CN108581249A - A kind of workbench of high-efficient automatic laser cutting machine - Google Patents

Abstract

A kind of workbench of high-efficient automatic laser cutting machine belongs to technical field, including main lathe bed, hydraulic elevator platform, dust removal assembly, first material Cutting platform, second material Cutting platform, drive component and transmission component；Wherein, the main lathe bed be equipped with front reduction gear sensor, preceding stop sensor, rear stop sensor, rear deceleration sensor, on level sensor, intermediate sensor and under in level sensor.The present invention is divided into the main lathe bed of two big structures and hydraulic elevator platform part, drive component and transmission component are set on main lathe bed, workspace for two workbench to be sent to laser cutting machine, dust is excessive in laser cutting in order to prevent, and dust removal assembly is additionally provided on main lathe bed；By the way that sensor and sensor chip are arranged on main lathe bed, it can carry out first material Cutting platform when transmission component transmits first material Cutting platform either second material Cutting platform or second material Cutting platform accurately positions.

Description

A kind of workbench of high-efficient automatic laser cutting machine

Technical field

The invention belongs to technical fields, and in particular, to a kind of work of high-efficient automatic laser cutting machine Platform.

Background technology

Pallet changer is a kind of auxiliary body of laser cutting machine, and major function is to reduce to reload the stand-by period, is improved The efficiency of laser cutting machine.Workspace workbench is for placing rapidoprint, and Accreditation Waiting Area workbench is for placing material to be processed Expect, the material on the workbench of workspace needs to exit workbench and do raw material with Accreditation Waiting Area workbench to exchange after processing is completed.

With rapid industrial development, client also proposed requirements at the higher level to processing request, be carried to machine stability and efficiency Higher requirement is gone out.We are by the research to lifting platform herein, develop more efficient, the more laser cutting machine of stability Workbench.

Invention content

Goal of the invention：The object of the present invention is to provide a kind of workbench of high-efficient automatic laser cutting machine, solve sharp Lifting pallet changer inefficiency, unstable problem in light cutting.

Technical solution：The present invention provides a kind of workbench of high-efficient automatic laser cutting machine, including main lathe bed, hydraulic pressure Lifting platform, dust removal assembly, first material Cutting platform, second material Cutting platform, drive component and transmission component, the hydraulic pressure Lifting platform is arranged in one end of main lathe bed, and the dust removal assembly is arranged on main lathe bed, the first material Cutting platform and the Two material Cutting platforms can be placed on main lathe bed or hydraulic elevator platform, and the driving component is arranged on main lathe bed, the biography Dynamic component is arranged on the inner wall of main lathe bed side；Wherein, the main lathe bed is equipped with front reduction gear sensor, preceding stopping senses Device, rear stop sensor, rear deceleration sensor, on level sensor, intermediate sensor and under in level sensor, the front reduction gear Sensor, preceding stop sensor, rear stop sensor and rear deceleration sensor are arranged on the inner wall of main lathe bed, described in place Sensor, intermediate sensor and under level sensor according to from top to bottom be set in sequence in main lathe bed close to hydraulic elevator platform End.The workbench of the high-efficient automatic laser cutting machine of the present invention, is divided into the main lathe bed of two big structures and hydraulic elevator platform part, Drive component and transmission component, the workspace for two workbench to be sent to laser cutting machine, liquid are set on main lathe bed Pressure lifting platform part is lifted when two workbench exchange, and dust is excessive in laser cutting in order to prevent, on main lathe bed It is additionally provided with dust removal assembly, dust can be discharged in time.

Further, the workbench of above-mentioned high-efficient automatic laser cutting machine, the hydraulic elevator platform include lifting platform Pedestal, shears, driving mechanism and directive wheel, the shears are arranged above lifting platform pedestal, the driving mechanism It is arranged on lifting platform pedestal, and shears can be driven to rise or decline, the directive wheel is arranged in the side of shears On wall, and directive wheel can keep shears to rise or decline；Wherein, the driving mechanism includes hydraulic cylinder, front and back connects Bar, forward pass swing arm, rear transmission arm, preceding link joint and after link joint, the hydraulic cylinder is fixed on lifting platform pedestal, described One end of front-rear linkage and the external part of hydraulic cylinder connect, and the junction of the front-rear linkage and hydraulic cylinder links pass equipped with preceding Section, end of the front-rear linkage far from hydraulic cylinder link joint after being equipped with, the forward pass swing arm passes through preceding link joint, described Joint is linked after transmission arm passes through afterwards.Moving up and down for shears is carried out by driving mechanism, and keeps rising by directive wheel Drop bracket can only move up and down in lifting process, this self-powered platform stable movement, reliable operation, the driving machine of setting Structure is used as power source by hydraulic cylinder, and the stretching or withdrawal of hydraulic cylinder can push front-rear linkage to move, before front-rear linkage Link joint before being converted into is moved afterwards and does synchronous circular motion with rear link joint, therefore drives forward pass swing arm and rear transmission arm It synchronizes and moves in a circle.

Further, the workbench of above-mentioned high-efficient automatic laser cutting machine, the both ends of the forward pass swing arm are with after The both ends of transmission arm are respectively equipped with rotating crank arm, and the rotating crank arm is equipped with support wheel, and the shears setting is being propped up On support wheel.Forward pass swing arm and rear transmission arm are cylindric, and are equipped with rotation at the both ends of forward pass swing arm and rear transmission arm It cranks arm, four rotating crank arms is set, be used for the elevating movement of shears.

Further, the workbench of above-mentioned high-efficient automatic laser cutting machine, the lifting platform pedestal is close to directive wheel Side be equipped with guide post, the directive wheel is fitted on the outer wall of guide post.The guide post cooperation directive wheel of setting can be protected Holding shears can only move up and down.

Further, the workbench of above-mentioned high-efficient automatic laser cutting machine, the dust removal assembly include cleaning shaft, Dust import, dust outlet and dust catcher, the cleaning shaft are arranged along main lathe bed length direction on the bottom plate of main lathe bed, institute Dust import to be stated to be arranged on cleaning shaft two side, the dust outlet is arranged on main lathe bed, and the one of the dust outlet End is connect with cleaning shaft, and the other end of dust outlet is connect with dust catcher.It is logical to carry out the dust generated in cutting process It crosses dust import and enters cleaning shaft, eventually enter into deduster dedusting, avoid being directly discharged to pollute environment in air.

Further, the workbench of above-mentioned high-efficient automatic laser cutting machine, the driving component include driving motor, Speed reducer and shaft coupling, the driving motor and speed reducer are fixed on main lathe bed, and driving motor is connect with speed reducer, institute The one end for stating shaft coupling is connect with speed reducer, and the other end of shaft coupling is connect with transmission component.

Further, the workbench of above-mentioned high-efficient automatic laser cutting machine, the transmission component include the first sprocket wheel, Second sprocket wheel, third sprocket wheel, the 4th sprocket wheel, transmission chain and change gear, first sprocket wheel, the second sprocket wheel, third sprocket wheel and the 4th Sprocket wheel is arranged on the inner wall of main lathe bed, and the transmission chain is set in the first sprocket wheel, the second sprocket wheel, third sprocket wheel and the 4th chain On wheel, the change gear is arranged on transmission chain, and the third sprocket wheel is connect with shaft coupling.It is flat by change gear and first material cutting Platform is connected with second material Cutting platform, and first material Cutting platform or second material cutting are dragged under the rotation of transmission chain Platform moves.

Further, the workbench of above-mentioned high-efficient automatic laser cutting machine, the transmission chain are equipped with the first sensing Device sensing chip and second sensor sensing chip.The sensing chip of setting is sensed with front reduction gear sensor, preceding stop sensor, rear stopping Device, rear deceleration sensor, on level sensor, intermediate sensor and under coordinate in level sensor, it is flat to carry out first material cutting The positioning of position in platform or second material Cutting platform motion process.

Further, the workbench of above-mentioned high-efficient automatic laser cutting machine, the first material Cutting platform and Two material Cutting platforms are equipped with guidance set close to the side of main lathe bed, and the guidance set is connect with transmission component.Guiding group Part can either second material Cutting platform connect progress first material Cutting platform or the second object with first material Cutting platform Expect the transmission of Cutting platform.

Further, the workbench of above-mentioned high-efficient automatic laser cutting machine, the main lathe bed include lower plate, first Side plate, the second side plate and one group of intermediate support plate, first side plate and the second side plate are fixed on lower plate, the intermediate branch Fagging is disposed in parallel relation to one another between the first side plate and the second side plate, and the lower end of intermediate support plate is fixed on lower plate On.By the main lathe bed structure of setting, stable support is provided for entirety laser cutting machine.

Above-mentioned technical proposal can be seen that the present invention and have the advantages that：High-efficient automatic of the present invention swashs The workbench of light cutting machine, reasonable in design, easy to use, adaptability is good, passes through first material Cutting platform or second Material Cutting platform constantly carries out feeding exchange, improves the working efficiency of laser cutting machine, and be provided with dust pelletizing system, reaches Environmental requirement is arrived, by the way that front reduction gear sensor, preceding stop sensor, rear stop sensor, rear deceleration are arranged on main lathe bed Sensor, on level sensor, intermediate sensor, under level sensor, first sensor sensing chip and second sensor incude It is flat to carry out first material cutting when transmission component transmits first material Cutting platform or second material Cutting platform for piece Platform or second material Cutting platform accurately position.

Description of the drawings

Fig. 1 is the overall structure diagram of the workbench of high-efficient automatic laser cutting machine of the present invention；

Fig. 2 is the structural schematic diagram of hydraulic elevator platform of the present invention；

Fig. 3 is the structural schematic diagram of main lathe bed of the present invention；

Fig. 4-7 is the structural schematic diagram of dust removal assembly of the present invention；

Fig. 8 is the overall structure diagram of main lathe bed of the present invention；

Fig. 9 is the partial enlarged view of main lathe bed of the present invention；

Figure 10 is the front view of main lathe bed of the present invention；

Figure 11 is the sectional view of main lathe bed of the present invention；

Figure 12-14 is the partial enlarged view of Figure 11；

Figure 15 is the structural schematic diagram of hydraulic elevator platform of the present invention；

Figure 16 is the structural schematic diagram of lifting platform pedestal and driving mechanism of the present invention；

Figure 17 is the structural schematic diagram in upper raise-position when hydraulic elevator platform of the present invention is applied；

Figure 18 is the structural schematic diagram in lower decrease when hydraulic elevator platform of the present invention is applied；

Figure 19 is the structural schematic diagram of main lathe bed and hydraulic elevator platform of the present invention；

Figure 20 is the vertical view of main lathe bed and hydraulic elevator platform of the present invention；

Figure 21 is the partial enlarged view at A in Figure 19 of the present invention；

Figure 22 is the partial enlarged view at B in Figure 20 of the present invention；

Figure 23 is the front view of Figure 22 of the present invention；

Figure 24-26 is the structural representation of the workbench exchange process of high-efficient automatic laser cutting machine of the present invention.

In figure：Main lathe bed 10, lower plate 101, the first side plate 102, the second side plate 103, intermediate support plate 104, first are led Rail 105, lifting platform pedestal 1, outer framework 11, the first connecting pole 12, the second connecting pole 13, reinforcing prop 14, rises hydraulic elevator platform 20 Bracket 2, driving mechanism 3, hydraulic cylinder 31, front-rear linkage 32, forward pass swing arm 33, rear transmission arm 34, preceding link joint 35, rear chain drop Connect joint 36, rotating crank arm 37, support wheel 38, the second guide rail 39, third guide rail 310, directive wheel 4, guide post 5, on pass in place Sensor 51, lower sensors in place 52, fixing sleeve 6, reinforcing rib 7, dust removal assembly 30, cleaning shaft 301, dust import 302, dust Outlet 303, first material Cutting platform 40, second material Cutting platform 50, drive component 60, driving motor 601, speed reducer 602, shaft coupling 603, transmission component 70, the first sprocket wheel 701, the second sprocket wheel 702, third sprocket wheel 703, the 4th sprocket wheel 704, transmission Chain 705, change gear 706, first sensor sensing chip 707, second sensor sensing chip 708, front reduction gear sensor 901, preceding stopping Sensor 902, rear stop sensor 903, rear deceleration sensor 904, on level sensor 905, intermediate sensor 906, under Level sensor 907, lower guide pad 909, guidance set 80, the first connecting plate 801, the second connecting plate 802, is hung upper guide pad 908 Take turns guide groove 803.

Specific implementation mode

The embodiment of the present invention is described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning to end Same or similar label indicates same or similar element or element with the same or similar functions.Below with reference to attached The embodiment of figure description is exemplary, it is intended to for explaining the present invention, and is not considered as limiting the invention.

In the description of the present invention, it is to be understood that, term "center", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", " clockwise ", " inverse The orientation or positional relationship of the instructions such as hour hands " is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description originally Invention and simplified description, do not indicate or imply the indicated device or element must have a particular orientation, with specific side Position construction and operation, therefore be not considered as limiting the invention.

In addition, term " first ", " second " are used for description purposes only, it is not understood to indicate or imply relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more this feature.In the description of the present invention, unless otherwise indicated, the meaning of " plurality " is two It is a or more than two, unless otherwise restricted clearly.

In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " fixation " etc. Term shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can be machine Tool connects, and can also be electrical connection；It can be directly connected, can also can be indirectly connected through an intermediary two members Connection inside part.For the ordinary skill in the art, above-mentioned term can be understood in this hair as the case may be Concrete meaning in bright.

In the present invention unless specifically defined or limited otherwise, fisrt feature the "upper" of second feature or "lower" It may include that the first and second features are in direct contact, can also not be to be in direct contact but pass through it including the first and second features Between other characterisation contact.Moreover, fisrt feature second feature " on ", " top " and " above " include first special Sign is right over second feature and oblique upper, or is merely representative of fisrt feature level height and is higher than second feature.Fisrt feature exists Second feature " under ", " lower section " and " following " include fisrt feature immediately below second feature and obliquely downward, or be merely representative of Fisrt feature level height is less than second feature.

Embodiment

The workbench of high-efficient automatic laser cutting machine as shown in Figs. 1-3, including main lathe bed 10, hydraulic elevator platform 20, Dust removal assembly 30, first material Cutting platform 40, second material Cutting platform 50, drive component 60 and transmission component 70, it is described Hydraulic elevator platform 20 is arranged in one end of main lathe bed 10, and the dust removal assembly 30 is arranged on main lathe bed 10, the first material Cutting platform 40 and second material Cutting platform 50 can be placed on main lathe bed 10 or hydraulic elevator platform 20, the driving component 60 It is arranged on main lathe bed 10, the transmission component 70 is arranged on the inner wall of 10 side of main lathe bed；Wherein, on the main lathe bed 10 Equipped with front reduction gear sensor 901, preceding stop sensor 902, rear stop sensor 903, rear deceleration sensor 904, upper biography in place Sensor 905, intermediate sensor 906 and under in level sensor 907, the front reduction gear sensor 901, preceding stop sensor 902, after Stop sensor 903 and rear deceleration sensor 904 are arranged on the inner wall of main lathe bed 10, it is described in level sensor 905, intermediate Sensor 906 and under level sensor 907 according to from top to bottom be set in sequence in main lathe bed 10 close to hydraulic elevator platform 20 End.On the inner wall of main lathe bed 10 upper guide pad 908 and lower guide pad 909 are additionally provided with close to one end of hydraulic elevator platform 20. Also, main lathe bed 10 includes lower plate 101, the first side plate 102, the second side plate 103 and one group of intermediate support plate 104, and described the Side plate 102 and the second side plate 103 are fixed on lower plate 101, and the intermediate support plate 104 is disposed in parallel relation to one another in the first side Between plate 102 and the second side plate 103, and the lower end of intermediate support plate 104 is fixed on lower plate 101, wherein main lathe bed 10 inner wall both sides are equipped with the first guide rail 105, are slided to carry out first material Cutting platform 40 and second material Cutting platform 50 It is dynamic.

Hydraulic elevator platform 20 as shown in figures 15-18 includes lifting platform pedestal 1, shears 2, driving mechanism 3 and is oriented to Wheel 4, the shears 2 are arranged above lifting platform pedestal 1, and the driving mechanism 3 is arranged on lifting platform pedestal 1, and can Shears 2 is driven to rise or decline, the directive wheel 4 is arranged on the side wall of shears 2, and directive wheel 4 can be protected It holds shears 2 to rise or decline, lifting platform pedestal 1 is equipped with guide post 5 close to the side of directive wheel 4, and the directive wheel 4 pastes It closes on the outer wall of guide post 5, and the junction of guide post 5 and lifting platform pedestal 1 is equipped with reinforcing rib 7.Wherein, driving mechanism 3 include hydraulic cylinder 31, front-rear linkage 32, forward pass swing arm 33, rear transmission arm 34, preceding link joint 35 and rear link joint 36, institute It states hydraulic cylinder 31 to be fixed on lifting platform pedestal 1, one end of the front-rear linkage 32 is connect with the external part of hydraulic cylinder 31, described The junction of front-rear linkage 32 and hydraulic cylinder 31 links joint 35, end of the front-rear linkage 32 far from hydraulic cylinder 31 equipped with preceding Joint 36 is linked after being equipped with, the forward pass swing arm 33 passes through preceding link joint 35, and the both ends of forward pass swing arm 33 extend to The edge of lifting platform pedestal 1, the rear transmission arm 34 links joint 36 after passing through, and the both ends of rear transmission arm 34 extend To the edge of lifting platform pedestal 1.The both ends of forward pass swing arm 33 and the both ends of rear transmission arm 34 are respectively equipped with rotating crank arm 37.Rotating crank arm 37 is equipped with support wheel 38, and the shears 2 is arranged on support wheel 38.Forward pass swing arm 33 and rear transmission Arm 34 is equipped with one group of fixing sleeve 6, and the fixing sleeve 6 is set on the outer wall of forward pass swing arm 33 and rear transmission arm 34, and solid Surely set 6 is fixed on lifting platform pedestal 1.In addition, lifting platform pedestal 1 includes 11, one group of first connecting pole 12 of outer framework and one group Second connecting pole 13, first connecting pole, 12 and second connecting pole 13 are vertically arranged in outer framework 11, on outer framework 11 also Equipped with reinforcing prop 14.In addition, lifting platform pedestal 1 is equipped with one group of lifting lug.Also, the inner wall of hydraulic elevator platform 20 is equipped with second Guide rail 39 and third guide rail 310.Upper sensors in place 51 and lower sensors in place 52 are additionally provided on hydraulic elevator platform 20.

On the basis of above structure, the operation principle of the raising and lowering of this hydraulic platform is：Lifting platform Pedestal 1 plays a supportive role, and shears 2 holds up cutting babinet and lifted, and directive wheel 4 is mounted on shears 2, makes lifting Bracket 2 can only move up and down in lifting process, and shears 2 is placed on four support wheels 38, form 4 points of supports, Preceding link joint 35 and forward pass swing arm 33 link, rear to link joint 36 and the link of rear transmission arm 34, preceding link joint 35 and rear chain It connects joint 36 to connect by front-rear linkage 32, preceding link joint 35 is connected through a screw thread with hydraulic cylinder 31, when hydraulic cylinder 31 When cylinder rod is in retracted position, four rotating crank arms 37 are in upper, and shears 2 is in upper therewith at this time；Work as hydraulic cylinder When 31 cylinder rods are in extended position, link joint 35 moves in a circle before hydraulic cylinder 31 drives, and linking joint 36 after corresponding exists It also moves in a circle under the action of front-rear linkage 32, since synchronous circumference fortune is done in preceding link joint 35 with rear link joint 36 It is dynamic, so it is synchronous and equal to drive the arc length that rotating crank arm 37 is rotated, so shears 2 is in 38 4 points of support wheel Support adjustable height and lifting speed be consistent, and shears 2 has only carried out upper and lower liter under the action of directive wheel 4 Drop movement, to realize the lifting process of cutting working platform.

Dust removal assembly 30 as shown in figs. 4-7 includes cleaning shaft 301, dust import 302, dust outlet 303 and dust suction Device（It is not shown in figure）, the cleaning shaft 301 is arranged along 10 length direction of main lathe bed on the bottom plate of main lathe bed 10, the powder Dirt import 302 is arranged on 301 two side of cleaning shaft, and the dust outlet 303 is arranged on main lathe bed 10, and the dust goes out One end of mouth 303 is connect with cleaning shaft 301, and the other end of dust outlet 303 is connect with dust catcher.

Drive component 60 as shown in Figures 9 and 10 includes driving motor 601, speed reducer 602 and shaft coupling 603, the driving Motor 601 and speed reducer 602 are fixed on main lathe bed 10, and driving motor 601 is connect with speed reducer 602, the shaft coupling 603 one end is connect with speed reducer 602, and the other end of shaft coupling 603 is connect with transmission component 70.

The transmission component 70 as shown in Fig. 8,11-14 includes the first sprocket wheel 701, the second sprocket wheel 702, third sprocket wheel 703, the Four sprocket wheels 704, transmission chain 705 and change gear 706, first sprocket wheel 701, the second sprocket wheel 702, third sprocket wheel 703 and the 4th chain Wheel 704 is arranged on the inner wall of main lathe bed 10, and the transmission chain 705 is set in the first sprocket wheel 701, the second sprocket wheel 702, third On sprocket wheel 703 and the 4th sprocket wheel 704, the change gear 706 is arranged on transmission chain 705, the third sprocket wheel 703 and shaft coupling 603 connections.Transmission chain 705 is equipped with first sensor sensing chip 707 and second sensor sensing chip 708.

First material Cutting platform 40 and second material Cutting platform 50 are close to the one of main lathe bed 10 as shown in Figure 19-23 Side is equipped with guidance set 80, and the guidance set 80 is connect with the change gear 706 in transmission component 70, and change gear 706 is with transmission chain 705 When rotation, while first material Cutting platform 40 or second material Cutting platform 50 is driven to move by change gear 706.Guiding group Part 80 includes the first connecting plate 801 being arranged on first material Cutting platform 40 or second material Cutting platform 50, vertically Two piece of second connecting plate 802 being arranged on the first connecting plate 801, and be oriented to for change gear between two piece of second connecting plate 802 Slot 803, when dragging first material Cutting platform 40 or second material Cutting platform 50, change gear 706 is stuck in change gear guide groove 803 It is interior.

On the basis of above structure, laser cutting machine of the present invention lifts the tool of self-powered platform as shown in figs 24-26 Body running step is：

1）First material Cutting platform 40 is located on main lathe bed 10, and second material Cutting platform 50 is located on hydraulic elevator platform 20 When, the course of work that first material Cutting platform 40 is withdrawn to hydraulic elevator platform 20 is that hydraulic elevator platform 20 rises first, second Change gear guide groove 803 on material Cutting platform 50 is moved up along upper guide pad 908, and third guide rail 310 is made to be led with first Rail 105 is in the same horizontal position, and upper sensors in place 51 monitors the location information of hydraulic elevator platform 20 and is sent to control system System；

2）Driving motor 601 starts, and driving motor 601 drives third sprocket wheel 703 to start to rotate, and further drives transmission chain 705 Start to rotate；

3）Change gear 706 on transmission chain 705 is now in the change gear guide groove 803 on first material Cutting platform 40, change gear 706 rotate band dynamic change gear guide groove 803 with transmission chain 705 rotates together, to push first material Cutting platform 40 to hydraulic pressure The direction of lifting platform 20 is moved, and first material Cutting platform 40 slides into from the first guide rail 105 in third guide rail 310；

4）When removing first material Cutting platform 40 from main lathe bed 10, passed when first sensor sensing chip 707 reaches front reduction gear When sensor 901, drive component 60 reduces speed now；

5）Before first sensor sensing chip 707 reaches when 902 position of stop sensor, drive component 60 stops, and first material is cut It cuts platform 40 all to slide into third guide rail 310, change gear 706 moves to the second sprocket wheel 702 close to hydraulic elevator platform 20 at this time End, and first material Cutting platform 40 all slides into hydraulic elevator platform 20；

6）Transmission component 70 remains stationary as, and hydraulic elevator platform 20 declines, and drives the extension being arranged on first material Cutting platform 40 Wheel guide groove 803 moves down, and the change gear guide groove 803 on first material Cutting platform 40 removes change gear 706, and the first object Change gear guide groove 803 on material Cutting platform 40 is moved down along lower guide pad 909；

7）Above-mentioned steps 6）When hydraulic elevator platform 20 declines, the change gear guide groove 803 on second material Cutting platform 50 is along upper Guide pad 908 moves down, and the change gear guide groove 803 on second material Cutting platform 50 is moved to 706 position of change gear, makes It obtains change gear 706 to be placed in the change gear guide groove 803 on second material Cutting platform 50, lower sensors in place 52 monitors hydraulic lifting The location information of platform 20 is simultaneously sent to control system；

8）When second material Cutting platform 50 is moved on main lathe bed 10, driving motor 601 starts, and driving motor 601 drives Third sprocket wheel 703 starts to rotate, and further transmission chain 705 is driven to start to rotate；

9）Change gear 706 on transmission chain 705 is now placed in the change gear guide groove 803 on second material Cutting platform 50, change gear 706 rotate band dynamic change gear guide groove 803 with transmission chain 705 rotates together, to push second material Cutting platform 50 to main bed 10 direction of body is moved, and second material Cutting platform 50 slides into from the second guide rail 39 in the first guide rail 105；

10）Second material Cutting platform 50 from hydraulic elevator platform 20 remove during, when second sensor sensing chip 708 reach Afterwards when deceleration sensor 904, drive component 60 reduces speed now；

11）After second sensor sensing chip 708 reaches when 903 position of stop sensor, drive component 60 stops, and second material is cut It cuts platform 50 all to slide into the first guide rail 105, change gear 706 moves to the end of the first sprocket wheel 701, and second material at this time Cutting platform 50 all slides into main lathe bed 10.

The above process complete a first material Cutting platform 40 and second material Cutting platform 50 main lathe bed 10 with Exchange between hydraulic elevator platform 20, constantly repeats the above steps, and can efficiently carry out first material Cutting platform 40 or second Exchange between material Cutting platform 50.

The above is only a preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For member, without departing from the principle of the present invention, several improvement can also be made, these improvement also should be regarded as the present invention's Protection domain.

Claims (10)

1. a kind of workbench of high-efficient automatic laser cutting machine, it is characterised in that：Including main lathe bed（10）, hydraulic elevator platform （20）, dust removal assembly（30）, first material Cutting platform（40）, second material Cutting platform（50）, drive component（60）And biography Dynamic component（70）, the hydraulic elevator platform（20）It is arranged in main lathe bed（10）One end, the dust removal assembly（30）It is arranged in master Lathe bed（10）On, the first material Cutting platform（40）With second material Cutting platform（50）Main lathe bed can be placed in（10）Or Hydraulic elevator platform（20）On, the driving component（60）It is arranged in main lathe bed（10）On, the transmission component（70）It is arranged in master Lathe bed（10）On the inner wall of side；Wherein, the main lathe bed（10）It is equipped with front reduction gear sensor（901）, preceding stop sensor （902）, rear stop sensor（903）, rear deceleration sensor（904）, in level sensor（905）, intermediate sensor（906）With Under in level sensor（907）, the front reduction gear sensor（901）, preceding stop sensor（902）, rear stop sensor（903）With Deceleration sensor afterwards（904）It is arranged in main lathe bed（10）Inner wall on, it is described in level sensor（905）, intermediate sensor （906）In level sensor under（907）According to from top to bottom be set in sequence in main lathe bed（10）Close to hydraulic elevator platform（20） End.

2. the workbench of high-efficient automatic laser cutting machine according to claim 1, it is characterised in that：The hydraulic lifting Platform（20）Including lifting platform pedestal（1）, shears（2）, driving mechanism（3）And directive wheel（4）, the shears（2）If It sets in lifting platform pedestal（1）Top, the driving mechanism（3）It is arranged in lifting platform pedestal（1）On, and shears can be driven （2）Rise or declines, the directive wheel（4）It is arranged in shears（2）Side wall on, and directive wheel（4）It can keep rising Bracket drops（2）Rise or declines；Wherein, the driving mechanism（3）Including hydraulic cylinder（31）, front-rear linkage（32）, driving front Arm（33）, rear transmission arm（34）, preceding link joint（35）With rear link joint（36）, the hydraulic cylinder（31）It is fixed on lifting platform Pedestal（1）On, the front-rear linkage（32）One end and hydraulic cylinder（31）External part connection, the front-rear linkage（32）With liquid Cylinder pressure（31）Junction be equipped with preceding link joint（35）, the front-rear linkage（32）Far from hydraulic cylinder（31）End be equipped with after Link joint（36）, the forward pass swing arm（33）Across preceding link joint（35）, the rear transmission arm（34）It links and closes after passing through Section（36）.

3. the workbench of high-efficient automatic laser cutting machine according to claim 2, it is characterised in that：The forward pass swing arm （33）Both ends and rear transmission arm（34）Both ends be respectively equipped with rotating crank arm（37）, the rotating crank arm（37）It is equipped with Support wheel（38）, the shears（2）It is arranged in support wheel（38）On.

4. the workbench of high-efficient automatic laser cutting machine according to claim 2, it is characterised in that：The lifting platform bottom Seat（1）Close to directive wheel（4）Side be equipped with guide post（5）, the directive wheel（4）It is fitted in guide post（5）Outer wall on.

5. the workbench of high-efficient automatic laser cutting machine according to claim 1, it is characterised in that：The dust removal assembly （30）Including cleaning shaft（301）, dust import（302）, dust outlet（303）And dust catcher, the cleaning shaft（301）Edge Main lathe bed（10）Length direction is arranged in main lathe bed（10）Bottom plate on, the dust import（302）It is arranged in cleaning shaft （301）On two side, the dust outlet（303）It is arranged in main lathe bed（10）On, the dust outlet（303）One end with remove Dirt pipeline（301）Connection, and dust outlet（303）The other end connect with dust catcher.

6. the workbench of high-efficient automatic laser cutting machine according to claim 1, it is characterised in that：The driving component （60）Including driving motor（601）, speed reducer（602）And shaft coupling（603）, the driving motor（601）And speed reducer（602） It is fixed on main lathe bed（10）On, and driving motor（601）With speed reducer（602）Connection, the shaft coupling（603）One end with Speed reducer（602）Connection, and shaft coupling（603）The other end and transmission component（70）Connection.

7. the workbench of high-efficient automatic laser cutting machine according to claim 6, it is characterised in that：The transmission component （70）Including the first sprocket wheel（701）, the second sprocket wheel（702）, third sprocket wheel（703）, the 4th sprocket wheel（704）, transmission chain（705）With Change gear（706）, first sprocket wheel（701）, the second sprocket wheel（702）, third sprocket wheel（703）With the 4th sprocket wheel（704）It is respectively provided with In main lathe bed（1）Inner wall on, the transmission chain（705）It is set in the first sprocket wheel（701）, the second sprocket wheel（702）, third sprocket wheel （703）With the 4th sprocket wheel（704）On, the change gear（706）It is arranged in transmission chain（705）On, the third sprocket wheel（703）With connection Axis device（603）Connection.

8. the workbench of high-efficient automatic laser cutting machine according to claim 7, it is characterised in that：The transmission chain （705）It is equipped with first sensor sensing chip（707）With second sensor sensing chip（708）.

9. the workbench of high-efficient automatic laser cutting machine according to claim 1, it is characterised in that：The first material Cutting platform（40）With second material Cutting platform（50）Close to main lathe bed（10）Side be equipped with guidance set（80）, described to lead To component（80）With transmission component（70）Connection.

10. the workbench of high-efficient automatic laser cutting machine according to claim 1, it is characterised in that：The main lathe bed （10）Including lower plate（101）, the first side plate（102）, the second side plate（103）With one group of intermediate support plate（104）, described first Side plate（102）With the second side plate（103）It is fixed on lower plate（101）On, the intermediate support plate（104）It is disposed in parallel relation to one another First side plate（102）With the second side plate（103）Between, and intermediate support plate（104）Lower end be fixed on lower plate（101） On.