CN108556056B

CN108556056B - Automatic magnetic roller die-cutting machine

Info

Publication number: CN108556056B
Application number: CN201810654791.8A
Authority: CN
Inventors: 张占平; ***; 裴明辉; 张智勇; 王爱云
Original assignee: Shenzhen Hadesheng Precision Technology Inc ltd
Current assignee: Shenzhen Hadesheng Precision Technology Inc ltd
Priority date: 2018-06-22
Filing date: 2018-06-22
Publication date: 2024-03-29
Anticipated expiration: 2038-06-22
Also published as: WO2019242281A1; CN108556056A

Abstract

The invention provides an automatic magnetic roller die-cutting machine which can connect printing equipment while completing the process requirements of complex products, thereby more effectively reducing labor cost. The invention discloses a technical scheme of an automatic magnetic roller die-cutting machine, which comprises the following steps: the printer, the conveyor belt, the paper feeding mechanism, the deviation correcting mechanism, the die cutting station I, the deviation correcting and small hole waste discharging mechanism, the die cutting station II, the waste discharging mechanism and the product collecting mechanism are sequentially arranged along the moving direction. The automatic magnetic roller die-cutting machine is a double die-cutting station, and can perform two sets of cutter position die-cutting on a complex process; the conveyor belt can be connected with a standard printer to complete the working modes of printing, die cutting, waste discharge and product collection.

Description

Automatic magnetic roller die-cutting machine

Technical Field

The invention relates to the field of die cutting equipment, in particular to an automatic magnetic roller die cutting machine.

Background

The die cutting machine is mainly used for die cutting (full-cut, half-cut), indentation and automatic waste discharge of corresponding non-metal materials, self-adhesive, EVA, double-sided adhesive, electronic and mobile phone rubber mats and the like.

The die cutting machine comprises an upper circular shaft and a lower circular shaft, the full-breaking and half-breaking functions are realized by adjusting the distance between the two shafts, and the using functions of different cutter blades can be realized by adjusting the distance between the two shafts. The upper circular shaft can be in the form of an integral engraving cutter or comprises a magnetic cutter roller and a cutter skin adsorbed on the outer surface of the magnetic cutter roller; the lower circular shaft can be in the form of an integral optical axis or comprises a magnetic roller and a cutter skin adsorbed on the outer surface of the magnetic roller, and different process functions are realized by changing the circular shaft.

The die cutting machine is applied to products needing die cutting after printing, the existing die cutting equipment is used for single-station die cutting, the die cutting process and the waste discharging effect of complex products cannot be finished, and the die cutting machine cannot directly work in a connecting mode with a printer.

Disclosure of Invention

The invention provides an automatic magnetic roller die-cutting machine which can connect printing equipment while completing the process requirements of complex products, thereby more effectively reducing labor cost.

The invention discloses a technical scheme of an automatic magnetic roller die-cutting machine, which comprises the following steps:

the printer, the conveyor belt, the paper feeding mechanism, the deviation correcting mechanism, the die cutting station I, the deviation correcting and small hole waste discharging mechanism, the die cutting station II, the waste discharging mechanism and the product collecting mechanism are sequentially arranged along the moving direction.

Preferably, in the technical scheme of the automatic magnetic roller die-cutting machine,

the conveyor belt is positioned at the outlet of the printer, and the conveyor belt and the paper feeding mechanism are arranged in a vertically staggered mode.

the deviation correcting mechanism comprises an inclined conveyor belt and a material blocking plate, wherein the material blocking plate is located on one side of the inclined conveyor belt, and the inclined conveyor belt is inclined towards the direction close to the material blocking plate along the movement direction.

the first die cutting station and the second die cutting station comprise an upper die cutting magnetic roller and a lower die cutting magnetic roller, the upper die cutting magnetic roller is provided with an RFID reader, the outer circular surface of the upper die cutting magnetic roller is wrapped with a magnetic knife skin, and the magnetic knife skin is provided with an RFID chip.

the deviation rectifying and small-hole waste discharging mechanism comprises a small-hole waste discharging assembly, the small-hole waste discharging assembly is located on one side, close to the die-cutting station II, of the small-hole waste discharging assembly, the small-hole waste discharging assembly comprises a plurality of movably arranged air blowing pipes, and the air blowing pipes are connected with an external air source.

the waste discharging mechanism comprises a primary conveying belt, a waste discharging assembly and a secondary conveying belt, and the waste discharging assembly is located between the primary conveying belt and the secondary conveying belt.

the waste discharging assembly comprises a sliding rail, and a fixed waste discharging piece and a cylinder waste discharging piece which are slidably arranged on the sliding rail.

the primary conveyor belt and the secondary conveyor belt are respectively provided with through holes, and vacuum boxes are respectively arranged below the primary conveyor belt and the secondary conveyor belt.

the product collecting mechanism comprises a product collecting table and a plurality of product collecting positioning plates arranged on the product collecting table, and the product collecting table is inclined downwards.

and the spacing between a plurality of product collecting and positioning plates is adjustable.

The beneficial effects of adopting above-mentioned technical scheme are:

the automatic magnetic roller die-cutting machine is a double die-cutting station, and can perform two sets of cutter position die-cutting on a complex process; the conveyor belt can be connected with a standard printer to complete the working modes of printing, die cutting, waste discharge and product collection. After the second die cutting station and the deviation correcting and small hole waste discharging mechanism are removed, the device is a single-station automatic magnetic roller die cutting machine, and simpler process work can be completed.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present invention, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

FIG. 1 is a block diagram of an automatic magnetic roller die-cutting machine according to the present invention;

fig. 2 (a), 2 (b) and 2 (c) are a structure view, a top view and a front view of a waste discharging mechanism and a product collecting mechanism of an automatic magnetic roller die-cutting machine;

fig. 3 (a), 3 (b) and 3 (c) are front, top and structural views of a primary conveyor belt of the waste discharging mechanism;

fig. 4 (a), 4 (b) and 4 (c) are a structure view, a plan view and a front view of a waste discharging assembly in the waste discharging mechanism;

fig. 4 (d), 4 (e) and 4 (f) are block diagrams of the slide rail, the fixed waste discharging member and the cylinder waste discharging member in the waste discharging assembly;

FIG. 4 (g) is a schematic diagram of the operation of the waste assembly;

FIG. 5 is a block diagram of a product collection mechanism of an automatic magnetic roll die cutter;

fig. 6 is a block diagram of an upper die-cutting magnetic roller of the automatic magnetic roller die-cutting machine.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

(1) Printer 1

The printer 1 completes online printing according to the requirements of a user and enters a full-automatic process flow of subsequent die cutting and product collection.

In the present embodiment, the remaining devices are determined according to model parameters of the printer 1.

(2) Conveyor belt 2

The conveyor belt 2 is located at the exit of the printer 1, and the semifinished product printed by the printer 1 is moved in a direction approaching the paper feed mechanism 3 by the movement of the conveyor belt 2.

The conveyor belt 2 is driven by a main power shaft, the main power shaft is powered by an external power source such as a motor, the motor drives the main power shaft to rotate, the main power shaft drives the conveyor belt 2 to move, and the conveyor belt 2 drives the semi-finished product to move towards the paper feeding mechanism 3.

In order to ensure that the semi-finished product is firmly adsorbed on the conveyor belt 2, a through hole is formed in the conveyor belt 2, a vacuum box is arranged on the lower surface of the conveyor belt 2, an air inlet of the vacuum box corresponds to any through hole in the conveyor belt 2, and an air extraction opening of the vacuum box is used for being connected with a compressor. When the vacuum box is in a negative pressure state in operation, air needs to enter the vacuum box through the through holes corresponding to the air inlets, and the semi-finished product covers the through holes of the conveyor belt 2, so that the semi-finished product is adsorbed on the conveyor belt 2 and moves forwards.

(3) Paper feeding mechanism 3

The paper feeding mechanism 3 is located above the conveyor belt 2 and extends in a direction approaching the deviation correcting mechanism 4, and is used for adsorbing the semi-finished product located on the conveyor belt 2 below the paper feeding mechanism 3 and continuing to move forward. It will be appreciated that the paper feed mechanism 3 and the conveyor belt 2 are disposed in a staggered manner.

The paper feed mechanism 3 includes a paper feed conveyor belt having the same structure as the conveyor belt 2 mentioned in the above-mentioned serial number (2), and adsorbs the semifinished product. The semi-finished product is located above the conveyor belt 2 during the running process on the conveyor belt 2, and the semi-finished product is located below the paper feed conveyor belt during the running process on the paper feed mechanism 3.

(3) Deviation rectifying mechanism 4

The deviation correcting mechanism 4 is located at the tail end of the paper feeding mechanism 3, and specifically comprises an inclined conveyor belt and a material baffle plate, wherein the material baffle plate is located on one side of the inclined conveyor belt, and the inclined conveyor belt is inclined towards a direction close to the material baffle plate along the conveying direction of the semi-finished product.

In addition, a plurality of balls are arranged above the inclined conveyor belt, and the semi-finished product is located between the balls and the inclined conveyor belt and moves along the direction close to the striker plate, so that the semi-finished product is gradually leveled with the striker plate, and is matched with the die cutting station I5 for alignment die cutting.

(4) Traction mechanism

The traction mechanism comprises a traction power roller and a traction follow-up roller, and the semi-finished product is positioned between the traction power roller and the traction follow-up roller and is conveyed to a first die cutting station 5.

(5) Die cutting station one 5

The die cutting station I5 comprises an upper die cutting magnetic roller 23 and a lower die cutting magnetic roller, wherein the outer circular surface of the upper die cutting magnetic roller 23 is wrapped with a magnetic knife skin and is adsorbed and fixed by a magnet. The magnetic knife skin is provided with a punching mechanism for die-cutting small holes of semi-finished products.

The upper die-cutting magnetic roller 23 is provided with an RFID reader-writer, two ends of the upper die-cutting magnetic roller are provided with sliding blocks 25, the RFID reader-writer is arranged in the resin insulation block 24, the magnetic knife skin is provided with an RFID chip, and the RFID reader-writer reads the chip information and transmits the information to the control mechanism.

And the upper die-cutting magnetic roller and the lower die-cutting magnetic roller of the die-cutting station I5 are used for die-cutting the semi-finished product. The thickness of the magnetic knife skin determines the die cutting depth.

(6) Deviation correcting and small hole waste discharging mechanism 6

The deviation rectifying and small hole waste discharging mechanism 6 is positioned at the tail end of the first die cutting station 5, the structure is basically the same as that of the deviation rectifying mechanism of the serial number (3), the deviation rectifying and small hole waste discharging mechanism further comprises a small hole waste discharging assembly, the small hole waste discharging assembly is positioned at one side close to the second die cutting station 7, the small hole waste discharging assembly comprises a plurality of movably arranged air blowing pipes, the air blowing pipes are connected with an external air source, the air outlets of the air blowing pipes are aligned with die cutting materials, waste materials in small holes of the die cutting materials are discharged, and the die cutting materials enter the next working procedure.

(7) Die cutting station II 7

The structure of the die-cutting station II 7 is the same as that of the die-cutting station I5, a contour die-cutting mechanism is arranged on the magnetic knife skin of the die-cutting station II 7 and is used for die-cutting the frame, and the frame waste after die-cutting is discharged to a waste discharging mechanism.

(8) Waste discharging mechanism 8

The waste discharging mechanism 8 includes a primary conveyor belt 10, a waste discharging assembly 11, and a secondary conveyor belt 12, the waste discharging assembly 11 being located between the primary conveyor belt 10 and the secondary conveyor belt 12. After the primary conveyor belt 10 receives the products die-cut by the die-cutting station II 7, the products are accelerated and conveyed to the secondary conveyor belt 12, the waste discharging assembly 11 is used in the gap between the primary conveyor belt 10 and the secondary conveyor belt 12 to discharge the waste into a waste box, and the secondary conveyor belt 12 receives the products after waste discharge and accelerated and conveyed to the product collecting mechanism 9.

The primary conveyor 10 is structurally and functionally identical to the secondary conveyor 12 and has a different speed. Taking the primary conveyor belt 10 as an example, the primary conveyor belt 10 is arranged on two conveying support shafts 13 which are arranged in front of and behind each other, a main power shaft 14 which is driven to rotate by a motor is arranged between the two conveying support shafts 13, the main power shaft 14 and the primary conveyor belt 10 synchronously rotate, and the conveying support shafts 13 enable the primary conveyor belt 10 to smoothly rotate.

Similarly, the primary conveyor 10 is also operated forward by vacuum suction. The primary conveyor belt 10 is provided with a through hole 15, the lower surface of the primary conveyor belt 10 is provided with a vacuum box 16, an air inlet of the vacuum box 16 corresponds to any through hole on the primary conveyor belt 10, and an air extraction opening of the vacuum box is used for being connected with a compressor. A pressing shaft and a conveyor are arranged above the primary conveyor belt 10, and the pressing shaft has the function of enabling die-cut products to be smoothly conveyed to a waste discharge assembly through the conveyor belt; the function of the conveyor is to read the product position so that a feedback signal is sent to the cylinder waste to effect a waste discharge. A pressing shaft is arranged above the secondary conveyor belt 12, so that products can be smoothly conveyed to the product collecting mechanism 9 through the conveyor belt.

The waste discharging assembly 11 includes a slide rail 17 and a fixed waste discharging member 18 and a cylinder waste discharging member 19 slidably mounted on the slide rail 17, and the number of the fixed waste discharging members 18 may be set to be plural as required. The slide rail 17 includes two protrusions extending along the length direction and arranged up and down, the fixed waste discharging piece 18 is provided with a sliding bearing sleeve 181 corresponding to the protrusions, after the position is determined, the fixed waste discharging piece 18 is locked by a locking hand wheel 182, and the fixed waste discharging piece 18 is provided with a waste discharging piece 183. The cylinder waste discharging piece 19 is provided with a first sliding bearing sleeve 191 corresponding to the bulge, after the position is determined, the cylinder waste discharging piece 19 is locked by a first locking hand wheel 192, and the cylinder waste discharging piece 19 is also provided with a cylinder 193 and a material beating rod 194 connected with the cylinder 93.

The slide rail 17 is also provided with a scale plate 171, at the beginning of actual work, the position of the waste discharging piece 18 is determined and adjusted according to the size of the die-cutting material and the position of the frame waste, and the position of the cylinder waste discharging piece 19 is determined according to the position of the maximum width of the special-shaped frame, so that the frame waste 20 can be accurately and effectively separated from the product material, the continuity of overall work is ensured, and the work efficiency is improved.

The cylinder row waste 19 is a telescopic movable piece and is connected with an external compressed air source, when the material after actual die cutting is special-shaped, the shape of a frame is irregular, and when the frame waste is pressed down by the pressure of the side, the frame waste 20 can be quickly and completely fallen off by controlling the pressing force of the middle special-shaped waste applied instantly, so that the normal working operation of equipment is ensured, and the working efficiency is improved.

(9) Product collection mechanism 9

The product collecting mechanism 9 is located at the end of the secondary conveyor 12 and comprises a product receiving table 21, and the product receiving table 21 is arranged obliquely downwards. The secondary conveyor 12 conveys the waste products to a product receiving station 21, which product receiving station 21 can be used to collect the whole product without waste after die cutting.

When it is desired to collect die-cut individual products, a plurality of receiving boxes may be provided on the receiving station 21. The receiving box is composed of two adjacent product collecting and positioning plates 22, and the spacing between the product collecting and positioning plates 22 is adjustable. The receiving box can collect the single-piece products after die cutting, thereby realizing the collection function of products with different sizes.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims

1. An automatic magnetic roller die-cutting machine is characterized by comprising a printer, a conveyor belt, a paper feeding mechanism, a deviation correcting mechanism, a die-cutting station I, a deviation correcting and small hole waste discharging mechanism, a die-cutting station II, a waste discharging mechanism and a product collecting mechanism which are sequentially arranged along the moving direction;

the deviation correcting mechanism comprises an inclined conveyor belt and a baffle plate, the baffle plate is positioned on one side of the inclined conveyor belt, the inclined conveyor belt is inclined towards the direction close to the baffle plate along the movement direction, and a plurality of balls are arranged above the inclined conveyor belt;

the die cutting station I and the die cutting station II comprise an upper die cutting magnetic roller and a lower die cutting magnetic roller, and the outer circular surface of the upper die cutting magnetic roller is coated with a magnetic cutter skin;

a punching mechanism is arranged on the magnetic blade of the first die cutting station and is used for die cutting small holes;

the magnetic blade of the first die cutting station is provided with a contour punching mechanism which is used for die cutting the frame;

the waste discharge mechanism comprises a primary conveyor belt, a waste discharge assembly and a secondary conveyor belt, wherein the waste discharge assembly is positioned between the primary conveyor belt and the secondary conveyor belt, and the speed of the primary conveyor belt is different from the speed of the secondary conveyor belt;

2. The automatic magnetic roller die-cutting machine according to claim 1, wherein the conveyor belt is positioned at the outlet of the printer, and the conveyor belt and the paper feeding mechanism are arranged in a vertically staggered manner.

3. The automatic magnetic roller die-cutting machine according to claim 1, wherein the upper die-cutting magnetic roller is provided with an RFID reader-writer, and the magnetic knife skin is provided with an RFID chip.

4. The automatic magnetic roller die cutting machine of claim 1 wherein the waste discharge assembly comprises a slide rail and a fixed waste discharge and a cylinder waste discharge slidably mounted on the slide rail.

5. The automatic magnetic roller die-cutting machine according to claim 1, wherein the primary conveyor belt and the secondary conveyor belt are respectively provided with through holes, and vacuum boxes are respectively arranged below the through holes.

6. The automatic magnetic roller die cutter of claim 1, wherein the product collection mechanism comprises a product collection table and a plurality of product collection boxes disposed thereon, the product collection table being downwardly sloped.

7. The automatic magnetic roller die-cutting machine according to claim 6, wherein a plurality of product collecting and positioning plates are arranged on the product collecting table, each two adjacent product collecting and positioning plates form a collecting box, and the distance between the plurality of product collecting and positioning plates is adjustable.