreme right side and install in telescopic link (a3) left end, the laminating of tensile board (a1) right side is on lifter plate (a4) left side, both ends about friction structure (131) surface are installed to lifter plate (a4) lower extreme.

4. A printing die cutter for printing production according to claim 3, wherein: the blocking structure (a2) is provided with a bent plate (a21), a rubber plate (a22), a supporting plate (a23) and an extrusion block (a24), the bent plate (a21) is embedded and fixed on the left side of the extrusion block (a24), the left end side face of the bent plate (a21) is in clearance fit with the inner side of the rubber plate (a22), the extrusion block (a24) is attached to the inner side face of the supporting plate (a23), the rubber plate (a22) is installed on the side face of the supporting plate (a23), and the lower end right side of the supporting plate (a23) is installed at the left end of an expansion rod (a 3).

5. A printing die cutter for printing production according to claim 2, characterized in that: friction structure (131) are equipped with clearance groove (w1), press structure (w2), elastic plate (w3), connecting plate (w4), the laminating of elastic plate (w3) lower extreme is in connecting plate (w4) upper end, clearance groove (w1) are located elastic plate (w3) upper end surface, press structure (w2) lower extreme and install in elastic plate (w3) upper end inside, connecting plate (w4) lower extreme is inlayed and is fixed in spring beam (132) upper end.

6. A printing die-cutting machine for printing production according to claim 5, characterized in that: press structure (w2) and be equipped with friction plate (w21), atress structure (w22), deformation board (w23), force-bearing plate (w24), the laminating of friction plate (w21) lower extreme is in deformation board (w23) upper end, atress structure (w22) lower extreme inlays and fixes in deformation board (w23) upper end left and right sides, deformation board (w23) lower extreme block is in force-bearing plate (w24) upper end, force-bearing plate (w24) lower extreme is installed in inside elastic plate (w3) upper end.

7. A printing die-cutting machine for printing production according to claim 6, characterized in that: atress structure (w22) is equipped with arc (e1), baffle (e2), connecting groove (e3), atress piece (e4), connecting groove (e3) is located baffle (e2) inside, baffle (e2) lower extreme left and right sides is inlayed and is fixed in atress piece (e4) upper end, arc (e1) are installed in baffle (e2) inboard, atress piece (e4) lower extreme is inlayed and is fixed in deformation board (w23) upper end left and right sides.