CN217122147U - Rotary feeding and discharging workbench and router laser marking machine - Google Patents

Abstract

The utility model relates to a rotatory unloading workstation of going up, including the material loading station, beat mark station, table surface and order about the rotatory actuating mechanism of table surface, the material loading station with beat the mark station and all locate table surface on and the material loading station with beat the mark station relative interval setting. Still provide a router laser marking machine, including foretell rotatory last unloading workstation and will beat the climbing mechanism of mark station lifting, before the climbing mechanism does not jack up and beats the mark station, beat the mark work piece of treating on the station and be in the horizontality, after the climbing mechanism jack up beats the mark station, beat the mark work piece of treating on the station and be in the tilt state. The utility model discloses a material loading station is switched and the mark station is beaten to rotatory mode, can be in advance material loading on the material loading station when beating the mark operation, beat mark station completion beat mark operation back, can be directly rotatory to beating mark station department with the material loading station, can save the time of waiting for the material loading and the time of waiting for the unloading, has greatly improved production efficiency.

Description

Rotary feeding and discharging workbench and router laser marking machine

Technical Field

The utility model relates to a laser marking technical field specifically is a rotatory unloading workstation and router laser marking machine of going up.

Background

In the process of processing some products, for example, in the process of processing a router, information such as LOGO and production numbers (as shown in fig. 13) needs to be marked on two planes forming a certain included angle on the router, at present, the process is usually completed by laser marking in the actual production process, the laser marking is performed in two processes in a common mode, the marking of a first plane is completed in the previous process, and then the product flows into the next process to complete the marking of a second plane. The marking mode needs two devices and two workers, has low production efficiency and equipment utilization rate and high production cost, and cannot well meet the requirement of mass production.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a rotatory unloading workstation and router laser marking machine of going up can solve the partial defect among the prior art at least.

In order to achieve the above object, the embodiment of the present invention provides the following technical solutions: the utility model provides a rotatory unloading workstation of going up, includes the material loading station, beats mark station, table surface and orders about table surface rotary actuating mechanism, the material loading station with beat the mark station and all locate table surface is last just the material loading station with beat the relative interval setting of mark station.

Further, the driving mechanism comprises a DD motor, the DD motor is located below the working table, and an output shaft of the DD motor is perpendicular to the working table.

Further, the device also comprises an installation bottom plate for placing the driving mechanism, and an adjustment bottom plate is clamped between the driving mechanism and the installation bottom plate.

Further, the working table surface is circular.

Further, the feeding station and the marking station are separated by a partition plate.

The embodiment of the utility model provides another kind of technical scheme: the utility model provides a router laser marking machine, includes foretell rotatory last unloading workstation and will mark the climbing mechanism of mark station lifting, climbing mechanism does not push up mark before the station, mark the work piece of treating on the station of beating and be in the horizontality, the climbing mechanism jacking mark behind the station, mark the work piece of treating on the station of beating and be in the tilt state.

Furthermore, an oil buffer is arranged on the working table surface, the oil buffer is positioned between the marking station and the working table surface and is used for buffering the marking station when the marking station descends.

Further, the working table surface is provided with a hole for the lower structure of the marking station to pass through, and the lower structure is in butt joint with the driving end of the jacking mechanism.

Further, the jacking mechanism comprises a lower ejector block which can be in butt joint with a lower structure of the marking station, and a damping block is arranged on the lower ejector block.

Further, the jacking mechanism comprises a jacking linear module used for driving the lower jacking block to move in the vertical direction.

Compared with the prior art, the beneficial effects of the utility model are that: the feeding station and the marking station are switched by adopting a rotating mode, feeding can be carried out on the feeding station in advance during marking operation, after the marking operation is completed on the marking station, the feeding station can be directly rotated to the marking station, the feeding station at the moment can be used as the marking station for marking, the marking station can be used as the marking station for blanking, then the feeding station waits for the next round of marking, the time for waiting for feeding and the time for waiting for blanking can be saved, and the production efficiency is greatly improved.

Drawings

Fig. 1 is a schematic view of a router laser marking machine provided in an embodiment of the present invention;

fig. 2 is a schematic view of a router laser marking machine provided by an embodiment of the present invention (with a protective cover and a safety light curtain removed);

fig. 3 is a schematic view of a combination of a workbench with an adjustable processing angle and a rotary feeding and discharging workbench provided in an embodiment of the present invention;

FIG. 4 is a side view of FIG. 3;

fig. 5 is a schematic view of a first viewing angle when a processing station of a workbench with an adjustable processing angle provided by an embodiment of the present invention is in a horizontal state;

fig. 6 is a schematic view of a second viewing angle when the processing station of the workbench with an adjustable processing angle provided by the embodiment of the present invention is in a horizontal state;

fig. 7 is a schematic view of a first viewing angle when a processing station of a workbench with an adjustable processing angle provided by an embodiment of the present invention is in an inclined state;

fig. 8 is a schematic view of a second viewing angle when a processing station of a workbench with an adjustable processing angle is in an inclined state according to an embodiment of the present invention;

fig. 9 is a first perspective view of a workbench with an adjustable processing angle according to an embodiment of the present invention;

fig. 10 is a second schematic view of a workbench with an adjustable processing angle according to an embodiment of the present invention;

fig. 11 is a schematic view of a product push block for machining a workbench with an adjustable angle according to an embodiment of the present invention;

fig. 12 is a schematic view of a jacking mechanism for a workbench with an adjustable machining angle according to an embodiment of the present invention;

fig. 13 is a schematic diagram of a router according to an embodiment of the present invention;

in the reference symbols: 1-cabinet, 2-protective cover, 3-safety light curtain, 4-Z axis linear module, 5-laser visual positioning processing mechanism, 6-rotary feeding and discharging workbench, 7-jig, 8-jacking mechanism, 9-mounting bottom plate, 10-adjusting bottom plate, 11-DD motor, 12-adjusting bolt, 13-workbench surface, 14-flanged linear bearing, 15-oil buffer, 701-bearing pedestal cushion block, 702-rotating shaft, 703-base bearing, 704-jig connecting plate, 705-jig bottom plate, 706-product positioning block, 707-product push block, 708-linear sliding rail, 709-sliding block connecting plate, 710-hinge pin and retaining ring, 711-connecting frame, 712-connecting block, 712-lifting block, 713-buffer stop block, 714-guide shaft, 715-fixed seat, 716-upright post, 717-compression spring, 718-upper top block, 719-router, 720-first magnet, 707.1-fixed seat, 707.2-stop mounting seat, 707.3-sliding stop block, 707.4-linear bearing, 707.5-guide shaft, 707.6-hold-down spring, 707.7-locking screw, 801-upper module support, 802-lower module support, 803-jacking linear module, 804-connecting plate, 805-side fixing plate, 806-upper fixing plate, 807-lower top block, 808-shock absorption block, 809-second magnet and 810-module fixing plate; 900-a feeding station; 901-marking stations; 903-the plane to be marked.

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 efforts belong to the protection scope of the present invention.

The first embodiment is as follows:

please refer to fig. 5 to 10, an embodiment of the present invention provides a workbench with an adjustable machining angle, which includes a machining station for placing a workpiece to be machined and a jacking mechanism 8 capable of lifting the machining station, wherein the jacking mechanism 8 does not jack up before the machining station, the workpiece to be machined on the machining station is in a horizontal state, the jacking mechanism 8 jacks up behind the machining station, and the workpiece to be machined on the machining station is in an inclined state. In this embodiment, the jacking mechanism 8 is adopted to change the inclined first plane 902 to be marked of the workpiece to be processed to a horizontal state, so that marking is facilitated, and thus, only one processing device needs to move in the horizontal direction to complete the processing of the first plane 902 to be marked and the second plane 903 to be marked at two different positions. Specifically, in the laser marking operation, the processing station may be the marking station 901, for example, when the router 719 performs marking, since the router has the first to-be-marked plane 902 and the second to-be-marked plane 903 forming an included angle, the jacking mechanism 8 may be used to adjust the first to-be-marked plane 902, which is originally in an inclined state, to be in a horizontal state, so as to facilitate the marking operation of the laser visual positioning processing mechanism 5.

As an optimization scheme of the embodiment of the utility model, please refer to fig. 5 to 10, the processing station includes tool 7, tool 7 upper portion has the position of shelving that supplies to treat that the processing work piece is placed, just tool 7's lower part is equipped with pivot 702, the axial of pivot 702 with tool 7's lower surface is parallel, the position of jacking mechanism 8 jacking with the position of pivot 702 is not laid in same department and two position intervals. In this embodiment, the marking station 901 is mainly a fixture 7 for placing a workpiece to be processed, i.e., the router 719. And the jacking is realized by the matching of the rotating shaft 702. The whole tool 7 is square and matched with the router 719 in shape, so that the router 719 can be conveniently placed, the rotating shaft 702 is parallel to one of the sides of the square, and therefore when the jacking mechanism 8 provides upward thrust, the tool 7 can rotate around the rotating shaft 702, and the inclined first plane 902 to be marked is adjusted to be in a horizontal state.

Next, the marking station 901 is further refined, please refer to fig. 5 to 10, the jig 7 is provided with two pedestal bearings 703 for mounting the rotating shaft 702 and two bearing pedestal spacers 701 for mounting the pedestal bearings 703, and two ends of the rotating shaft 702 respectively extend into the inner rings of the two pedestal bearings 703. Fixing base 715 is still installed to the lower part of tool 7, install stand 716 perpendicularly on fixing base 715, stand 716 towards deviate from put the direction extension of position, top block 718 is installed to the tail end of stand 716, climbing mechanism 8 top on the top block 718. A first magnet 720 is arranged on the surface of the upper top block 718 facing the jacking mechanism 8, a second magnet 809 is arranged at the contact part of the jacking mechanism 8 and the upper top block 718, and the first magnet 720 and the second magnet attract each other. The column 716 is sleeved with a compression spring 717. The lower part of the jig 7 is further provided with a connecting block 712, a guide shaft 714 is vertically arranged on the connecting block 712, and the guide shaft 714 extends in the direction deviating from the placing position. A buffer stopper 713 is installed at a lower portion of the jig 7, and the connection block 712 partially contacts the buffer stopper 713. In the present embodiment, fig. 5 and 6 are horizontal states, and fig. 7 and 8 are inclined states. The bearing seat cushion block 701 and the bearing 703 with the base are fixed on the working table surface 13, the rotating shaft 702 and the inner ring of the bearing 703 with the base are fixed together, and when the jacking mechanism 8 moves up and down, the jig 7 rotates by taking the rotating shaft 702 as a central shaft. The fixing seat 715 is fixed with the working table 13, the upright 716 passes through the central hole of the fixing seat 715, the upper end of the upright 716 is connected with the connecting block 712, the lower end of the upright 716 is fixed with the upper top block 718, the bottom of the upper top block 718 is provided with a first magnet 720, and the compression spring 717 is sleeved on the upright 716 and is positioned between the upper top block 718 and the fixing seat 715. When the jig 7 is in a horizontal state (fig. 5 and 6), the compression spring 717 is in a relaxed state, and when the jig 7 is in an inclined state (fig. 7 and 8), the compression spring 717 is in a compressed state. The bottom of the jig connecting plate 704 is provided with a linear slide rail 708, and the connecting block 712 is connected with the linear slide rail 708 through a connecting frame 711, a hinge pin and a retainer ring 710, a slide block connecting plate 709 and the slide rail. Preferably, a jig base 705 is further provided below the jig 7, and the jig base 705 ensures a stable structure.

As an optimized solution of the embodiment of the present invention, please refer to fig. 5 to 10, a product positioning block 706 and a product pushing block 707 for pushing the workpiece to be processed to abut against the product positioning block 706 are disposed on the edge of the placing position. In this embodiment, the cooperation of the product positioning block 706 and the product pushing block 707 can ensure that the workpiece to be processed, i.e., the router 719, stably falls on the resting position. Preferably, the product pushing block 707 has a structure as shown in fig. 9, a pushing device is fixed at each of the left and right ends of a fixed seat 707.1, wherein a block mounting seat 707.2 is fixed with the fixed seat 707.1 by bolts and is adjustable in position (kidney-shaped hole), a linear bearing 707.4 is installed in a counter bore of the block mounting seat 707.2, a guide shaft 707.5 passes through the linear bearing 707.4, a compression spring 707.6 is sleeved on the guide shaft 707.5 and is located between a step of the guide shaft 707.5 and the linear bearing 707.4, the guide shaft 707.5 is fixed with a sliding block 707.3 by a locking screw 707.7, and under the pushing force of the compression spring 707.6, the sliding block 707.3 moves forward until being blocked by a front boss of the block mounting seat 707.2. When a worker loads materials, the worker pushes the sliding block 707.3 backwards, the pressing spring 707.6 is compressed, the sliding block 707.3 moves backwards, the router 719 is put in, then the sliding block 707.3 is released, and under the action of the pressing spring 707.6, the sliding block 707.3 moves forwards, so that the router 719 is pushed forwards until the router 719 abuts against two fixed edges of the product positioning block 706 (fig. 7), and the positioning and fixing purposes are achieved.

Example two:

please refer to fig. 1 to 13, an embodiment of the present invention provides a rotary feeding and discharging workbench, including a feeding station 900, a marking station 901, a working table 13 and a driving mechanism for driving the rotation of the working table 13, wherein the feeding station 900 and the marking station 901 are both disposed on the working table 13, and the feeding station 900 and the marking station 901 are relatively spaced apart. In this embodiment, the feeding station 900 and the marking station 901 are switched in a rotating manner, feeding can be performed on the feeding station 900 in advance during marking operation, after the marking operation is completed on the marking station 901, the feeding station 900 can be directly rotated to the marking station 901, the feeding station 900 at the moment can be used as the marking station 901 for marking, and the marking station 901 can be used as a blanking station for blanking and then used for waiting for the next round of marking, so that the time for waiting for feeding and the time for waiting for blanking can be saved, and the production efficiency is greatly improved. Specifically, the feeding station 900 is used as the marking station 901 after rotating to the position of the marking station 901, and the marking station 901 is used as the feeding station 900 after rotating to the position of the feeding station 900, which of course also has the function of blanking. The feeding station 900 and the marking station 901 are arranged at intervals, so that the functions of the feeding station 900 and the marking station 901 can be conveniently converted. Preferably, the feeding station 900 and the marking station 901 are separated by a partition.

As an optimized solution of the embodiment of the present invention, please refer to fig. 1 to 13, the driving mechanism includes a DD motor 11, the DD motor 11 is located below the working table 13, and an output shaft of the DD motor 11 is perpendicular to the working table 13. In this embodiment, the DD motor 11 may be used for driving the table 13 to rotate, so as to drive the positions of the feeding station 900 and the marking station 901 on the table 13 to be changed.

As an optimization scheme of the embodiment of the present invention, please refer to fig. 1 to 13, the workbench further includes a mounting bottom plate 9 for the driving mechanism to rest, and an adjusting bottom plate 10 is clamped between the driving mechanism and the mounting bottom plate 9. In this embodiment, the installation floor can facilitate the installation of the driving mechanism and also facilitate the installation of the jacking mechanism 8. The adjusting floor can adjust the gap according to the actual design size.

As an optimization scheme of the embodiment of the present invention, please refer to fig. 1 to 13, wherein the working table 13 is circular. In the present embodiment, the work table 13 is thinned into a circular shape, which can facilitate the design of the structure to optimize the space. Of course, other shapes than circular, such as square, are also possible, but the space that might be occupied is somewhat larger.

Example three:

referring to fig. 1 to 13, an embodiment of the present invention provides a router laser marking machine, including laser vision positioning processing mechanism 5, further including the above-mentioned workstation with adjustable processing angle, laser vision positioning processing mechanism 5 processes the workpiece to be processed on the workstation. In this embodiment, the jacking mechanism 8 is adopted to change the inclined first plane 902 to be marked of the workpiece to be processed to a horizontal state, so that marking is facilitated, and thus, only one processing device needs to move in the horizontal direction to complete the processing of the first plane 902 to be marked and the second plane 903 to be marked at two different positions. Specifically, in the laser marking operation, the processing station may be the marking station 901, for example, when the router 719 performs marking, since the router has the first to-be-marked plane 902 and the second to-be-marked plane 903 forming an included angle, the jacking mechanism 8 may be used to adjust the first to-be-marked plane 902, which is originally in an inclined state, to be in a horizontal state, so as to facilitate the marking operation of the laser visual positioning processing mechanism 5. Preferably, this marking machine is whole still includes rack 1, protection casing 2, safe light curtain 3 and Z axle straight line module 4, and wherein rack 1 supplies each parts installation, and safety can be ensured to protection casing 2 and safe light curtain 3, and Z axle straight line module 4 can provide the ascending linear motion of Z axle side. In addition, the position of the mounting baseplate 9 can be adjusted by adjusting the bolts 12. While flanged linear bearings 14 facilitate the installation of the marking station 901.

As the embodiment of the utility model discloses an optimization scheme please refer to fig. 1 to fig. 13, this router 719 laser marking machine can also include rotatory unloading workstation 6 of going up, climbing mechanism 8 does not push up before marking station 901, mark the work piece of treating on the station 901 and be in the horizontality, climbing mechanism 8 pushes up mark behind the station 901, mark the work piece of treating on the station 901 and be in the tilt state. In this embodiment, the feeding station 900 and the marking station 901 are switched in a rotating manner, feeding can be performed on the feeding station 900 in advance during marking operation, after the marking operation is completed on the marking station 901, the feeding station 900 can be directly rotated to the marking station 901, the feeding station 900 at the moment can be used as the marking station 901 for marking, and the marking station 901 can be used as a blanking station for blanking and then used for waiting for the next round of marking, so that the time for waiting for feeding and the time for waiting for blanking can be saved, and the production efficiency is greatly improved. Specifically, the feeding station 900 is used as the marking station 901 after rotating to the position of the marking station 901, and the marking station 901 is used as the feeding station 900 after rotating to the position of the feeding station 900, which of course also has the function of blanking. The feeding station 900 and the marking station 901 are arranged at intervals, so that the functions of the feeding station 900 and the marking station 901 can be conveniently converted. Preferably, the feeding station 900 and the marking station 901 are separated by a partition.

As an optimization scheme of the embodiment of the present invention, please refer to fig. 1 to 13, an oil buffer 15 is disposed on the working table 13, the oil buffer 15 is located between the marking station 901 and the working table 13, and the oil buffer 15 is used for buffering the marking station 901 when the marking station 901 descends. In the present embodiment, the hydraulic shock absorber 15 is provided to perform a shock absorbing function.

As an optimization scheme of the embodiment of the present invention, please refer to fig. 1 to 13, the working table 13 is provided with a hole for the lower structure of the marking station 901 to pass through, and the lower structure is butted with the driving end of the jacking mechanism 8. In this embodiment, the hole is provided, which facilitates the butt joint between the jacking mechanism 8 and the marking station 901.

As an optimization scheme of the embodiment of the present invention, please refer to fig. 1 to 13, refine the above-mentioned jacking mechanism 8, the jacking mechanism 8 includes a lower top block 807 capable of being butted with a lower structure of the marking station 901, and a shock absorption block 808 is arranged on the lower top block 807. The jacking mechanism 8 comprises a jacking linear module 803 for driving the lower jacking block 807 to move in the vertical direction. In this embodiment, specifically, the structure of the jacking mechanism 8 is as shown in fig. 10, the jacking linear module 803 is fixed on the mounting base plate 9 through the upper module fixing bracket 801, the lower module fixing bracket 802 and the module fixing plate 810, the lower jacking block 807 is fixed together through the connecting plate 804, the side fixing plate 805, the upper fixing plate 806 and the jacking linear module 803, the lower jacking block 807 is driven to move up and down together when the jacking linear module 803 moves up and down, and the second magnet 809 and the shock absorbing block 808 are mounted on the lower jacking block 807. When the jacking mechanism 8 lifts upwards, the lower jacking block 807 and the upper jacking block 718 are attached together (the damping block 808 buffers left and right during attachment), and at the moment, the second magnet 809 and the first magnet 720 are mutually attracted together; at this time, the jacking mechanism 8 continues to move upwards, and the upper jacking block 718 drives the slider of the linear sliding rail 708 to move upwards (the slider slides on the sliding rail at the same time) through the upright 716, the connecting plate 712, the connecting frame 711, the hinge pin and the retainer ring 710, and the slider connecting plate 709, so as to drive the jig 7 to rotate around the rotating shaft 702. When the jacking mechanism 8 moves downwards, the jig 7 falls back to the horizontal position (fig. 5 and 6) from the jacking position (fig. 7 and 8) under the combined action of the compression spring 717, the second magnet 809 and the first magnet 720, and the buffer stop 713 and the hydraulic buffer 15 play a buffering role during falling back; at this time, the lift mechanism 8 continues to move downward, and the second magnet 809 and the first magnet 720 are separated. Preferably, the jacking mechanism further comprises an upper module bracket 801 and a lower module bracket 802 for fixed support.

So far, this router laser marking machine has refined and has accomplished, and its specific working method is:

the worker manually puts the product router 719 on the product positioning block 706 of the fixture 7, and abuts against two fixed edges of the product positioning block 706 under the pushing force of the product pushing block 707 (fig. 9), so as to position the product. At the moment, a start button is pressed, under the action of a preset program, the DD motor 11 rotates, so that the worktable surface 13 is driven to rotate 180 degrees, the router 719 rotates from the feeding station 900 to the marking station 901 (figure 4), the laser visual positioning machining mechanism 5 marks a second plane 903 (figure 13) to be marked of the router 719, after the second to-be-marked plane 903 is marked, the jacking mechanism 8 moves upwards to jack up the jig 7, so that the jig 7 rotates to an inclined position (fig. 7 and 8) from a horizontal position (fig. 5 and 6), the first to-be-marked plane 902 of the router 719 is changed from an inclined state to a horizontal state (the rotating angle of the jig is the same as the inclined angle of the first to-be-marked plane 902 of the router 719), and the laser visual positioning processing mechanism 5 works again to mark the first to-be-marked plane 902 (fig. 13) of the router 719. After the marking of the first plane 902 to be marked of the router 719 is completed, the jacking mechanism 8 moves downward, and the jig 7 rotates from the inclined position (fig. 7 and 8) to the horizontal position (fig. 5 and 6)). The DD motor 11 rotates again to drive the working table 13 to rotate 180 °, so that the router 719 rotates from the marking station 901 to the feeding station 900, and meanwhile, the product to be marked at the feeding station 900 rotates to the marking station 901 to mark the next product. When the marking station 901 marks, the feeding station 900 synchronously feeds materials, so that the manual auxiliary time can be greatly reduced, the laser visual positioning machining mechanism 5 is in a working state for a long time, and the utilization rate of equipment is greatly improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a unloading workstation in rotation which characterized in that: including the material loading station, beat mark station, table surface and order about table surface rotary actuating mechanism, the material loading station with beat the mark station and all locate table surface is last just the material loading station with beat the relative interval setting of mark station.

2. The rotary loading and unloading workbench of claim 1, wherein: the driving mechanism comprises a DD motor, the DD motor is located below the working table, and an output shaft of the DD motor is perpendicular to the working table.

3. The rotary loading and unloading workbench of claim 1, wherein: the device also comprises an installation bottom plate for placing the driving mechanism, and an adjustment bottom plate is clamped between the driving mechanism and the installation bottom plate.

4. The rotary loading and unloading workbench of claim 1, wherein: the working table surface is circular.

5. The rotary loading and unloading workbench of claim 1, wherein: the feeding station and the marking station are separated by a partition plate.

6. The utility model provides a router laser marking machine which characterized in that: the rotary feeding and discharging workbench according to any one of claims 1 to 5 and the jacking mechanism for lifting the marking station, wherein before the jacking mechanism jacks up the marking station, a workpiece to be processed on the marking station is in a horizontal state, and after the jacking mechanism jacks up the marking station, the workpiece to be processed on the marking station is in an inclined state.

7. The router laser marking machine of claim 6, wherein: the hydraulic buffer is arranged on the working table surface and is used for buffering the marking station when the marking station descends.

8. The router laser marking machine of claim 6, wherein: the working table surface is provided with a hole for the lower structure of the marking station to pass through, and the lower structure is in butt joint with the driving end of the jacking mechanism.

9. The router laser marking machine of claim 6, wherein: the jacking mechanism comprises a lower jacking block which can be in butt joint with a lower structure of the marking station, and a damping block is arranged on the lower jacking block.

10. The router laser marking machine of claim 9, wherein: the jacking mechanism comprises a jacking linear module used for driving the lower jacking block to move in the vertical direction.

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