CN212191733U - Laser cutting machine with hydraulic lifting exchange workbench - Google Patents

Abstract

The utility model provides a laser cutting machine with a hydraulic lifting exchange workbench, which comprises a main lathe bed, a cutting device, a protective cover, a control console, an exchange workbench and a traction device; the traction device comprises a driving component a, a chain wheel transmission component a and a chain wheel traction component; the exchange workbench comprises a rack, two groups of cutting tables and a lifting device; be equipped with the traction assembly in main lathe bed, be equipped with the cutting bed that sets up about two sets of in the frame, and be provided with two sets of elevating system through the linkage of synchronizing assembly along the below of this cutting bed of cutting bed horizontal traction direction, elevating system sets up in cutting bed both sides and carries out the lifting unit that links through sprocket drive subassembly b including the symmetry, arbitrary lifting unit can drive two sets of cutting beds and remove and alternate with draw gear power fit, realize the fast switch-over between two sets of cutting beds when guaranteeing that the cutting bed carries out the cutting with same high entering main lathe bed, reduce the dynamic impact of laser cutting head.

Description

Laser cutting machine with hydraulic lifting exchange workbench

Technical Field

The utility model relates to a laser cutting equipment specifically is a laser cutting machine with hydraulic pressure lift change table.

Background

The laser cutting machine exchange table structure with the lifting function can greatly improve the working efficiency of laser cutting equipment, enables the working surface of a cutting surface to be always at the same height, and is beneficial to quick cutting operation and improvement of the dust removal effect during cutting.

The utility model with Chinese patent application number CN201720438528.6 discloses a laser cutting machine with an exchange table, which comprises a cutting worktable and a beam erected above the cutting worktable, the beam is provided with a cutting mechanism and also comprises an exchange platform connected with the cutting workbench, the two sides of the cutting workbench and the exchange platform are respectively vertically provided with a side plate, the side plate is provided with a first sliding chute and a second sliding chute which are arranged in parallel up and down, the cutting workbench and the exchanging platform are respectively provided with a workpiece placing platform, the two sides of the workpiece placing platform are respectively provided with a sliding rail matched with the first sliding chute and the second sliding chute, the workpiece placing table comprises a first workpiece placing table and a second workpiece placing table, wherein the first workpiece placing table slides between the cutting workbench and the exchange table in a reciprocating mode along a first sliding groove through a sliding rail, and the second workpiece placing table slides between the cutting workbench and the exchange table in a reciprocating mode along a second sliding groove through the sliding rail.

However, this utility model discloses a well work piece is placed the platform and is in two upper and lower planes all the time, and the cutting head is to the height of cutting the material different, and especially when low platform cutting, the cutting head stretches out longer, and when high-speed cutting, the dynamic impact to the cutting head is bigger, is unfavorable for later higher performance and the development of higher developments.

SUMMERY OF THE UTILITY MODEL

In order to the problem, the utility model provides a laser cutting machine with hydraulic pressure lift change table, it is equipped with traction assembly on main lathe bed, be equipped with the cutting bed that sets up about two sets of in the change table, and be provided with two sets of elevating system through the linkage of synchronous subassembly along the below of this cutting bed of cutting bed horizontal traction direction, elevating system carries out the lifting unit who links including the symmetry setting in the cutting bed both sides and through sprocket feed subassembly b, arbitrary lifting unit can drive two sets of cutting beds and remove and in turn with draw gear power fit, realize the fast switch-over between two sets of cutting beds when guaranteeing that the cutting bed carries out the cutting with same high entering main lathe bed, it is less to the damage of laser cutting head in prior art.

Realize above-mentioned purpose, the utility model provides a following technical scheme:

a laser cutting machine with a hydraulic lifting exchange workbench comprises a main lathe body, a cutting device, a protective cover, a control console, an exchange workbench and a traction device, wherein the exchange workbench is arranged on one side of the main lathe body in a transition mode, and the traction device is arranged between the exchange workbench and the main lathe body; the exchange workbench comprises a rack, two groups of cutting tables arranged up and down and a lifting device for driving the two groups of cutting tables to move up and down, and the lifting device is arranged on the rack and is positioned below the two groups of cutting tables;

the traction device comprises a driving assembly a fixedly mounted on the main lathe body, two groups of chain wheel transmission assemblies a symmetrically arranged on two sides of the driving assembly a and two groups of chain wheel traction assemblies arranged on the main lathe body and respectively in power connection with the two groups of chain wheel transmission assemblies a, and the two groups of chain wheel traction assemblies can drive any cutting table to move to the main lathe body;

the lifting device comprises two groups of lifting mechanisms arranged along the horizontal traction direction of the cutting table and two groups of synchronous transmission synchronous assemblies connected with the lifting mechanisms, the lifting mechanisms comprise lifting assemblies arranged on two sides of the cutting table in a bilateral symmetry mode and chain wheel transmission assemblies b connected with the two groups of lifting assemblies to synchronously act, the lifting assemblies comprise driving assemblies b and two groups of horizontal intervals, the driving assemblies b and the two groups of horizontal intervals are installed on the rack and respectively correspond to driven transmission members located above the chain wheel transmission assemblies b, and the driving assemblies b and the driving assemblies are connected with the chain wheel transmission assemblies b and the driven transmission members in a transmission mode and lift chains, and the driving assemblies b and the driving assemblies are far away from the free end of the lifting chains arranged.

As an improvement, the chain wheel traction assembly comprises chain wheels arranged at two ends of the main bed body in the length direction respectively and a chain sleeved on the chain wheels, and a traction wheel is arranged on the inner side of the chain.

As an improvement, the end parts of the two groups of cutting tables facing the main lathe body are respectively provided with a limiting block a, and the limiting block a is provided with a guide groove a in sliding fit with the traction wheel; two sets of another tip that the cutting bed was installed stopper a relatively is provided with spacing subassembly.

As an improvement, the exchange workbench further comprises a movable frame for supporting two groups of cutting tables and a plurality of groups of guide assemblies; the two groups of cutting tables are arranged on the moving frame in a left-right sliding mode; the guide assemblies are respectively arranged in the middle of the two driven transmission members of the same lifting assembly.

As an improvement, the guide assembly comprises a slide rail vertically mounted on the rack and a slide block fixed on the movable frame and in sliding fit with the slide rail.

As an improvement, the sprocket transmission component b comprises two sprocket transmission parts, and the sprocket transmission parts respectively comprise transmission shafts and sprocket groups which are arranged at two ends of the transmission shafts and respectively meshed with the transmission chains and the lifting chains for transmission.

As an improvement, the synchronous assembly comprises a synchronous chain which is in transmission connection with the adjacent chain wheel set in the two lifting assemblies positioned on the same side of the rack.

As an improvement, the driving assemblies b are all oil cylinders and are obliquely hinged on the rack, the power output ends of the driving assemblies b are fixedly connected with the lifting chains, and the driving assemblies b are all arranged in parallel and respectively drive the transmission chains, the lifting chains and the synchronous chains to rotate towards the same direction.

As a modification, the exchange workbench is also provided with a hydraulic station which is connected with each driving assembly b through a distribution valve.

As an improvement, the main lathe body further comprises a blanking trolley and a dust removal system, and the blanking trolleys are arranged at the bottom of the main lathe body; the dust removal system comprises a plurality of air ports which are arrayed along the length direction of the main lathe body and are arranged on the inner walls of the two sides of the main lathe body, air suction valve assemblies which are arranged corresponding to the air ports and are fixedly installed on the main lathe body, and dust channels which are symmetrically arranged on the two sides of the main lathe body and are communicated with the air ports and external dust collection equipment.

The beneficial effects of the utility model reside in that:

(1) the utility model discloses be equipped with the cutting bed that two sets of upper and lower settings in the change table, and be provided with two sets of elevating system that link through synchronous chain along the horizontal traction direction of cutting bed below this cutting bed, elevating system includes the symmetrical lifting unit who sets up in cutting bed both sides and carry out the linkage through sprocket assembly b, arbitrary lifting unit can drive two sets of cutting beds and remove and alternate and draw gear power fit, guarantee that the cutting bed gets into main lathe body with same height and cuts, reduced the dynamic impact to the laser cutting head, reduced the equipment loss;

(2) in the utility model, the guide slots a in the two groups of cutting tables arranged up and down are alternately matched with the traction wheel in the chain wheel traction assembly under the action of the lifting device, the traction wheel quickly pulls the cutting tables matched with the traction wheel onto the main bed body, and the traction device is matched with the lifting device, so that the quick exchange of the cutting tables is realized, and the working efficiency of the laser cutting machine is greatly improved;

(3) in the utility model, two groups of lifting mechanisms are linked through the synchronous chain, and two groups of lifting components in the lifting mechanisms are linked through the chain wheel transmission component b and the transmission chain, and the whole lifting device realizes that any lifting component can lift two groups of cutting beds in the whole power forming process of the synchronous chain, the chain wheel transmission component b and the transmission chain, thereby ensuring the working efficiency of the equipment;

(4) according to the invention, the lifting assembly supplies power through the oil cylinder, the cutting table moves up and down in a power mode of chain wheel and chain transmission and a mode of matching chain wheel and chain transmission, the transmission efficiency of the chain wheel and chain is high, the structure is more compact, the volume of the lifting device is reduced, and the volume of the exchange workbench is reduced;

(5) according to the invention, the two groups of cutting tables move up and down under the guidance of the guide assembly formed by matching the sliding block and the sliding rail, so that the cutting tables are more stable and smoother in the lifting process, and the working efficiency of the lifting assembly is greatly improved.

To sum up, the utility model has the advantages of simple structure, design benefit, lifting are stable and equipment work efficiency is high, among the laser cutting of the sheet material that is particularly useful for.

Drawings

FIG. 1 is a first drawing illustrating the overall structure of the present invention;

FIG. 2 is a schematic view of the overall structure of the present invention;

FIG. 3 is a schematic view of the mounting structure of the lifting device;

FIG. 4 is a schematic view of the operation of the lifting device;

FIG. 5 is an enlarged view taken at A in FIG. 2;

FIG. 6 is an enlarged view of FIG. 2 at B;

fig. 7 is a view showing an internal structure of the exchange table.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Example (b):

as shown in fig. 1 and fig. 2, the utility model provides a laser cutting machine with hydraulic pressure lift change table, including main lathe bed 1, cutting device 2, protection casing 3 and control cabinet 4, characterized in that, still include the change table 5 that the transition set up in main lathe bed 1 one side and set up in the draw gear 6 between this change table 5 and main lathe bed 1; the exchange workbench 5 comprises a rack 51, two groups of cutting tables 52 arranged up and down and a lifting device 53 for driving the two groups of cutting tables 52 to move up and down, wherein the lifting device 53 is arranged on the rack 51 and is positioned below the two groups of cutting tables 52;

the traction device 6 comprises a driving assembly a61 fixedly mounted on the main lathe bed 1, two groups of chain wheel transmission assemblies a62 symmetrically arranged on two sides of the driving assembly a61 and two groups of chain wheel traction assemblies 63 arranged on the main lathe bed 1 and respectively in power connection with the two groups of chain wheel transmission assemblies a62, and the two groups of chain wheel traction assemblies 63 can drag any cutting table 52 to move to the main lathe bed 1;

the lifting device 53 comprises two groups of lifting mechanisms 531 arranged along the horizontal traction direction of the cutting table 52 and two groups of synchronous components 532 connected with the two groups of lifting mechanisms 531 for synchronous transmission, each lifting mechanism 531 comprises two groups of lifting components 5311 arranged on two sides of the cutting table 52 in bilateral symmetry and two groups of sprocket transmission components b5312 connected with the two groups of lifting components 5311 for synchronous action, each lifting component 5311 comprises a driving component b53111, two groups of driven transmission components 53112 horizontally arranged on the frame 51 at intervals and respectively corresponding to the upper parts of the sprocket transmission components b5312, and a transmission chain 53113 and a lifting chain 53114 both in transmission connection with the sprocket transmission components b5312 and the driven transmission components 53112, and the driving component b53111 is fixedly connected with the free ends of the lifting chains 53114 far away from the synchronous components 532.

It should be noted that the protective cover 3 is arranged on the main bed body 1, the cutting device 2 is erected on the main bed body 1 and is located in the protective cover 3, and the console 4 is installed on the main bed body 1 and drives the cutting device 2 to perform cutting operation.

As shown in fig. 5, as a preferred embodiment, the sprocket traction assembly 63 includes a sprocket 631 disposed at each end of the main bed 1 in the length direction, and a chain 632 sleeved on the sprocket 631, and a traction wheel 633 is disposed inside the chain 632.

Further, as shown in fig. 5 and 6, the end parts of the two groups of cutting tables 52 facing the main bed body 1 are both provided with a limiting block a521, and a guide groove a5211 in sliding fit with the traction wheel 633 is formed on the limiting block a 521; the other end parts of the two groups of cutting tables 52 opposite to the limiting blocks a521 are provided with limiting assemblies 522.

It should be noted that, when the cutting table 52 moves, after the traction wheel 633 is clamped into the corresponding guide groove a5211, and the limiting assembly 522 is disengaged, the driving assembly a61 drives the sprocket 631 and the chain 632 to rotate through the sprocket assembly a62, and then the traction wheel 633 drives the cutting table 52 to move in the horizontal direction.

It should be noted that the driving assembly a61 is preferably a motor driving assembly.

It is important to explain that the limiting assembly 522 limits the cutting table 52 by inserting a limiting plate into a limiting groove, and when two groups of cutting tables 52 are positioned on the rack 51, the limiting assembly 522 prevents the cutting table 52 from moving transversely at will, so that potential safety hazards are reduced.

As shown in fig. 3, 4 and 7, the exchange table 5 further includes a moving frame 54 for holding two sets of the cutting tables 52 and a plurality of sets of guiding assemblies 55; the two groups of cutting tables 52 are arranged on the moving frame 54 in a left-right sliding manner; the guide assemblies 55 are respectively disposed at the middle positions of the two driven transmission members 53112 of the same lifting assembly 5311.

Further, the guide assembly 55 includes a slide rail 551 vertically installed on the frame 51 and a slide block 552 fixed on the moving frame 54 and slidably engaged with the slide rail 551.

It should be noted that the guide assembly 55 is disposed in the middle of the two sets of driven transmission members 53112 of the same lifting assembly 5311, so as to ensure uniform stress on both sides of the guide assembly 55, prevent the movable frame 54 from being jammed during the upward movement process, and further ensure the stability of the movable frame 54 during the upward movement process.

As shown in fig. 3 and 4, as a preferred embodiment, the sprocket driving assembly b5312 includes two sprocket driving members 53121, and the sprocket driving members 53121 respectively include a driving shaft 531211 and a sprocket set 531212 mounted at two ends of the driving shaft 531211 and respectively engaged with the driving chain 53113 and the lifting chain 53114 for driving.

Further, the synchronizing assembly 532 includes a synchronizing chain 5321 drivingly connected to the adjacent sprocket 531212 of the two lifting assemblies 5311 on the same side of the frame 51.

Furthermore, the driving assemblies b53111 are all oil cylinders, and are all obliquely hinged to the frame 51, the power output ends of the driving assemblies b53111 are fixedly connected with the lifting chain 53114, and the driving assemblies b53111 are all arranged in parallel and respectively drive the transmission chain 53113, the lifting chain 53114 and the synchronization chain 5321 to rotate in the same direction.

It should be noted that, as shown in fig. 5, the driving component b53111 pulls the lifting chain 53114, the driven transmission component 53112 correspondingly disposed thereon rotates, and simultaneously drives the transmission chain 53113 and the chain wheel set 531212 to rotate and transmit power to another driven transmission component 53112 in the same lifting component 5311, so that the lifting chain 53114 cooperating with the driven transmission component 53112 is pulled, and since the driving component b53111 is disposed in parallel, the synchronous chain 5321 will not be jammed when the lifting mechanism 531 works.

It should be noted that the synchronous chain 5321 and the transmission shaft 531211 enable the power generated by each driving assembly b53111 to be linked, so that the moving frame 54 and the two cutting tables 52 are integrally lifted as long as any one of the lifting assemblies 5311 works, thereby greatly improving the synchronism of the device.

Furthermore, the exchange workbench 5 is also provided with a hydraulic station, and the hydraulic station is connected with each driving assembly b53111 through a distribution valve.

It should be noted that the hydraulic station supplies oil to each driving assembly b53111 through a distribution valve, so that the consistency of power generated by each driving assembly b53111 is ensured, and the lifting synchronism of the lifting assembly 5311 and the moving stability of the cutting table 52 are further improved.

As shown in fig. 2, the main bed 1 further includes a blanking trolley 11 and a dust removal system 12, and the blanking trolleys 11 are arranged at the bottom of the main bed 1; the dust removing system 12 comprises a plurality of air ports 121 arrayed along the length direction of the main lathe body 1 and arranged on the inner walls of the two sides of the main lathe body 1, air suction valve assemblies 122 arranged corresponding to the air ports 121 and fixedly installed on the main lathe body 1, and dust channels 123 symmetrically arranged on the two sides of the main lathe body 1 and communicated with the air ports 121 and external dust collecting equipment.

It should be noted that the blanking trolley 11 is used for receiving the small materials falling into the bottom of the main bed 1 from the gap of the cutting table 52, and the tuyere 121, the air suction valve assembly 122 and the dust channel 123 collect the dust generated in the cutting process of the cutting device 2, so as to maintain a good and comfortable laser working environment.

The working process is as follows:

the utility model discloses in, the workman will wait the sheet material of cutting to place and be located the top on the cutting table 52, later drive assembly b53111 work and propelling movement promote chain 53114, correspond the setting with this promotion chain 53114 driven transmission 53112 rotates, drives simultaneously drive chain 53113 reaches sprocket group 531212 rotates and with power transmission to same in lifting assembly 5311 another driven transmission 53112 and then with this driven transmission 53112 complex promote chain 53114 by the propelling movement, and then realize two sets of move down in the time of cutting table 52, when being located the top cutting table 52 one end guide way a5211 in the stopper a521 moves down, traction wheel 633 blocks into in this guide way a5211, is located this cutting table 52 other end this moment spacing subassembly 631 breaks away from the cooperation, later drive assembly a61 work passes through sprocket drive assembly a62 is sprocket and chain 632 rotate and then traction wheel 633 drive cutting table 52 Cutting is carried out after the cutting machine moves onto the main lathe bed 1, and feeding is carried out on the cutting table 52 positioned below the cutting table; after the cutting is completed, the driving assembly a61 is turned over, so that the cutting table 52 located above is pushed onto the moving frame 54 by the traction wheel 633, then the lifting chain 53114 is pulled by the driving assembly b53111, the driven transmission member 53112, the transmission chain 53113, the chain wheel set 531212 and the synchronous chain 5321 are all rotated reversely with respect to the above downward moving process, so that the two sets of cutting tables 52 are lifted simultaneously, at this time, the guiding groove a5211 in the limiting block a521 at one end of the cutting table 52 located above moves upward and is separated from the traction wheel 633, the limiting assembly 522 at the other end is in limiting fit, meanwhile, the guiding groove a5211 in the limiting block a521 of the cutting table 52 located below moves upward, and the traction wheel 633 is clamped therein, the limiting assembly 522 at the other end is separated from the fit, and then the traction wheel 633 drives the cutting table 52 located below to enter the main bed 1 for cutting operation, meanwhile, the cutting tables above can sequentially perform lower plate material production operation and upper plate material production operation, and the two groups of cutting tables 52 circularly work according to the process.

Claims (10)

1. A laser cutting machine with a hydraulic lifting exchange workbench comprises a main machine body (1), a cutting device (2), a protective cover (3) and a control console (4), and is characterized by further comprising an exchange workbench (5) arranged on one side of the main machine body (1) in a transition mode and a traction device (6) arranged between the exchange workbench (5) and the main machine body (1); the exchange workbench (5) comprises a rack (51), two groups of cutting tables (52) arranged up and down and a lifting device (53) for driving the two groups of cutting tables (52) to move up and down, wherein the lifting device (53) is arranged on the rack (51) and is positioned below the two groups of cutting tables (52);

the traction device (6) comprises a driving assembly a (61) fixedly mounted on the main machine body (1), two groups of chain wheel transmission assemblies a (62) symmetrically arranged on two sides of the driving assembly a (61) and two groups of chain wheel traction assemblies (63) arranged on the main machine body (1) and respectively in power connection with the two groups of chain wheel transmission assemblies a (62), and the two groups of chain wheel traction assemblies (63) can be used for dragging any cutting table (52) to move to the main machine body (1);

the lifting device (53) comprises two groups of lifting mechanisms (531) arranged along the horizontal traction direction of the cutting table (52) and a synchronous component (532) connected with the two groups of lifting mechanisms (531) for synchronous transmission, the lifting mechanism (531) comprises lifting components (5311) which are arranged at the two sides of the cutting table (52) in a bilateral symmetry way and chain wheel transmission components b (5312) which are connected with the two groups of lifting components (5311) and act synchronously, the lifting component (5311) comprises a driving component b (53111), two groups of driven transmission components (53112) which are horizontally arranged on the frame (51) at intervals and respectively corresponding to the upper parts of the chain wheel transmission components b (5312), and a transmission chain (53113) and a lifting chain (53114) which are in transmission connection with the chain wheel transmission components b (5312) and the driven transmission components (53112), the driving component b (53111) is fixedly connected with the free end of the lifting chain (53114) which is far away from the synchronous component (532).

2. The laser cutting machine with the hydraulic lifting exchange workbench according to claim 1, characterized in that the chain wheel traction assembly (63) comprises a chain wheel (631) respectively arranged at two ends of the main machine body (1) in the length direction and a chain (632) sleeved on the chain wheel (631), and a traction wheel (633) is arranged at the inner side of the chain (632).

3. The laser cutting machine with the hydraulic lifting exchange workbench according to claim 2, characterized in that the ends of the two cutting tables (52) facing the main bed (1) are respectively provided with a limiting block a (521), and the limiting block a (521) is provided with a guide groove a (5211) in sliding fit with the traction wheel (633); the other end of the two groups of cutting tables (52) opposite to each other provided with a limiting block a (521) is provided with a limiting assembly (522).

4. Laser cutting machine with hydraulic lifting exchange bench according to claim 1, characterized in that the exchange bench (5) further comprises a moving frame (54) for holding two sets of cutting tables (52) and a plurality of sets of guiding assemblies (55); the two groups of cutting tables (52) are arranged on the moving frame (54) in a left-right sliding manner; the guide assemblies (55) are respectively arranged in the middle of the two driven transmission members (53112) of the same lifting assembly (5311).

5. The laser cutting machine with hydraulic lifting exchange bench according to claim 4, characterized in that the guide assembly (55) comprises a slide rail (551) vertically mounted on the frame (51) and a slide block (552) fixed on the moving frame (54) and slidably engaged with the slide rail (551).

6. The laser cutting machine with hydraulic lifting exchange workbench according to claim 1, wherein the sprocket drive assembly b (5312) comprises two sprocket drive members (53121), the sprocket drive members (53121) respectively comprise a drive shaft (531211) and a sprocket set (531212) mounted at two ends of the drive shaft (531211) and respectively engaged with the drive chain (53113) and the lifting chain (53114).

7. The laser cutting machine with hydraulic lifting exchange bench according to claim 6, characterized in that the synchronization assembly (532) comprises a synchronization chain (5321) drivingly connecting adjacent sprocket sets (531212) of two of the lifting assemblies (5311) located on the same side of the machine frame (51).

8. The laser cutting machine with the hydraulic lifting exchange workbench according to claim 7, wherein the driving assemblies b (53111) are all oil cylinders and are all obliquely hinged on the frame (51), the power output ends of the driving assemblies b (53111) are fixedly connected with the lifting chains (53114), and the driving assemblies b (53111) are all arranged in parallel and respectively drive the transmission chains (53113), the lifting chains (53114) and the synchronous chains (5321) to rotate towards the same direction.

9. Laser cutting machine with hydraulic lifting exchange bench according to claim 1, characterized in that the exchange bench (5) is also provided with a hydraulic station connected with each of the drive assemblies b (53111) through distribution valves.

10. The laser cutting machine with hydraulic lifting exchange workbench according to claim 1, characterized in that the main bed (1) further comprises a blanking trolley (11) and a dust removal system (12), wherein a plurality of blanking trolleys (11) are arranged at the bottom of the main bed (1); the dust removal system (12) comprises a plurality of air ports (121) which are arrayed along the length direction of the main lathe body (1) and are arranged on the inner walls of the two sides of the main lathe body (1), air suction valve assemblies (122) which are correspondingly arranged with the air ports (121) and are fixedly installed on the main lathe body (1), and dust channels (123) which are symmetrically arranged on the two sides of the main lathe body (1) and are communicated with the air ports (121) and external dust collection equipment.

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