CN105414771A

CN105414771A - Laser template processing equipment

Info

Publication number: CN105414771A
Application number: CN201510961927.6A
Authority: CN
Inventors: 高扬
Original assignee: Dongguan Qinzhi Industrial Design Co Ltd
Current assignee: Dongguan Qinzhi Industrial Design Co Ltd
Priority date: 2015-12-17
Filing date: 2015-12-17
Publication date: 2016-03-23

Abstract

The invention discloses laser template processing equipment comprising a cutting mechanism, a storage mechanism and a pushing mechanism, wherein the storage mechanism is located at the rear of the cutting mechanism; the storage mechanism comprises a storage plate, a pair of lifting mechanisms and a pair of lifting assemblies; and the pushing mechanism is located in front of the cutting mechanism. The pushing mechanism drives a cut laser template to the storage plate of the storage mechanism, and the pair of lifting mechanisms drive the pair of lifting assemblies to repeatedly lift to ensure that the former laser template continuously running to the storage plate is lifted to vacate the space for the next laser template conveyed from a processing baseplate, so that a batch of laser templates are overlapped on the storage plate and can be taken away at one step by working staff, and furthermore the production efficiency is increased.

Description

A kind of laser template process unit

Technical field:

The present invention relates to laser template technical field, in particular to a kind of laser template process unit.

Background technology:

Template particularly large section mould plate application widely, its cut generally adopt electricity, heat or cutter to cut mode, along with the extensive use of laser, laser cutting is fast with its speed, efficiency high is applied in gradually template cut field.Its principle is under the effect of high voltage electric field, produces photoelectron in discharge tube after electronics motional collision gas, and logical long-distance is accelerated to form the laser beam injection that wavelength is 10.64um, cuts template.Laser cutting machine now used is mainly made up of mobile platform and laser head, and template is placed on a mobile platform, and the movement with mobile platform completes cutting by laser head.Due to employing is that laser head is fixed, the mode of template movement, and required platform is large, and equipment is heavy.Particularly for the cutting of large section mould plate, because size is large, generally cannot complete.

Authorization Notice No. is that the utility model of CN201040335 discloses a kind of laser template cutting machine, primarily of Cutting platform and laser head composition, feature be laser head by X to slideway and Y-direction installation of slide track on Cutting platform, and to be driven by stepper motor.Laser head can along slideway laterally, vertically move, completed the cutting of template by laser beam, speed is fast, efficiency is high, cuts round and smooth, smooth, neatly.

Summary of the invention:

Technical problem solved by the invention: laser template cutting machine of the prior art, carries out automatic accomodation without special mechanism to the laser template cut, and is unfavorable for the raising of laser template working (machining) efficiency.

For solving the problems of the technologies described above, the invention provides following technical scheme:

A kind of laser template process unit, comprises cutting mechanism, accommodating mechanism, implementation mechanism;

Described cutting mechanism comprises and arranges frame plate for about a pair, is arranged on processing base plate, the crossbeam across pair of frame plate, the laser frame be arranged on crossbeam, the laser head be arranged on laser frame between pair of frame plate; Described pair of frame plate is provided with Y-direction slideway, and described crossbeam is provided with X to slideway, and the both ends of described crossbeam are slidably fitted on the Y-direction slideway of pair of frame plate, and described laser frame is slidably fitted in the X of crossbeam on slideway; Described laser head is connected with laser generator by reflection unit;

Process in described cutting mechanism on base plate and be provided with a pair guider, a pair guider comprises the first guider be arranged on the left of processing base plate and the second guider be arranged on the right side of processing base plate; Described first guider comprise be hinged on frame plate and be positioned at processing base plate above the first guide plate, the first threaded rod be hinged on the first guide plate, be fixedly mounted on processing base plate on the left of left plate, described left plate is offered strip first chute, described first threaded rod is plugged in the first chute, first threaded rod is spirally connected the first left nut and the first right nut, and described left plate is clamped between the first left nut and the first right nut; Described second guider comprise be hinged on frame plate and be positioned at processing base plate above the second guide plate, the second threaded rod be hinged on the second guide plate, be fixedly mounted on processing base plate on the right side of right plate, described right plate is offered strip second chute, described second threaded rod is plugged in the second chute, second threaded rod is spirally connected the second left nut and the second right nut, and described right plate is clamped between the second left nut and the second right nut;

Described accommodating mechanism is positioned at the rear of cutting mechanism; Described accommodating mechanism comprises support, Ingathering board, limiting plate, a pair elevating mechanism, a pair lifting subassembly; Described Ingathering board is rack-mount, and Ingathering board is horizontally disposed with, and Ingathering board flushes with the processing base plate of cutting mechanism, and Ingathering board is positioned at the rear side of a pair guider; Described limiting plate is rack-mount, and limiting plate is positioned at the rear side of Ingathering board, and limiting plate is sent to laser template on Ingathering board for stopping through processing base plate; A pair elevating mechanism is arranged on the left and right sides of support, and a pair lifting subassembly is arranged on a pair elevating mechanism in man-to-man mode; Described lifting subassembly comprises main piece of the lifting be arranged on elevating mechanism, telescopic cylinder, the lift block be arranged on retractable air cylinder piston bar be arranged in main piece of lifting, described a pair elevating mechanism drives the lifting of a pair lifting subassembly, and a pair lifting subassembly be improving laser template by an edge of a pair lift block improving laser template;

Described implementation mechanism is positioned at the front of cutting mechanism; Described implementation mechanism comprises bracing frame, the implementation cylinder be arranged on bracing frame, the implementation block be arranged on implementation cylinder piston rod; Described implementation block is positioned on the processing base plate of cutting mechanism, under the driving carrying out cylinder, carries out block and moves forward and backward along processing base plate.

By technique scheme, the operation principle of laser template process unit of the present invention is as follows:

First, staff regulates a pair guider by the size of the laser template by processing, particularly, the first left nut on staff's action first threaded rod and the first right nut are to adjust the anglec of rotation of the first guide plate around itself and frame plate hinged place, the second left nut on staff's action second threaded rod and the second right nut are to adjust the anglec of rotation of the second guide plate around itself and frame plate hinged place, left and right be arranged on processing base plate on the first guide plate and the second guide plate form the suitable guide channel of a width dimensions, the laser template completed for the cutting on processing base plate passes through and enters on the Ingathering board of accommodating mechanism.

Second, staff by Workpiece fixing to be cut on the processing base plate of cutting mechanism, laser head realizes Y-direction displacement by the displacement on the Y-direction slideway of crossbeam on pair of frame plate, and laser head realizes X to displacement by the X of laser frame on crossbeam to the displacement on slideway; Under the cooperation of X to displacement and Y-direction displacement, laser head carries out laser cutting to the workpiece on processing base plate.

3rd, after having cut, the implementation cylinder carried out in mechanism stretches, implementation block is driven to move along processing base plate, carry out the laser template that the cutting on block promotion processing base plate completes, laser template is rearward moved, and laser template through a pair guider (particularly, the guide channel of laser template through being made up of the first guide plate and the second guide plate) and move on the Ingathering board of accommodating mechanism, described laser template terminates in limiting plate.

4th, a pair elevating mechanism in accommodating mechanism drives a pair lifting subassembly to decline, until lift block drops to the below of the laser template be positioned on Ingathering board, afterwards, telescopic cylinder stretches, and drives the lift block on it to extend into the below of laser template left and right edges, afterwards, a pair elevating mechanism drives a pair lifting subassembly to rise, and a pair lift block acts on an edge of laser template, laser template is upwards promoted the height of a laser template thickness; Afterwards, next laser template moves on Ingathering board, is positioned at immediately below first laser template; Afterwards, telescopic cylinder resets, and elevating mechanism drives lifting subassembly to decline, and first laser template is superimposed upon on second laser template; Afterwards, under the driving of elevating mechanism, second laser template can be promoted the thickness of a laser template by the lift block of lifting subassembly, so that the next laser template vacating space for sending from processing base plate.So, batch laser template is superimposed upon on Ingathering board, and staff can disposablely be taken away, to enhance productivity.

By technique scheme, the cooperation of described accommodating mechanism and implementation mechanism carries out automatic accomodation to the laser template cut, and is conducive to the raising of laser template working (machining) efficiency.

Illustrate the one of assembled relation between cutting mechanism middle cross beam and pair of frame plate as the present invention, described pair of frame plate comprises left frame plate and right frame plate, and described left frame plate is provided with the first Y-direction slideway, and right frame plate is provided with the second Y-direction slideway; Described first Y-direction slideway being offered cross section is the first trapezoidal Y-direction chute, and described second Y-direction slideway being offered cross section is the second trapezoidal Y-direction chute; It is the first trapezoidal slide block that the left part of described crossbeam is provided with cross section, and it is the second trapezoidal slide block that the right part of crossbeam is provided with cross section; Described first slide block coordinates with the first Y-direction chute, and the second slide block coordinates with the second Y-direction chute; The left part of described crossbeam is provided with the first Y-direction drive unit, and described first Y-direction drive unit comprises the first side plate being arranged on crossbeam left part, the first driven wheel be articulated on the first side plate, is arranged on the first side plate and the first drive motors connected with the first driven wheel; The sidewall of described left frame plate offers the first groove, and the roof of the first groove is provided with the first tooth bar, and described first driven wheel is positioned at the first groove, and the first driven wheel engages with the first tooth bar; The right part of described crossbeam is provided with the second Y-direction drive unit, and described second Y-direction drive unit comprises the second side plate being arranged on crossbeam right part, the second driven wheel be articulated on the second side plate, is arranged on the second side plate and the second drive motors connected with the second driven wheel; The sidewall of described right frame plate offers the second groove, and the roof of the second groove is provided with the second tooth bar, and described second driven wheel is positioned at the second groove, and the second driven wheel engages with the second tooth bar.

As described above, first drive motors drives the first driven wheel to rotate, because the first driven wheel engages with the first tooth bar, and the first tooth bar is arranged in the first groove of left frame plate, therefore, the left part of the first driving gear drives crossbeam rotated is moved along the first Y-direction slideway on left frame plate, and particularly, the first slide block on crossbeam moves in the first Y-direction chute of the first Y-direction slideway; In like manner, driven by the second drive motors and the right part of the second driving gear drives crossbeam of rotation is moved along the second Y-direction slideway on right frame plate, particularly, the second slide block on crossbeam moves in the second Y-direction chute of the second Y-direction slideway.So, while the first drive motors and the second drive motors, action can synchronously drive crossbeam to move as Y-direction on left frame plate and right frame plate.

As the present invention in cutting mechanism between laser frame and crossbeam the one of assembled relation illustrate, described X offer on slideway cross section be trapezoidal X to chute, it is the 3rd trapezoidal slide block that described laser frame is provided with cross section; Described 3rd slide block coordinates to chute with X; Described laser frame is provided with X to drive unit, and described X comprises the 3rd side plate be arranged on laser frame, the 3rd driven wheel be articulated on the 3rd side plate to drive unit, is arranged on the 3rd side plate and the 3rd drive motors connected with the 3rd driven wheel; The sidewall of described crossbeam is offered the 3rd groove, the roof of the 3rd groove is provided with the 3rd tooth bar, and described 3rd driven wheel is positioned at the 3rd groove, and the 3rd driven wheel engages with the 3rd tooth bar.

As described above, 3rd drive motors drives the 3rd driven wheel to rotate, because the 3rd driven wheel engages with the 3rd tooth bar, and the 3rd tooth bar is arranged in the 3rd groove of crossbeam, therefore, the 3rd driving gear drives laser frame rotated moves along the X on crossbeam to slideway, and particularly, the 3rd slide block on laser frame moves to the X of slideway at X in chute.

As the present invention, the one of accommodating mechanism illustrated, described elevating mechanism comprises rack-mount bearing, be articulated on bearing and the threaded rod vertically arranged, the servomotor that connects with threaded rod; The gathering sill moved towards up and down offered by described bearing, and main piece of the lifting of described lifting subassembly is slidably fastened in gathering sill, is elevated main piece and is screwed onto on threaded rod.As described above, the operation principle of each elevating mechanism is as follows: driven by servomotor threaded rod rotates, and under the guiding of gathering sill, threaded rod drives lifting main piece of lifting, and be elevated main piece and drive telescopic cylinder lifting, telescopic cylinder drives lift block lifting.

Illustrate the one of accommodating mechanism as the present invention, described Ingathering board offers a bar-shaped trough, and described bar-shaped trough stretches into for lift block.Design like this, in the process of a pair lifting subassembly improving laser template, the lift block in a pair lifting subassembly stretches in described bar-shaped trough under the driving of telescopic cylinder, afterwards, a pair elevating mechanism drives a pair lifting subassembly to rise, and a pair lift block holder laser template and risen.

Accompanying drawing illustrates:

Below in conjunction with accompanying drawing, the present invention is described further:

Fig. 1 is the structural representation of a kind of laser template process unit of the present invention;

Fig. 2 is the structural representation from left sides laser template process unit gained in Fig. 1;

Fig. 3 is the structural representation of accommodating mechanism 80 in Fig. 1;

Fig. 4 is the structural representation of cutting mechanism 10 in Fig. 1;

Fig. 5 is the structural representation from left sides cutting mechanism 10 gained in Fig. 4;

Fig. 6 is the structural representation from top view cutting mechanism 10 gained in Fig. 5;

Fig. 7 is the structural representation carrying out mechanism 40 in Fig. 1.

Symbol description in figure:

10, cutting mechanism; 11, base plate is processed; 12, frame plate; 121, the first Y-direction slideway; 122, the first Y-direction chute; 123, the first groove; 124, the first tooth bar; 13, crossbeam; 131, the first slide block; 132, X is to chute; 133, the 3rd groove; 134, the 3rd tooth bar; 14, laser frame; 141, the 3rd slide block; 15, laser head; 16, the first Y-direction drive unit; 161, the first side plate; 162, the first driven wheel; 163, the first drive motors; 17, X is to drive unit; 171, the 3rd side plate; 172, the 3rd driven wheel; 173, the 3rd drive motors; 18, a pair guider; 180, the first guider; 181, the second guider; 182, the first guide plate; 183, the first threaded rod; 184, left plate; 185, the first chute; 186, the first left nut; 187, the first right nut;

40, mechanism is carried out; 41, bracing frame; 42, cylinder is carried out; 43, block is carried out;

80, accommodating mechanism; 81, support; 82, Ingathering board; 820, bar-shaped trough; 83, limiting plate; 84, elevating mechanism; 841, bearing; 842, threaded rod; 843, gathering sill; 85, lifting subassembly; 851, main piece is elevated; 853, lift block.

Detailed description of the invention:

Composition graphs 1, Fig. 2, a kind of laser template process unit, comprises cutting mechanism 10, accommodating mechanism 80, carries out mechanism 40.

Composition graphs 4, Fig. 5, described cutting mechanism 10 comprises and arranges frame plate 12 for about a pair, is arranged on processing base plate 11, the crossbeam 13 across pair of frame plate, the laser frame 14 be arranged on crossbeam, the laser head 15 be arranged on laser frame between pair of frame plate; Described pair of frame plate is provided with Y-direction slideway, and described crossbeam is provided with X to slideway, and the both ends of described crossbeam are slidably fitted on the Y-direction slideway of pair of frame plate, and described laser frame is slidably fitted in the X of crossbeam on slideway; Described laser head is connected with laser generator by reflection unit.

In above-mentioned cutting mechanism 10, composition graphs 5, Fig. 6, process in described cutting mechanism on base plate and be provided with a pair guider 18, a pair guider comprises the first guider 180 be arranged on the left of processing base plate and the second guider 181 be arranged on the right side of processing base plate; Described first guider comprise be hinged on frame plate and be positioned at processing base plate above the first guide plate 182, the first threaded rod 183 be hinged on the first guide plate, be fixedly mounted on processing base plate on the left of left plate 184, described left plate is offered strip first chute 185, described first threaded rod is plugged in the first chute, first threaded rod is spirally connected the first left nut 186 and the first right nut 187, and described left plate is clamped between the first left nut and the first right nut; Described second guider comprise be hinged on frame plate and be positioned at processing base plate above the second guide plate, the second threaded rod be hinged on the second guide plate, be fixedly mounted on processing base plate on the right side of right plate, described right plate is offered strip second chute, described second threaded rod is plugged in the second chute, second threaded rod is spirally connected the second left nut and the second right nut, and described right plate is clamped between the second left nut and the second right nut.

In above-mentioned cutting mechanism 10, composition graphs 4, Fig. 5, described pair of frame plate 12 comprises left frame plate and right frame plate, and described left frame plate is provided with the first Y-direction slideway 121, and right frame plate is provided with the second Y-direction slideway; Described first Y-direction slideway being offered cross section is the first trapezoidal Y-direction chute 122, and described second Y-direction slideway being offered cross section is the second trapezoidal Y-direction chute; It is the first trapezoidal slide block 131 that the left part of described crossbeam 13 is provided with cross section, and it is the second trapezoidal slide block that the right part of crossbeam is provided with cross section; Described first slide block coordinates with the first Y-direction chute, and the second slide block coordinates with the second Y-direction chute; The left part of described crossbeam is provided with the first Y-direction drive unit 16, and described first Y-direction drive unit comprises the first side plate 161 being arranged on crossbeam left part, the first driven wheel 162 be articulated on the first side plate, is arranged on the first side plate and the first drive motors 163 connected with the first driven wheel; The roof sidewall of described left frame plate being offered the first groove 123, first groove is provided with the first tooth bar 124, and described first driven wheel is positioned at the first groove, and the first driven wheel engages with the first tooth bar; The right part of described crossbeam is provided with the second Y-direction drive unit, and described second Y-direction drive unit comprises the second side plate being arranged on crossbeam right part, the second driven wheel be articulated on the second side plate, is arranged on the second side plate and the second drive motors connected with the second driven wheel; The sidewall of described right frame plate offers the second groove, and the roof of the second groove is provided with the second tooth bar, and described second driven wheel is positioned at the second groove, and the second driven wheel engages with the second tooth bar.

In above-mentioned cutting mechanism 10, composition graphs 4, Fig. 5, described X offer on slideway cross section be trapezoidal X to chute 132, it is the 3rd trapezoidal slide block 141 that described laser frame 14 is provided with cross section; Described 3rd slide block coordinates to chute with X; Described laser frame is provided with X to drive unit 17, and described X comprises the 3rd side plate 171 be arranged on laser frame, the 3rd driven wheel 172 be articulated on the 3rd side plate to drive unit, is arranged on the 3rd side plate and the 3rd drive motors 173 connected with the 3rd driven wheel; The roof sidewall of described crossbeam 13 being offered the 3rd groove the 133, three groove is provided with the 3rd tooth bar 134, and described 3rd driven wheel is positioned at the 3rd groove, and the 3rd driven wheel engages with the 3rd tooth bar.

As Fig. 1, described accommodating mechanism 80 is positioned at the rear of cutting mechanism; As Fig. 3, described accommodating mechanism comprises support 81, Ingathering board 82, limiting plate 83, a pair elevating mechanism 84, a pair lifting subassembly 85; Described Ingathering board is rack-mount, and Ingathering board is horizontally disposed with, and Ingathering board flushes with the processing base plate of cutting mechanism, and Ingathering board is positioned at the rear side of a pair guider; Described limiting plate is rack-mount, and limiting plate is positioned at the rear side of Ingathering board, and limiting plate is sent to laser template on Ingathering board for stopping through processing base plate; A pair elevating mechanism is arranged on the left and right sides of support, and a pair lifting subassembly is arranged on a pair elevating mechanism in man-to-man mode; Described lifting subassembly comprises the lifting be arranged on elevating mechanism main piece 851, telescopic cylinder, the lift block 853 be arranged on retractable air cylinder piston bar be arranged in main piece of lifting, described a pair elevating mechanism drives the lifting of a pair lifting subassembly, and a pair lifting subassembly be improving laser template by an edge of a pair lift block improving laser template.

In above-mentioned accommodating mechanism 80, described elevating mechanism 84 comprises the bearing 841 be arranged on support 81, be articulated on bearing and the threaded rod 842 vertically arranged, the servomotor that connects with threaded rod; The gathering sill 843 moved towards up and down offered by described bearing, and the lifting of described lifting subassembly 85 is slidably fastened in gathering sill for main piece 851, is elevated main piece and is screwed onto on threaded rod.

In above-mentioned accommodating mechanism 80, described Ingathering board 82 offers a bar-shaped trough 820, and described bar-shaped trough stretches into for lift block 853.

As Fig. 1, described implementation mechanism is positioned at the front of cutting mechanism; As Fig. 7, described implementation mechanism comprises bracing frame 41, the implementation cylinder 42 be arranged on bracing frame, the implementation block 43 be arranged on implementation cylinder piston rod; Described implementation block is positioned on the processing base plate of cutting mechanism, under the driving carrying out cylinder, carries out block and moves forward and backward along processing base plate.

In actual production, the workflow of laser template process unit of the present invention is as follows:

First, staff regulates a pair guider 18 by the size of the laser template by processing, particularly, on staff's action first threaded rod 183 first left nut 186 and the first right nut 187 are to adjust the anglec of rotation of the first guide plate 182 around itself and frame plate 12 hinged place, the second left nut on staff's action second threaded rod and the second right nut are to adjust the anglec of rotation of the second guide plate around itself and frame plate hinged place, left and right be arranged on processing base plate on the first guide plate and the second guide plate form the suitable guide channel of a width dimensions, the laser template completed for the cutting on processing base plate 11 passes through and enters on the Ingathering board 82 of accommodating mechanism 80.

Second, staff by Workpiece fixing to be cut on the processing base plate 11 of cutting mechanism 10, laser head 15 realizes Y-direction displacement by the displacement on the Y-direction slideway of crossbeam 13 on pair of frame plate 12, and laser head realizes X to displacement by the X of laser frame 14 on crossbeam 13 to the displacement on slideway; Under the cooperation of X to displacement and Y-direction displacement, laser head carries out laser cutting to the workpiece on processing base plate 11.

3rd, after having cut, the implementation cylinder 42 carried out in mechanism 40 stretches, implementation block 43 is driven to move along processing base plate 11, carry out the laser template that the cutting on block promotion processing base plate completes, laser template is rearward moved, and laser template through a pair guider 18 (particularly, the guide channel of laser template through being made up of the first guide plate and the second guide plate) and move on the Ingathering board 82 of accommodating mechanism 80, described laser template terminates in limiting plate 83.

4th, a pair elevating mechanism 84 in accommodating mechanism 80 drives a pair lifting subassembly 85 to decline, until lift block 853 drops to the below of the laser template be positioned on Ingathering board 82, afterwards, telescopic cylinder stretches, and drives the lift block 853 on it to extend into the below of laser template left and right edges, afterwards, a pair elevating mechanism 84 drives a pair lifting subassembly 85 to rise, and a pair lift block 853 acts on an edge of laser template, laser template is upwards promoted the height of a laser template thickness; Afterwards, next laser template moves on Ingathering board 82, is positioned at immediately below first laser template; Afterwards, telescopic cylinder resets, and elevating mechanism 84 drives lifting subassembly 85 to decline, and first laser template is superimposed upon on second laser template; Afterwards, under the driving of elevating mechanism 84, second laser template can be promoted the thickness of a laser template by the lift block 853 of lifting subassembly 85, so that the next laser template vacating space for sending from processing base plate 11.So, batch laser template is superimposed upon on Ingathering board 82, and staff can disposablely be taken away.

Above content is only better embodiment of the present invention, and for those of ordinary skill in the art, according to thought of the present invention, all will change in specific embodiments and applications, this description should not be construed as limitation of the present invention.

Claims

1. a laser template process unit, comprises cutting mechanism (10), accommodating mechanism (80), carries out mechanism (40); Described cutting mechanism comprises and arranges frame plate (12) for about a pair, is arranged on processing base plate (11), the crossbeam (13) across pair of frame plate, the laser frame (14) be arranged on crossbeam, the laser head (15) be arranged on laser frame between pair of frame plate; Described pair of frame plate is provided with Y-direction slideway, and described crossbeam is provided with X to slideway, and the both ends of described crossbeam are slidably fitted on the Y-direction slideway of pair of frame plate, and described laser frame is slidably fitted in the X of crossbeam on slideway; Described laser head is connected with laser generator by reflection unit; It is characterized in that:

Process in described cutting mechanism on base plate and be provided with a pair guider (18), a pair guider comprises the first guider (180) be arranged on the left of processing base plate and the second guider (181) be arranged on the right side of processing base plate;

Described first guider comprise be hinged on frame plate and be positioned at processing base plate above the first guide plate (182), the first threaded rod (183) be hinged on the first guide plate, be fixedly mounted on processing base plate on the left of left plate (184), described left plate is offered strip first chute (185), described first threaded rod is plugged in the first chute, first threaded rod is spirally connected the first left nut (186) and the first right nut (187), and described left plate is clamped between the first left nut and the first right nut;

Described second guider comprise be hinged on frame plate and be positioned at processing base plate above the second guide plate, the second threaded rod be hinged on the second guide plate, be fixedly mounted on processing base plate on the right side of right plate, described right plate is offered strip second chute, described second threaded rod is plugged in the second chute, second threaded rod is spirally connected the second left nut and the second right nut, and described right plate is clamped between the second left nut and the second right nut;

Described accommodating mechanism is positioned at the rear of cutting mechanism;

Described accommodating mechanism comprises support (81), Ingathering board (82), limiting plate (83), a pair elevating mechanism (84), a pair lifting subassembly (85); Described Ingathering board is rack-mount, and Ingathering board is horizontally disposed with, and Ingathering board flushes with the processing base plate of cutting mechanism, and Ingathering board is positioned at the rear side of a pair guider; Described limiting plate is rack-mount, and limiting plate is positioned at the rear side of Ingathering board, and limiting plate is sent to laser template on Ingathering board for stopping through processing base plate; A pair elevating mechanism is arranged on the left and right sides of support, and a pair lifting subassembly is arranged on a pair elevating mechanism in man-to-man mode; Described lifting subassembly comprises main piece of the lifting be arranged on elevating mechanism (851), telescopic cylinder, the lift block (853) be arranged on retractable air cylinder piston bar be arranged in main piece of lifting, described a pair elevating mechanism drives the lifting of a pair lifting subassembly, and a pair lifting subassembly be improving laser template by an edge of a pair lift block improving laser template;

Described implementation mechanism is positioned at the front of cutting mechanism;

Described implementation mechanism comprises bracing frame (41), the implementation cylinder (42) be arranged on bracing frame, the implementation block (43) be arranged on implementation cylinder piston rod; Described implementation block is positioned on the processing base plate of cutting mechanism, under the driving carrying out cylinder, carries out block and moves forward and backward along processing base plate.

2. a kind of laser template process unit as claimed in claim 1, is characterized in that:

Described pair of frame plate (12) comprises left frame plate and right frame plate, and described left frame plate is provided with the first Y-direction slideway (121), and right frame plate is provided with the second Y-direction slideway; Described first Y-direction slideway being offered cross section is the first trapezoidal Y-direction chute (122), and described second Y-direction slideway being offered cross section is the second trapezoidal Y-direction chute; It is trapezoidal the first slide block (131) that the left part of described crossbeam (13) is provided with cross section, and it is the second trapezoidal slide block that the right part of crossbeam is provided with cross section; Described first slide block coordinates with the first Y-direction chute, and the second slide block coordinates with the second Y-direction chute;

The left part of described crossbeam is provided with the first Y-direction drive unit (16), and described first Y-direction drive unit comprises the first side plate (161) being arranged on crossbeam left part, the first driven wheel (162) be articulated on the first side plate, is arranged on the first side plate and the first drive motors (163) connected with the first driven wheel; The sidewall of described left frame plate is offered the first groove (123), the roof of the first groove is provided with the first tooth bar (124), and described first driven wheel is positioned at the first groove, and the first driven wheel engages with the first tooth bar;

The right part of described crossbeam is provided with the second Y-direction drive unit, and described second Y-direction drive unit comprises the second side plate being arranged on crossbeam right part, the second driven wheel be articulated on the second side plate, is arranged on the second side plate and the second drive motors connected with the second driven wheel; The sidewall of described right frame plate offers the second groove, and the roof of the second groove is provided with the second tooth bar, and described second driven wheel is positioned at the second groove, and the second driven wheel engages with the second tooth bar.

3. a kind of laser template process unit as claimed in claim 1, is characterized in that:

Described X offer on slideway cross section be trapezoidal X to chute (132), it is the 3rd trapezoidal slide block (141) that described laser frame (14) is provided with cross section; Described 3rd slide block coordinates to chute with X;

Described laser frame is provided with X to drive unit (17), and described X comprises the 3rd side plate (171) be arranged on laser frame, the 3rd driven wheel (172) be articulated on the 3rd side plate to drive unit, is arranged on the 3rd side plate and the 3rd drive motors (173) connected with the 3rd driven wheel; The sidewall of described crossbeam (13) is offered the 3rd groove (133), the roof of the 3rd groove is provided with the 3rd tooth bar (134), and described 3rd driven wheel is positioned at the 3rd groove, and the 3rd driven wheel engages with the 3rd tooth bar.

4. a kind of laser template process unit as claimed in claim 1, is characterized in that: described elevating mechanism (84) comprises the bearing (841) be arranged on support (81), be articulated on bearing and the threaded rod (842) vertically arranged, the servomotor that connects with threaded rod; The gathering sill (843) moved towards up and down offered by described bearing, and the lifting main piece (851) of described lifting subassembly (85) is slidably fastened in gathering sill, is elevated main piece and is screwed onto on threaded rod.

5. a kind of laser template process unit as claimed in claim 1, is characterized in that: described Ingathering board (82) offers a bar-shaped trough (820), and described bar-shaped trough stretches into for lift block (853).