CN109926730A - A kind of interactive mode laser cutting device - Google Patents

Abstract

The invention discloses a kind of interactive laser cutting devices, it is related to laser cutting device technical field, the interactive mode laser cutting device includes: main lathe bed, secondary lathe bed, first workbench, second workbench, secondary guide rail, main guide rail and transmission component, the main lathe bed and secondary lathe bed are fixed by splicing, the pair guide rail, main guide rail and transmission component combination are mounted on the main lathe bed and secondary lathe bed, wherein, first workbench is movably connected on the main guide rail, second workbench is flexibly connected on the side rails, the pair guide rail is located on the inside of the main guide rail, the transmission component respectively drives first workbench and the second workbench and carries out alternating movement on the main lathe bed and secondary lathe bed.By the position interaction of two workbench, feeding, blanking and processing simultaneously is realized, processing efficiency is higher, since the Z axis stroke of workbench is shorter, thus under same configuration, it is easier to obtain highest dynamic property and cut quality.

Description

A kind of interactive mode laser cutting device

Technical field

The present invention relates to laser cutting device technical field more particularly to a kind of interactive laser cutting devices.

Background technique

With optical-fiber laser cutting machine automatization level promoted, portions of client during the automated production of product, There is higher demand to functions such as laser cutting machine automatic loading/unloadings, if the loading and unloading in process need manually to have come At production efficiency can be greatly reduced, influences the production cycle.

In realizing process of the present invention, at least there are the following problems in the prior art for inventor's discovery: existing laser is cut Cutting mill can only all be processed one by one towards processed products, and loading and unloading need manually to complete, inefficiency.

Summary of the invention

In order to overcome the shortcomings of Related product in the prior art, the present invention proposes a kind of interactive laser cutting device, solution Certainly existing interactive laser cutting device the problem of processing efficiency is low.

The present invention provides a kind of interactive laser cutting devices, comprising: main lathe bed, secondary lathe bed, the first workbench, second Workbench, secondary guide rail, main guide rail and transmission component, the main lathe bed and secondary lathe bed are fixed by splicing, the pair guide rail, master Guide rail and transmission component combination are mounted on the main lathe bed and secondary lathe bed, wherein first workbench is movably connected in On the main guide rail, second workbench is flexibly connected on the side rails, and the pair guide rail is located in the main guide rail Side, the transmission component respectively drive first workbench and the second workbench and are handed on the main lathe bed and secondary lathe bed For movement.

In some embodiments, the transmission component includes driving motor, gear reducer, driving shaft, driving chain, auxiliary Sprocket wheel and drive sprocket, the driving shaft are mounted on the secondary lathe bed, and one end of the driving shaft connects the speed reducer, institute It states speed reducer to connect with the driving motor, the driving motor is used to provide the power of driving shaft rotation, and the speed reducer is used In the matching revolving speed between the driving motor and the driving shaft and transmitting torque；Two drive sprockets are separately mounted to On the driving shaft, multiple auxiliary sprocket wheels are separately mounted on the secondary lathe bed, the drive sprocket and the auxiliary chain Wheel is sequentially connected by the driving chain.

In some embodiments, the driving shaft includes two bearings, and is connected by shaft coupling, described two described Driving shaft is separately mounted to the two sides of the secondary lathe bed, connect the speed reducer on one of them described driving shaft.

In some embodiments, the two sides of first workbench are machined with multiple first pulley components and respectively One chain traction block, the first pulley component are installed on the main guide rail, and the first chain traction block is connected to described On driving chain, the rotation of the driving chain drives first workbench to slide along the main guide rail in turn.

In some embodiments, it is provided with the first adjusting screw on the first chain traction block, it is described for adjusting The relative position connected between first chain traction block and the driving chain.

In some embodiments, the two sides of second workbench are machined with multiple second pulley components and respectively Two chain traction blocks, on the side rails, the second chain traction block is connected to described for the second pulley component installing On driving chain, the rotation of the driving chain drives second workbench to slide along the secondary guide rail in turn.

In some embodiments, the second adjusting screw and pulley block, institute are provided on the second chain traction block The second adjusting screw is stated to be used to adjust the relative position connected between the second chain traction block and the driving chain, it is described Pulley block and the secondary guide rail contact simultaneously slide on the side rails.

In some embodiments, the secondary guide rail includes the first guide rail, the second guide rail, third guide rail, the 4th guide rail, In, first guide rail, second guide rail and the third guide rail are integrally formed, and the 4th guide rail, which is located at described second, leads Above rail.

In some embodiments, first guide rail is the guide rail with decline elongated end, and the decline elongated end connects The lower end in first rail body part is connect, the decline elongated end of first guide rail is connect with second guide rail, and Its bottom end and second guide rail are located at sustained height；The third guide rail is simultaneous with rising elongated end and decline elongated end Guide rail, it is described rise elongated end and decline elongated end be connected to the top and bottom of third rail body part, it is described The rising elongated end of third guide rail and the main guide rail are located at sustained height, the decline elongated end of the third guide rail and described the The connection of two guide rails, and its bottom end and second guide rail are located at sustained height；4th guide rail includes upper part and lower end Part, the upper part of the 4th guide rail and the main guide rail are located at sustained height, the end portion of the 4th guide rail and The main part of first guide rail and the main part of third guide rail are located at sustained height.

In some embodiments, the interactive laser cutting device further includes gantry component and cover member；Institute Gantry component is stated across being mounted on the main lathe bed, the laser for be cut by laser operation is installed on gantry component and is cut Cut head；The cover member is sheet metal structural, and the periphery of the main lathe bed is arranged in.

Compared with prior art, the present invention has the following advantages:

Interactive mode laser cutting device of the present invention with the reciprocal motion of slope climbing type, makes two contour workbench Two workbench can move toward one another and alternate position, and when a workbench is laser machined wherein, another work Platform can carry out feeding, by the position interaction of two workbench, feeding, blanking and processing simultaneously be realized, due to the process It is completed without manually, processing efficiency is higher, since the Z axis stroke of workbench is shorter, thus under same configuration, it is easier to Obtain highest dynamic property and cut quality.

Detailed description of the invention

It to describe the technical solutions in the embodiments of the present invention more clearly, below will be to needed in the embodiment Attached drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, for ability For the those of ordinary skill of domain, without creative efforts, it can also be obtained according to these attached drawings other attached Figure.

Fig. 1 is the structural schematic diagram of interactive laser cutting device of the present invention；

Fig. 2 is the connection schematic diagram of the first workbench and the second workbench of the present invention；

Fig. 3 is the enlarged diagram of region S1 in Fig. 2；

Fig. 4 is the enlarged diagram of region S2 in Fig. 2；

Fig. 5 is the enlarged diagram of region S3 in Fig. 2；

Fig. 6 is the position view of transmission component of the present invention and main guide rail and secondary guide rail；

Fig. 7 is the position view of main guide rail of the present invention and secondary guide rail；

Fig. 8-Figure 11 is respectively the schematic diagram of first workbench and the second workbench different working condition.

Description of symbols: the main lathe bed of 1-, 2- pair lathe bed, the first workbench of 3-, the second workbench of 4-, 5- pair guide rail, 6- Main guide rail, the gantry 7- component, 8- transmission component, 9- cover member, 31- first pulley component, the first chain traction of 32- block, 320- first adjusts screw, 41- second pulley component, the second chain traction of 42- block, 420- second and adjusts screw, 421- pulley Block, the first guide rail of 51-, the second guide rail of 52-, 53- third guide rail, the 4th guide rail of 54-, 81- driving motor, 82- speed reducer, 83- Driving shaft, 84- shaft coupling, 85- driving chain, 86- assist sprocket wheel, 87- drive sprocket, 88- chain elasticity bolt.

Specific embodiment

In order to enable those skilled in the art to better understand the solution of the present invention, below in conjunction in the embodiment of the present invention Attached drawing, technical scheme in the embodiment of the invention is clearly and completely described.Obviously, described embodiment is only A part of the embodiment of the present invention gives presently preferred embodiments of the present invention instead of all the embodiments in attached drawing.The present invention can To realize in many different forms, however it is not limited to embodiment described herein, on the contrary, provide the mesh of these embodiments Be to make the disclosure of the present invention more thorough and comprehensive.Based on the embodiments of the present invention, the common skill in this field Art personnel every other embodiment obtained without creative efforts belongs to the model that the present invention protects It encloses.

Unless otherwise defined, all technical and scientific terms used herein and belong to technical field of the invention The normally understood meaning of technical staff is identical.Term as used herein in the specification of the present invention is intended merely to description tool The purpose of the embodiment of body, it is not intended that in the limitation present invention.In description and claims of this specification and above-mentioned attached drawing Term " includes " and " having " and their any deformations, it is intended that cover and non-exclusive include.Such as contain a system The process, method, system, product or equipment of column step or unit are not limited to listed step or unit, but optional Ground further includes the steps that not listing or unit, or optionally further comprising intrinsic for these process, methods, product or equipment Other step or units.

Referenced herein " embodiment " is it is meant that a particular feature, structure, or characteristic described can wrap in conjunction with the embodiments Containing at least one embodiment of the present invention.Each position in the description occur the phrase might not each mean it is identical Embodiment, nor the independent or alternative embodiment with other embodiments mutual exclusion.Those skilled in the art explicitly and Implicitly understand, embodiment described herein can be combined with other embodiments.

As shown in fig.1, the interactive mode laser cutting device includes main lathe bed 1, secondary lathe bed 2, the first workbench 3, the Two workbench 4, secondary guide rail 5, main guide rail 6 and transmission component 8, the main lathe bed 1 is fixed with secondary lathe bed 2 by splicing, described Secondary guide rail 5, main guide rail 6 and the combination of transmission component 8 are mounted on the main lathe bed 1 and secondary lathe bed 2, wherein first work Make platform 3 to be movably connected on the main guide rail 6, second workbench 4 is movably connected on the secondary guide rail 5, and the pair is led Rail 5 is located at 6 inside of main guide rail, and the transmission component 8 respectively drives first workbench 3 and the second workbench 4 in institute It states and carries out alternating movement on main lathe bed 1 and secondary lathe bed 2.

The interactive mode laser cutting device further includes gantry component 7 and cover member 9；Gantry component 7 across It is mounted on the main lathe bed 1, the laser cutting head for carrying out laser cutting operation, the dragon is installed on gantry component 7 The movement mechanism for driving the laser cutting head to move in Y-axis and Z axis is provided in door component 7, and gantry component 7 passes through Drag chain moves on the main lathe bed 1 along X-axis, moves freely the laser cutting head to production in tri- axis direction of XYZ Product are laser machined；The cover member 9 is sheet metal structural, the periphery of the main lathe bed 1 is arranged in, to maintain the master The processing environment of 1 position of lathe bed avoids by external interference, while protecting the safety of operator.

As shown in fig.2, be the connection schematic diagram of the first workbench 3 of the present invention and the second workbench 4, respectively in connection with Shown in Fig. 3-Fig. 5, Fig. 3 is the enlarged diagram of region S1 in Fig. 2, and Fig. 4 is the enlarged diagram of region S2 in Fig. 2, and Fig. 5 is figure The enlarged diagram of region S3 in 2；

The transmission component 8 include driving motor 81, speed reducer 82, driving shaft 83, driving chain 85, auxiliary sprocket wheel 86 with And drive sprocket 87, the driving shaft 83 are mounted on the secondary lathe bed 2, one end of the driving shaft 83 connects the speed reducer 82, the speed reducer 82 is connect with the driving motor 81, and the driving motor 81 is used to provide the power of the rotation of driving shaft 83, The speed reducer 82 is used to match revolving speed and transmitting torque between the driving motor 81 and the driving shaft 83；Described in two Drive sprocket 87 is separately mounted on the driving shaft 83, and multiple auxiliary sprocket wheels 86 are separately mounted on the secondary lathe bed 2, The drive sprocket 87 is sequentially connected with the auxiliary sprocket wheel 86 by the driving chain 85.

Optionally, in embodiments of the present invention, the driving shaft 83 includes two bearings, and is connected by shaft coupling 84, Described two driving shafts 83 are separately mounted to the two sides of the secondary lathe bed 2, connect institute on one of them described driving shaft 83 State speed reducer 82.

The two sides of first workbench 3 are machined with multiple first pulley components 31 and the first chain traction block respectively 32, the first pulley component 31 is installed on the main guide rail 6, and the first chain traction block 32 is then connected to the transmission On chain 85, the rotation of the driving chain 85 drives first workbench 3 to slide along the main guide rail 6 in turn；Optionally, It is provided with the first adjusting screw 320 on the first chain traction block 32, for adjusting the first chain traction block 32 and institute State the relative position connected between driving chain 85.

The two sides of second workbench 4 are machined with multiple second pulley components 41 and the second chain traction block respectively 42, the second pulley component 41 is installed on the secondary guide rail 5, and the second chain traction block 42 is then connected to the transmission On chain 85, the rotation of the driving chain 85 drives second workbench 4 to slide along the secondary guide rail 5 in turn；Optionally, The second adjusting screw 420 and pulley block 421 are provided on the second chain traction block 42, described second adjusts screw 420 For adjusting the relative position connected between the second chain traction block 42 and the driving chain 85, the pulley block 421 It contacts with the secondary guide rail 5 and is slided on the secondary guide rail 5.

As shown in fig.6, being additionally provided with chain elasticity bolt 88, the chain elasticity bolt 88 on the auxiliary sprocket wheel 86 The elasticity being connect for adjusting the driving chain 85 with the auxiliary sprocket wheel 86.

As shown in fig.7, for the position view of main guide rail 6 of the present invention and secondary guide rail 5, the pair guide rail 5 includes First guide rail 51, the second guide rail 52, third guide rail 53, the 4th guide rail 54, wherein first guide rail 51, second guide rail 52 is integrally formed with the third guide rail 53, and the 4th guide rail 54 is located at 52 top of the second guide rail；First guide rail 51 be the guide rail with decline elongated end, and the decline elongated end is connected to the lower end of 51 main part of the first guide rail, institute The decline elongated end for stating the first guide rail 51 is connect with second guide rail 52, and its bottom end and second guide rail 52 be located at it is same Highly；The third guide rail 53 is simultaneous with the guide rail for rising elongated end and decline elongated end, and the rising elongated end is under Drop elongated end is connected to the top and bottom of 53 main part of third guide rail, the rising elongated end of the third guide rail 53 with The main guide rail 6 is located at sustained height, and the decline elongated end of the third guide rail 53 is connect with second guide rail 52, and its bottom End is located at sustained height with second guide rail 52；4th guide rail 54 include upper part and end portion, the described 4th The upper part of guide rail 54 and the main guide rail 6 are located at sustained height, the end portion and described first of the 4th guide rail 54 The main part of guide rail 51 and the main part of third guide rail 53 are located at sustained height.

Refering to shown in Fig. 8-Figure 11, the signal of respectively described first workbench 3 and 4 different working condition of the second workbench Figure, says below in conjunction with Fig. 8-Figure 11 course of work of the first workbench 3 and the second workbench 4 described in the embodiment of the present invention It is bright:

When original state, second workbench 4 is located at the upper part of the 4th guide rail 54, and second chain is led Draw the main part that block 42 is located at first guide rail 51；

After driving motor 81 starts, 85 turns of the driving chain is driven by the drive sprocket 87 on the driving shaft 83 Dynamic, the driving chain 85 drives first workbench 3 and the second workbench 4 to move along opposite direction in turn；

First workbench 3 is moved to the initial position where the second workbench 4, second work by initial position The second pulley component 41 of platform 4 is successively by the upper part of the 4th guide rail 54, the end portion of the 4th guide rail 54 and the After the main part of three guide rails 53, the rising elongated end of third guide rail 53, the second chain of second workbench 4 are finally moved to Guiding piece 42 successively passes through the main part of first guide rail 51, the decline elongated end of the first guide rail 51, the second guide rail 52 After the decline elongated end of third guide rail 53, the main part of third guide rail 53 is finally moved to, at this time second workbench 4 The initial position where the first workbench 3 is moved to by initial position, to complete the position interaction of two workbench；

After completing to laser machine and carry out feeding and blanking respectively, above-mentioned first workbench 3 and second workbench 4 It is returned, is repeated the above steps until all processing operations are completed with original route.

Interactive mode laser cutting device of the present invention with the reciprocal motion of slope climbing type, makes two contour workbench Two workbench can move toward one another and alternate position, and when a workbench is laser machined wherein, another work Platform can carry out feeding, by the position interaction of two workbench, feeding, blanking and processing simultaneously be realized, due to the process It is completed without manually, processing efficiency is higher, since the Z axis stroke of workbench is shorter, thus under same configuration, it is easier to Obtain highest dynamic property and cut quality.

The above is only the embodiment of the present invention, are not intended to limit the scope of the patents of the invention, although with reference to the foregoing embodiments Invention is explained in detail, still can be to aforementioned each specific reality for coming for those skilled in the art It applies technical solution documented by mode to modify, or equivalence replacement is carried out to part of technical characteristic.It is all to utilize this The equivalent structure that description of the invention and accompanying drawing content are done directly or indirectly is used in other related technical areas, similarly Within the invention patent protection scope.

Claims (10)

1. a kind of interactive mode laser cutting device characterized by comprising main lathe bed, secondary lathe bed, the first workbench, the second work Make platform, secondary guide rail, main guide rail and transmission component, the main lathe bed and pair lathe bed are fixed by splicing, and the pair guide rail is dominated Rail and transmission component combination are mounted on the main lathe bed and secondary lathe bed, wherein first workbench is movably connected in institute It states on main guide rail, second workbench is flexibly connected on the side rails, and the pair guide rail is located on the inside of the main guide rail, The transmission component respectively drives first workbench and the second workbench and is replaced on the main lathe bed and secondary lathe bed Movement.

2. interactive mode laser cutting device according to claim 1, it is characterised in that: the transmission component includes driving electricity Machine, speed reducer, driving shaft, driving chain, auxiliary sprocket wheel and drive sprocket, the driving shaft are mounted on the secondary lathe bed, institute The one end for stating driving shaft connects the speed reducer, and the speed reducer is connect with the driving motor, and the driving motor is for mentioning For the power of driving shaft rotation, the speed reducer is used to match revolving speed and transmitting between the driving motor and the driving shaft Torque；Two drive sprockets are separately mounted on the driving shaft, and multiple auxiliary sprocket wheels are separately mounted to the pair On lathe bed, the drive sprocket is sequentially connected with the auxiliary sprocket wheel by the driving chain.

3. interactive mode laser cutting device according to claim 2, it is characterised in that: the driving shaft includes two whole Axis, and being connected by shaft coupling, described two driving shafts are separately mounted to the two sides of the secondary lathe bed, described in one of them The speed reducer is connected on driving shaft.

4. interactive mode laser cutting device according to claim 2, it is characterised in that: the two sides of first workbench point It is not machined with multiple first pulley components and the first chain traction block, the first pulley component is installed in the main guide rail On, the first chain traction block is connected on the driving chain, and the rotation of the driving chain drives described first in turn Workbench is slided along the main guide rail.

5. interactive mode laser cutting device according to claim 4, it is characterised in that: set on the first chain traction block It is equipped with the first adjusting screw, for adjusting the relative position connected between the first chain traction block and the driving chain.

6. interactive mode laser cutting device according to claim 2, it is characterised in that: the two sides of second workbench point It is not machined with multiple second pulley components and the second chain traction block, the second pulley component is installed in the secondary guide rail On, the second chain traction block is connected on the driving chain, and the rotation of the driving chain drives described second in turn Workbench is slided along the secondary guide rail.

7. interactive mode laser cutting device according to claim 6, it is characterised in that: set on the second chain traction block It is equipped with the second adjusting screw and pulley block, the second adjusting screw is for adjusting the second chain traction block and the biography The relative position connected between dynamic chain, the pulley block and the pair guide rail contact simultaneously slide on the side rails.

8. interactive mode laser cutting device according to claim 1, it is characterised in that: the pair guide rail is led including first Rail, the second guide rail, third guide rail, the 4th guide rail, wherein first guide rail, second guide rail and the third guide rail one Body forming, the 4th guide rail are located above second guide rail.

9. interactive mode laser cutting device according to claim 8, it is characterised in that: first guide rail is with decline The guide rail of elongated end, the decline elongated end are connected to the lower end of first rail body part, under first guide rail Drop elongated end is connect with second guide rail, and its bottom end and second guide rail are located at sustained height；The third guide rail is Simultaneous with rising elongated end and declining the guide rail of elongated end, the rising elongated end and decline elongated end are connected to third The top and bottom of rail body part, the rising elongated end and the main guide rail of the third guide rail are located at sustained height, institute The decline elongated end for stating third guide rail is connect with second guide rail, and its bottom end and second guide rail are located at sustained height； 4th guide rail includes upper part and end portion, and upper part and the main guide rail of the 4th guide rail are located at same Highly, the end portion of the 4th guide rail is located at the main part of first guide rail and the main part of third guide rail Sustained height.

10. -9 described in any item interactive laser cutting devices according to claim 1, it is characterised in that: described interactive sharp Light cutter device further includes gantry component and cover member；Gantry component is described across being mounted on the main lathe bed The laser cutting head for carrying out laser cutting operation is installed on the component of gantry；The cover member is sheet metal structural, is arranged in institute State the periphery of main lathe bed.