CN204504524U

CN204504524U - Numeral control laser die cutter

Info

Publication number: CN204504524U
Application number: CN201520061568.4U
Authority: CN
Inventors: 布松涛; 李永华; 马继东; 朱玉波; 姚志强; 肖宗洪
Original assignee: Chuxiong Jixing Color Printing Co Ltd
Current assignee: Chuxiong Jixing Color Printing Co Ltd
Priority date: 2015-01-29
Filing date: 2015-01-29
Publication date: 2015-07-29
Anticipated expiration: 2025-01-29

Abstract

The utility model belongs to printing mechanism technical field, is specifically related to a kind of Numeral control laser die cutter.This die-cutting machine comprises lathe bed and is set in turn in uncoiling mechanism on lathe bed, conveying mechanism, deviation correction mechanism, laser die cutting mechanism, controlling organization and rolling-up mechanism; Laser die cutting mechanism comprises longitudinal rail, servo-actuating device, cross bar and is arranged on the laser head of cross bar, and servo-actuating device driving laser head is along cross bar horizontal slip and cross bar longitudinally guide rail longitudinal sliding motion.Deviation correction mechanism comprises correction correcting frame and drives the servomotor of this correction correcting frame motion, and deviation correction mechanism is provided with range sensor, and uncoiling mechanism is connected with blowing tension mechanism, and rolling-up mechanism is connected with rewinding tension mechanism.Controlling organization is electrically connected with the servomotor of each mechanism respectively.This die-cutting machine is safe and reliable, automaticity is high, solves the problem of existing die-cutting machine sideslip, need not shut down correction and frequently change cutting blade, improve the quality of production efficiency and cross cutting.

Description

Numeral control laser die cutter

Technical field

The utility model belongs to printing mechanism technical field, is specifically related to a kind of Numeral control laser die cutter.

Background technology

Die-cutting machine is mainly used in the cross cutting (complete disconnected, half disconnected) of more corresponding nonmetallic materials, adhesive sticker, double faced adhesive tape, electronics, mobile phone rubber cushion etc., impression and gold stamping operation, is the visual plant that after print, package processing is shaping.Current domestic existing die-cutting machine mainly utilizes cutting blade to carry out cross cutting to material; in cutting process; the wearing and tearing of deviation and cutting blade that die cut material there will be some positions often often can cause cutting defect rate to raise; cross cutting quality reduces and generally needs when there is deviation to shut down; utilize manually to regulate the position of cutting mechanism and involve in row cutting with labeling exactly, thus cause production efficiency to reduce.In addition along with the increase of processing capacity, blade abrasion increases, and usually needs more allowing blade replacement to cause the increase of production cost.In addition existing equipment automaticity is low, man-machine interaction is poor, cannot meet the demand of existing production.

Utility model content

The utility model is for the deficiencies in the prior art, and provide a kind of Numeral control laser die cutter that can meet Production requirement, its automaticity is high, and production efficiency is high.

The technical solution of the utility model is achieved in that a kind of Numeral control laser die cutter comprises lathe bed and is set in turn in uncoiling mechanism on lathe bed, conveying mechanism, deviation correction mechanism, laser die cutting mechanism, controlling organization and rolling-up mechanism; Described laser die cutting mechanism comprises left and right two longitudinal rails, servo-actuating device, upper and lower two cross bars and is arranged on the laser head of described cross bar, and described servo-actuating device drives described laser head along cross bar horizontal slip and drives cross bar along described longitudinal rail longitudinal sliding motion; Described deviation correction mechanism comprises correction correcting frame and drives the servomotor of this correction correcting frame motion, and described deviation correction mechanism both sides are respectively provided with range sensor, and this range sensor is for obtaining the width value of material strip and being sent to controlling organization; Described uncoiling mechanism is connected with blowing tension mechanism, and rolling-up mechanism is connected with rewinding tension mechanism, and described blowing tension mechanism and rewinding tension mechanism are provided with tension detector; Described controlling organization is electrically connected with the servomotor of each mechanism, described tension detector and range sensor respectively, performs an action in order to obtain status information and to control each mechanism; Described Numeral control laser die cutter is also provided with human-computer interaction module.

Preferably, the below of described laser die cutting mechanism is also provided with cross cutting Waste recovery mechanism.

Preferably, described conveying mechanism is biserial chain gear transmission.

Preferably, described human-computer interaction module is LCD touch display screen and keyboard.

Preferably, described range sensor is fiber optic sensor.

Preferably, the laser head on described cross bar has two at least.

The utility model solves the defect existed in background technology, has following beneficial effect:

The Numeral control laser die cutter that the utility model provides, safe and reliable, production efficiency is high, it utilizes laser head to focus on the high-power laser beam formed, material is quickly heated up to gasification temperature, make light beam and material relative movement again, thus obtain narrow continuous joint-cutting and impression, compare current cutting blade, its production efficiency is high, cross cutting better quality.In addition this Numeral control laser die cutter achieve automatically unreel, automatic tension control, automatic deviation correction, automatic laser cross cutting and automatic winding; automaticity is high; solve the problem of existing die-cutting machine sideslip; correction need not be shut down and frequently change cutting blade, improve the quality of production efficiency and cross cutting.LCD touch display screen and keyboard strengthen man-machine interaction.

Accompanying drawing explanation

Fig. 1 is the main TV structure schematic diagram of Numeral control laser die cutter;

Fig. 2 is the top view of Fig. 1 Numeral control laser die cutter;

In figure: 1-lathe bed, 2-uncoiling mechanism, 3-blowing tension mechanism, 4-conveying mechanism, 5-deviation correction mechanism, 6-laser die cutting mechanism, 61-longitudinal rail, 62-laser head, 63-cross bar, 64-servo-actuating device, 7-human-computer interaction module, 8-controlling organization, 9-rolling-up mechanism, 10-rewinding tension mechanism, 11-range sensor, 12-cross cutting Waste recovery mechanism.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

A kind of Numeral control laser die cutter as depicted in figs. 1 and 2, comprises lathe bed 1 and is set in turn in uncoiling mechanism 2 on lathe bed 1, conveying mechanism 4, deviation correction mechanism 5, laser die cutting mechanism 6, controlling organization 8 and rolling-up mechanism 9; Laser die cutting mechanism 6 comprises left and right two longitudinal rails 61, servo-actuating device 64, upper and lower two cross bars 63 and is arranged on the laser head 62 of described cross bar 63, and servo-actuating device 64 drives described laser head 62 along cross bar 63 horizontal slip and drives cross bar 63 longitudinally guide rail 61 longitudinal sliding motion; Deviation correction mechanism 5 comprises correction correcting frame and drives the servomotor of this correction correcting frame motion, and deviation correction mechanism 5 both sides are respectively provided with range sensor 11, and this range sensor 11 is for obtaining the width value of material strip and being sent to controlling organization 8; Uncoiling mechanism 2 is connected with blowing tension mechanism 3, and rolling-up mechanism 9 is connected with rewinding tension mechanism 10, and blowing tension mechanism 3 and rewinding tension mechanism 10 are provided with tension detector; Controlling organization 8 is electrically connected with the servomotor of each mechanism, tension detector and range sensor 11 respectively, performs an action in order to obtain status information and to control each mechanism; Numeral control laser die cutter is also provided with human-computer interaction module 7.The below of laser die cutting mechanism 6 is also provided with cross cutting Waste recovery mechanism 12.Conveying mechanism 4 is biserial chain gear transmission.Human-computer interaction module 7 is LCD touch display screen and keyboard.Laser head 62 on cross bar 63 has two at least, has four in the present embodiment, and each cross bar 63 respectively has two.

Operation principle of the present utility model is: adopt laser to carry out cross cutting, it utilizes laser head to focus on the high-power laser beam formed, material is quickly heated up to gasification temperature, make light beam and material relative movement again, thus obtain narrow continuous joint-cutting and impression, compare current cutting blade, its production efficiency is high, cross cutting better quality.Controlling organization 8 adopts single-chip microcomputer or PLC to control, and respectively with servomotor, the described tension detector of each mechanism with range sensor is controlled is connected, can automatically control each mechanism perform an action according to the sensor status information obtained.Blowing tension mechanism 3 and rewinding tension mechanism 10 numerical value of tension detector can pass to controlling organization 8, regulate the servomotor rotating speed of uncoiling mechanism 2 and rolling-up mechanism 9, make material strip even tension; Range sensor 11 is fiber optic sensor, its positioning precision is high, and range sensor 11 is by the width value of material strip and be sent to controlling organization 8, and controlling organization 8 compares according to interior predetermined value of establishing, drive servomotor to carry out regulable control to correction correcting frame, make material strip carry out automatic deviation correction.

The course of work of the present utility model is: first on uncoiling mechanism 2, load onto material strip, after blowing tension mechanism 3, then automatically carries out correction process through deviation correction mechanism 5 by conveying mechanism 4; Material strip after correction process carries out cross cutting by laser die cutting mechanism 6, and the cross cutting waste material of generation is collected to rolling-up mechanism 9 and rewinding tension mechanism 10 by arriving last finished product after cross cutting Waste recovery mechanism 12 waste discharge again.Material strip of the present utility model from feed, automatic deviation correction, automatic laser cross cutting, discharging and cross cutting waste discharge technique is disposable automatically completes, safe and reliable, automaticity is high.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims

1. a Numeral control laser die cutter, is characterized in that: comprise lathe bed (1) and be set in turn in uncoiling mechanism (2) on lathe bed (1), conveying mechanism (4), deviation correction mechanism (5), laser die cutting mechanism (6), controlling organization (8) and rolling-up mechanism (9); Described laser die cutting mechanism (6) comprises left and right two longitudinal rails (61), servo-actuating device (64), upper and lower two cross bars (63) and is arranged on the laser head (62) of described cross bar (63), and described servo-actuating device (64) drives described laser head (62) along cross bar (63) horizontal slip and drives cross bar (63) along described longitudinal rail (61) longitudinal sliding motion; Described deviation correction mechanism (5) comprises correction correcting frame and drives the servomotor of this correction correcting frame motion, described deviation correction mechanism (5) both sides are respectively provided with range sensor (11), and this range sensor (11) is for obtaining the width value of material strip and being sent to controlling organization (8); Described uncoiling mechanism (2) is connected with blowing tension mechanism (3), rolling-up mechanism (9) is connected with rewinding tension mechanism (10), and described blowing tension mechanism (3) and rewinding tension mechanism (10) are provided with tension detector; Described controlling organization (8) is electrically connected with the servomotor of each mechanism, described tension detector and range sensor (11) respectively, performs an action in order to obtain status information and to control each mechanism; Described Numeral control laser die cutter is also provided with human-computer interaction module (7).

2. Numeral control laser die cutter according to claim 1, is characterized in that: the below of described laser die cutting mechanism (6) is also provided with cross cutting Waste recovery mechanism (12).

3. Numeral control laser die cutter according to claim 1, is characterized in that: described conveying mechanism (4) is biserial chain gear transmission.

4. Numeral control laser die cutter according to claim 1, is characterized in that: described human-computer interaction module (7) is LCD touch display screen and keyboard.

5. Numeral control laser die cutter according to claim 1, is characterized in that: described range sensor (11) is fiber optic sensor.

6. Numeral control laser die cutter according to claim 1, is characterized in that: the laser head (62) on described cross bar (63) has two at least.