CN201632769U - Vertical laser cutting machine - Google Patents

Vertical laser cutting machine Download PDF

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Publication number
CN201632769U
CN201632769U CN 201020026269 CN201020026269U CN201632769U CN 201632769 U CN201632769 U CN 201632769U CN 201020026269 CN201020026269 CN 201020026269 CN 201020026269 U CN201020026269 U CN 201020026269U CN 201632769 U CN201632769 U CN 201632769U
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China
Prior art keywords
screw mandrel
gear
laser cutting
workpiece
axle
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Expired - Fee Related
Application number
CN 201020026269
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Chinese (zh)
Inventor
熊薇
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Individual
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Individual
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Priority to CN 201020026269 priority Critical patent/CN201632769U/en
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Publication of CN201632769U publication Critical patent/CN201632769U/en
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Expired - Fee Related legal-status Critical Current

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Abstract

The utility model discloses a vertical laser cutting machine, which comprises a laser cutting head part including motors, gear wheels, screw rods, screw nuts, shafts and a laser cutting head; a workpiece placing part including a workpiece fixing part and a fixed bracket moving device, and a clamping device. As the structure of the utility model is much simpler than a horizontal laser cutting machine, and the workpieces are vertically placed, the utility model has the advantages of more simplified structure, smaller volume, light weight, small occupied area, convenient conveying, and saved production and use cost.

Description

Vertical laser cutting machine
Technical field
The utility model relates to a kind of laser cutting machine, is specifically related to a kind of vertical laser cutting machine.
Background technology
Laser cutting machine with its cutting accuracy height, joint-cutting is little, workpiece deformation is little, operability reaches advantages such as contactless processing well, becomes the technology of extensive use in the cutting field day by day.In the prior art, the laser cutting machine that generally is used for the cutting of plane plank and slim iron plate, two-dimentional engraving etc., its workpiece modes of emplacement adopts flat crouching to place, and the shortcoming of this horizontal laser cutting machine is that volume ratio is big, relatively heavier, area occupied is big, production cost is than higher.
The utility model content
The technical problems to be solved in the utility model provides the vertical laser cutting machine that a kind of structure is more simple, volume is little, occupied ground is little.
For solving the problems of the technologies described above, the utility model adopts following technical scheme: a kind of vertical laser cutting machine, comprise workpiece placement part, the clamping device of laser cutting head part, workpiece standing part and fixed mount mobile device formation that motor, gear, screw mandrel, feed screw nut, axle, laser cutting head constitute, it is characterized in that:
The laser cutting head part: screw mandrel A and screw mandrel B symmetrical parallel are provided with, and screw mandrel C two ends are located at respectively on screw mandrel A and the screw mandrel B, and screw mandrel D is located on the screw mandrel C, wherein form the mobile microscope carrier of an X-Y-Z axle between screw mandrel A and screw mandrel B and screw mandrel C and the screw mandrel D; Motor A is fixed between an A and the axle B by gear A and gear B, axle A and axle B are fixed on screw mandrel A and the screw mandrel B by helical gear A engagement helical gear C, helical gear B engagement helical gear D respectively, feed screw nut A connects helical gear C and is socketed on the screw mandrel A, and feed screw nut B connects helical gear D and is socketed on the screw mandrel B.Motor B is fixed on the screw mandrel C by gear C and gear D, and feed screw nut C connects gear D and is socketed on the screw mandrel C, and screw mandrel C two ends are actively installed on screw mandrel A and the screw mandrel B.Motor C is fixed on the screw mandrel D by gear F and gear E, and feed screw nut D is socketed on screw mandrel D, and laser cutting head is located on the feed screw nut D, and screw mandrel D one end is actively installed on the screw mandrel C.
The workpiece placement part: the workpiece standing part comprises workpiece holder, is located at button, backer's plate, clamping device and location slide plate on the workpiece holder, the location slide plate is actively installed on the workpiece holder, and slide plate two ends, location are provided with cylinder, the centre is provided with clamping device.
Further, described clamping device comprises cam, connecting rod and cylinder, and cam is fixed on the workpiece holder, and connecting rod is connected on the cam, and cylinder and connecting rod link together.
Further, described fixed mount mobile device comprises lead rail axis and slide block, and workpiece holder and slide block are fixed together, and slide block is actively installed on the lead rail axis.
The utility model structure is more simpler than horizontal laser cutting machine owing to adopt the vertical modes of emplacement of workpiece, make the utility model structure more simplify, volume is littler, in light weight, occupied ground is little, carrying is easy to operate, thereby save production and use cost.
Description of drawings
Fig. 1 is a laser cutting head part front view;
Fig. 2 is a laser cutting head part right view;
Fig. 3 is a workpiece placement part floor map;
Fig. 4 is the clamping device floor map.
Among the figure, 1 is feed screw nut A, and 2 is screw mandrel A, and 3 is helical gear C, 4 is helical gear A, and 5 is axle A, and 6 is laser cutting head, and 7 is feed screw nut D, 8 is screw mandrel D, and 9 is gear F, and 10 is gear E, and 11 is motor C, 12 is motor B, and 13 is gear C, and 14 is feed screw nut C, and 15 is gear D, 16 is motor A, and 17 is gear A, and 18 is gear B, and 19 is axle B, 20 is screw mandrel C, and 21 is helical gear B, and 22 is helical gear D, 23 is feed screw nut B, and 24 is screw mandrel B, and 25 is workpiece holder, 26 is the fixed mount mobile device, and 27 is button, and 28 is cylinder A, 29 is backer's plate, and 30 is clamping device, and 31 are the location slide plate, 32 is lead rail axis, and 33 is cylinder B, and 34 is cylinder C, 35 is slide block, and 36 is cylinder D, and 37 is workpiece, 38 is cam, 39 connecting rods, and 40 is cylinder E.
The specific embodiment
In the present embodiment, with reference to Fig. 1, Fig. 2 and Fig. 3, described vertical laser cutting machine, the workpiece placement part, the clamping device 30 that comprise laser cutting head part, workpiece standing part and fixed mount mobile device 26 formations that motor, gear, screw mandrel, feed screw nut, axle, laser cutting head constitute, wherein:
Laser cutting head part: screw mandrel A 2 and screw mandrel B 24 symmetrical parallel settings, screw mandrel C 20 two ends are located at respectively on screw mandrel A 2 and the screw mandrel B 24, screw mandrel D 8 is located on the screw mandrel C 20, wherein form the mobile microscope carrier of an X-Y-Z axle between screw mandrel A 2 and screw mandrel B 24 and screw mandrel C 20 and the screw mandrel D 8, the direction of screw mandrel A 2 and screw mandrel B 24 is an X-axis, screw mandrel C 20 is a Y-axis, and screw mandrel D 8 is the Z axle, constitutes rectangular coordinate system in space; Motor A 16 is fixed between an A 5 and the axle B 19 by gear A 17 and gear B 18, axle A 5 and axle B 19 are fixed on screw mandrel A 2 and the screw mandrel B 24 by helical gear A 4 engagement helical gear C 3, helical gear B 21 engagement helical gear D 22 respectively, feed screw nut A 1 connects helical gear C 3 and is socketed on the screw mandrel A 2, and feed screw nut B 23 connects helical gear D 22 and is socketed on the screw mandrel B 24.Motor B 12 is fixed on the screw mandrel C 20 by gear C 13 and gear D 15, and feed screw nut C 14 connects gear D 15 and is socketed on the screw mandrel C 20, and screw mandrel C 20 two ends are actively installed on screw mandrel A 2 and the screw mandrel B 24.Motor C 11 is fixed on the screw mandrel D 8 by gear F 9 and gear E 10, and feed screw nut D 7 is socketed on screw mandrel D8, and laser cutting head 6 is located on the feed screw nut D 7, and screw mandrel D 8 one ends are actively installed on the screw mandrel C 20.
The workpiece placement part: the workpiece standing part comprises workpiece holder 25, is located at button 27, backer's plate 29, clamping device 30 and location slide plate 31 on the workpiece holder 25, location slide plate 31 is actively installed on the workpiece holder 25, and slide plate 31 two ends, two location are provided with clamping device 30 in the middle of being respectively equipped with cylinder A 28, cylinder B 33, cylinder C 34 and cylinder D 36, location slide plate 31.
With reference to Fig. 4, described clamping device 30 comprises cam 38, connecting rod 39 and cylinder E 40, and cam 38 is fixed on the workpiece holder 25, and connecting rod 39 is connected on the cam 38, and cylinder E 40 and connecting rod 39 link together.
With reference to Fig. 3, described fixed mount mobile device 26 comprises lead rail axis 32 and slide block 35, and workpiece holder 25 and slide block 35 are fixed together, and slide block 35 is actively installed on the lead rail axis 32.
The course of work: during X-axis motor A 16 work, engagement by gear A 17 and gear B 18, drive axle A 5 and axle B 19 rotations, and then the engagement by helical gear A 4 and helical gear B 21 and helical gear C3 and helical gear D 22 again, drive feed screw nut A 1 and feed screw nut B 23 moving on screw mandrel A 2 and screw mandrel B 24, thereby drive whole Y-axis and the Z axle moves on X-direction.
During y-axis motor B 12 work,, drive feed screw nut C 14 and on screw mandrel C 20, move, on Y direction, move thereby drive whole Z axle by the engagement of gear C 13 and gear D 15.
During Z spindle motor C 11 work,, drive feed screw nut D7 and on screw mandrel D 8, move, on Z-direction, move thereby drive laser cutting head by the engagement of gear E 10 and gear F 9.
Workpiece holder 25 is used to place workpiece to be processed 37, and positions and fix.During place work piece 37, workpiece 37 is rested on backer's plate 29, and lean on mutually with the both sides of workpiece holder 25.Location, mobile afterwards both sides slide plate 31, when touching workpiece 37, start button 27, cylinder A 28, cylinder B 33, cylinder C 34 and cylinder D 36 work, thus fix location slide plate 31.Clamping device 30 work afterwards, cylinder E 40 promotes connecting rods 39, drive cam 38 and rotate, thereby clamping work pieces 37 is finished the location of workpiece 37 and fixing.
Workpiece holder 25 is installed on the slide block 35, moves on lead rail axis 32 by slide block 35, and workpiece holder 25 moves thereupon.When need are placed or are taken workpiece 37, workpiece holder 25 is shifted out machine, treat that workpiece 37 places after, workpiece holder 25 is moved into machines, begin processing work 37 afterwards.
Below the utility model is described in detail, the above only is one of the utility model preferred embodiment, when the practical range that can not limit the application, be that all equalizations of being done according to the application's scope change and modification, all should still belong in the utility model covering scope.

Claims (3)

1. vertical laser cutting machine comprises workpiece placement part, clamping device that laser cutting head part, workpiece standing part and fixed mount mobile device that motor, gear, screw mandrel, feed screw nut, axle, laser cutting head constitute constitute, it is characterized in that:
The laser cutting head part: screw mandrel A and screw mandrel B symmetrical parallel are provided with, and screw mandrel C two ends are located at respectively on screw mandrel A and the screw mandrel B, and screw mandrel D is located on the screw mandrel C, wherein form the mobile microscope carrier of an X-Y-Z axle between screw mandrel A and screw mandrel B and screw mandrel C and the screw mandrel D; Motor A is fixed between an A and the axle B by gear A and gear B, axle A and axle B are respectively by helical gear A engagement helical gear C, helical gear B engagement helical gear D is fixed on screw mandrel A and the screw mandrel B, feed screw nut A connects helical gear C and is socketed on the screw mandrel A, feed screw nut B connects helical gear D and is socketed on the screw mandrel B, motor B is fixed on the screw mandrel C by gear C and gear D, feed screw nut C connects gear D and is socketed on the screw mandrel C, screw mandrel C two ends are actively installed on screw mandrel A and the screw mandrel B, motor C is fixed on the screw mandrel D by gear F and gear E, feed screw nut D is socketed on screw mandrel D, laser cutting head is located on the feed screw nut D, and screw mandrel D one end is actively installed on the screw mandrel C
The workpiece placement part: the workpiece standing part comprises workpiece holder, is located at button, backer's plate, clamping device and location slide plate on the workpiece holder, the location slide plate is actively installed on the workpiece holder, and slide plate two ends, location are provided with cylinder, the centre is provided with clamping device.
2. vertical laser cutting machine according to claim 1 is characterized in that: described clamping device comprises cam, connecting rod and cylinder, and cam is fixed on the workpiece holder, and connecting rod is connected on the cam, and cylinder and connecting rod link together.
3. vertical laser cutting machine according to claim 1 is characterized in that: described fixed mount mobile device comprises lead rail axis and slide block, and workpiece holder and slide block are fixed together, and slide block is actively installed on the lead rail axis.
CN 201020026269 2010-01-07 2010-01-07 Vertical laser cutting machine Expired - Fee Related CN201632769U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 201020026269 CN201632769U (en) 2010-01-07 2010-01-07 Vertical laser cutting machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 201020026269 CN201632769U (en) 2010-01-07 2010-01-07 Vertical laser cutting machine

Publications (1)

Publication Number Publication Date
CN201632769U true CN201632769U (en) 2010-11-17

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ID=43077246

Family Applications (1)

Application Number Title Priority Date Filing Date
CN 201020026269 Expired - Fee Related CN201632769U (en) 2010-01-07 2010-01-07 Vertical laser cutting machine

Country Status (1)

Country Link
CN (1) CN201632769U (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104227233A (en) * 2013-06-24 2014-12-24 刘德云 Vertical shadow engraving machine of tombstones
CN110977161A (en) * 2019-11-13 2020-04-10 上海航天设备制造总厂有限公司 High-precision triaxial laser welding equipment
CN112719946A (en) * 2020-12-23 2021-04-30 古冉 Automatic positioning and cutting equipment for stainless steel railing of road and bridge

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104227233A (en) * 2013-06-24 2014-12-24 刘德云 Vertical shadow engraving machine of tombstones
CN110977161A (en) * 2019-11-13 2020-04-10 上海航天设备制造总厂有限公司 High-precision triaxial laser welding equipment
CN112719946A (en) * 2020-12-23 2021-04-30 古冉 Automatic positioning and cutting equipment for stainless steel railing of road and bridge

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Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
C17 Cessation of patent right
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20101117

Termination date: 20120107