CN114273804A - Automatic over-and-under type high pressure air-blower adsorption platform - Google Patents

Abstract

The invention discloses an automatic lifting type high-pressure air blower adsorption platform which comprises a base, a lifting frame, an adsorption platform and a correction device, wherein the base, the lifting frame, the adsorption platform and the correction device are sequentially arranged from bottom to top, the lifting frame is used for adjusting the height of the lifting frame to drive an object to be marked to move upwards or downwards, the adsorption platform moves upwards or downwards to a preset height position along with the lifting frame, the correction device comprises an adsorption shifting assembly and a correction fixing assembly, the adsorption shifting assembly positions the object to be marked and drives the object to be marked to complete position adjustment and correction, and the correction fixing assembly is used for driving the object to be marked to transfer to complete angle correction of the object to be marked. The adsorption platform is arranged to generate adsorption effect on the correcting device and the object to be marked, the adsorption shifting assembly is used for adjusting and correcting the position of the object to be marked, and the correction fixing assembly is used for adjusting and correcting the angle of the object to be marked, so that the problem of angular deviation in the position correction process is solved, and the laser marking precision is improved.

Description

Automatic over-and-under type high pressure air-blower adsorption platform

Technical Field

The invention relates to the technical field of laser marking, in particular to an automatic lifting type high-pressure air blower adsorption platform.

Background

The laser marking method is characterized in that a laser with high energy density is utilized to locally irradiate an object to be marked, so that a surface layer material is vaporized or undergoes a chemical reaction with color change, and a permanent mark is left.

The existing adsorption platform is used for achieving the best effect of laser marking, the correction assembly is designed to correct the side edge of an object to be marked adsorbed on the adsorption platform in a side edge horizontal pushing mode, the correction mode is suitable for the cuboid object to be marked and the object to be marked in an initial state, the angle deviation of the object to be marked is not more than 90 degrees, the object to be marked is easy to generate angle deviation in the correction process when the correction mode is adopted for the object to be marked with a groove or a bulge, and the laser marking font is not correct.

Disclosure of Invention

Therefore, the invention provides an automatic lifting type high-pressure air blower adsorption platform, which solves the problem that laser marking fonts are not correct due to angle deviation in the correction process in the prior art.

In order to solve the technical problems, the invention specifically provides the following technical scheme: an automatic over-and-under type high pressure blower adsorption platform includes:

a base placed on a horizontal plane;

the lifting frame is arranged on the base and used for adjusting the height of the lifting frame so as to drive the object to be marked to move up or down;

the adsorption platform is arranged on the upper end face of the lifting frame and moves up or down to a preset height position along with the lifting frame;

the correcting device is arranged on the adsorption platform and used for correcting the position and the angle of an object to be marked;

the correcting device comprises an adsorption shifting assembly and a correction fixing assembly, wherein the adsorption shifting assembly is tightly attached to the adsorption platform and is arranged on the adsorption shifting assembly, the adsorption shifting assembly is used for positioning and driving the object to be marked, the object to be marked is required to be adjusted in position and corrected, and the correction fixing assembly is used for driving the object to be marked to be transferred to complete the angle correction of the object to be marked.

As a preferable scheme of the present invention, the lifting frame includes a plurality of fixed posts uniformly arranged on the base, a sliding post slidably arranged in the fixed post, a lifting footstock arranged at an upper end of the sliding post, a positioning post arranged on the base, a threaded lifting shaft threadedly connected to the positioning post, and a first driving motor connected to the threaded lifting shaft, wherein the first driving motor is arranged on a lower end face of the lifting footstock, and drives the threaded lifting shaft to rotate.

As a preferable aspect of the present invention, the adsorption platform includes an adsorption base plate disposed on the lifting footstock, a negative pressure cavity disposed in the adsorption base plate, a negative pressure joint disposed in the negative pressure cavity, and a first adsorption hole disposed on the adsorption base plate, the negative pressure joint extends to the outside of the negative pressure cavity, and an end of the negative pressure joint is connected to a blower.

As a preferable scheme of the present invention, a plurality of sealing strips are disposed in the negative pressure chamber, opposite to the lower side of the first adsorption hole, every four sealing strips form a sealed frame, a connecting frame is correspondingly bonded to the lower side of each sealing frame, a hydraulic cylinder is disposed below the connecting frame, the hydraulic cylinder is installed in the negative pressure chamber, sealing bumps are disposed above the sealing strips, and each sealing bump is correspondingly matched with the first adsorption hole.

As a preferable scheme of the present invention, the bonding points of the connection frame and the sealing frame are disposed below each sealing bump, and the length and the width of the sealing frame and the connection frame are consistent;

the sealing strip is made of rubber, the part of the sealing strip below the first adsorption hole is in an empty state, and the part of the sealing strip far away from the lower part of the first adsorption hole is bonded on the inner wall of the negative pressure cavity.

As a preferable aspect of the present invention, the suction displacement assembly includes a suction top plate disposed on the suction platform, and mounting seats disposed at two ends of the suction top plate, and a plurality of second suction holes corresponding to the first suction holes are formed in the suction top plate in a penetrating manner.

As a preferable scheme of the invention, a control cavity is arranged in the mounting seat, a driving threaded column is arranged in the control cavity, a second driving motor is connected to the driving threaded column, a threaded cylinder is in threaded connection with the driving threaded column, a first side push rod is connected to the side edge of the threaded cylinder, the first side push rod penetrates through the mounting seat, a sliding groove for the first side push rod to slide is formed in the side wall of the mounting seat, and a first side push plate parallel to the side edge of the adsorption top plate is arranged on the first side push rod.

As a preferable scheme of the invention, a first transmission gear is arranged at the end part of the driving threaded column, a second transmission gear is meshed with the side edge of the first transmission gear, a third transmission gear is meshed with the side edge of the second transmission gear, a fourth transmission gear is meshed with the side edge of the third transmission gear, a threaded shaft is connected to the fourth transmission gear, a second side push rod is connected to the threaded shaft through external threads, the second side push rod is arranged on the mounting seat in a penetrating manner, and a second side push plate is connected to the second side push rod;

the first transmission gear, the second transmission gear, the third transmission gear and the fourth transmission gear have the same pitch.

As a preferable scheme of the present invention, an adjusting long groove through which the second side push rod passes is provided on the mounting seat, a sliding groove seat is slidably provided in the adjusting long groove, the second side push rod passes through the sliding groove seat, and the sliding groove seat is fixed in the adjusting long groove through a positioning bolt.

As a preferable scheme of the present invention, the correcting and fixing assembly includes an installation cavity disposed in an end portion of the adsorption top plate, a strike groove disposed in the installation cavity, a fixing shaft slidably disposed in the strike groove, and a pushing cylinder disposed in the installation cavity, the pushing cylinder pushes the fixing shaft to slide in the strike groove, a slot corresponding to the strike groove is disposed on an upper end surface of the adsorption top plate, the slot and the strike groove have the same shape and size, and the fixing shaft extends to a position above the slot.

Compared with the prior art, the invention has the following beneficial effects:

the adsorption platform is arranged to adsorb the correcting device and the object to be marked, the adsorption displacement assembly adjusts and corrects the position of the object to be marked, and the correction fixing assembly adjusts and corrects the angle of the object to be marked, so that the problem of angular deviation in the position correction process is solved, and the laser marking precision is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

Fig. 1 is a schematic structural diagram of an adsorption platform of an automatic lifting high-pressure blower according to an embodiment of the present invention;

FIG. 2 is a schematic view of the internal structure of the adsorption base plate in the embodiment of the present invention;

FIG. 3 is a schematic view of the surface structure of the adsorption base plate in the embodiment of the present invention;

FIG. 4 is a schematic structural view of an inner top surface of a negative pressure chamber in an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of an adsorption displacement assembly according to an embodiment of the present invention;

FIG. 6 is a schematic side view of a mounting base according to an embodiment of the present invention;

FIG. 7 is a schematic view of the surface structure of the adsorption ceiling plate in the embodiment of the present invention;

fig. 8 is a schematic view of the internal structure of the adsorption ceiling plate in the embodiment of the present invention.

The reference numerals in the drawings denote the following, respectively:

1-a base; 2, a lifting frame; 3-marking an object to be marked; 4-an adsorption platform; 5-a correction device;

21-a fixed shaft; 22-sliding shaft column; 23-lifting top seat; 24-a locating post; 25-a threaded lifting shaft; 26-a first drive motor;

41-adsorption bottom plate; 42-a negative pressure cavity; 43-negative pressure joint; 44-first adsorption holes; 45-a blower; 46-a sealing strip; 47-a connecting frame; 48-hydraulic cylinder; 49-sealing bumps;

51-a suction displacement assembly; 52-correction fixation assembly;

511-adsorption of the top plate; 512-a mounting seat; 513 — a second adsorption well; 514-control chamber; 515-driving the threaded post; 516-a threaded barrel; 517-first side push rod; 518-a sliding groove; 519-a first side push plate; 5110-first drive gear; 5111-a second transmission gear; 5112-third drive gear; 5113-fourth transfer gear; 5114-threaded shaft; 5115-second side push rod; 5116-second side push plate; 5117-adjusting the long groove; 5118-a chute base; 5119-a set screw; 5120-a second drive motor;

521-an installation cavity; 522-moving towards the groove; 523-fixed shaft; 524-pushing the air cylinder; 525-slotting.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, the invention provides an automatic lifting type high-pressure blower adsorption platform, which is arranged to adsorb a correction device and an object to be marked, wherein an adsorption displacement assembly is used for adjusting and correcting the position of the object to be marked, and a correction fixing assembly is used for adjusting and correcting the angle of the object to be marked, so that the problem of angular deviation in the position correction process is solved, and the laser marking precision is improved.

The invention comprises a base 1, a lifting frame 2, an adsorption platform 4 and a correction device 5, wherein the base 1 is placed on a horizontal plane (used for supporting the whole device); the lifting frame 2 is arranged on the base 1, and the lifting frame 2 is used for adjusting the height of the lifting frame to drive the object 3 to be marked to move up or down (controlling the lifting of the whole device); the adsorption platform 4 is arranged on the upper end face of the lifting frame 2, and the adsorption platform 4 moves up or down to a preset height position along with the lifting frame 2; and the correcting device 5 is arranged on the adsorption platform 4, and the correcting device 5 is used for correcting the position and the angle of the object to be marked 3.

The lifting frame 2 is mainly used for driving the adsorption platform 4 and the correcting device 5 to lift so as to be matched with the correcting device 5 to enable an object 3 to be marked to be located at a laser focal distance of laser marking equipment, the lifting frame 2 comprises a plurality of fixed shaft columns 21 uniformly arranged on a base 1, sliding shaft columns 22 arranged in the fixed shaft columns 21 in a sliding mode, a lifting top seat 23 arranged at the upper ends of the sliding shaft columns 22, positioning columns 24 arranged on the base 1, threaded lifting shafts 25 connected to the positioning columns 24 in a threaded mode, and first driving motors 26 connected to the threaded lifting shafts 25, the first driving motors 26 are arranged on the lower end face of the lifting top seat 23, and the first driving motors 26 drive the threaded lifting shafts 25 to rotate.

The first driving motor 26 is driven to drive the threaded lifting shaft 25 to rotate, so that the threaded lifting shaft 25 gradually disengages from the positioning column 24 to directly drive the lifting top seat 23 to ascend, and the fixed shaft column 21 and the sliding shaft column 22 on the peripheral side play a limiting role (preventing the threaded lifting shaft 25 from driving the positioning column 24 to rotate) in the ascending process.

The adsorption platform 4 mainly plays a role in adsorbing the object 3 to be marked, and the adsorption platform 4 mainly adopts the following preferred embodiment, as shown in fig. 2 and fig. 3, the adsorption platform 4 comprises an adsorption base plate 41 arranged on the lifting top seat 23, a negative pressure cavity 42 arranged in the adsorption base plate 41, a negative pressure joint 43 arranged in the negative pressure cavity 42, and a first adsorption hole 44 arranged on the adsorption base plate 41, wherein the negative pressure joint 43 extends out of the negative pressure cavity 42, the end part of the negative pressure joint 43 is connected with an air blower 45, and the inside of the negative pressure cavity 42 is in a negative pressure state through the action of the air blower 45, so that the first adsorption hole 44 can adsorb the upper device.

The first suction holes 44 are regularly arranged on the suction base plate 41 in the above embodiment, and in order to control the suction force above the first suction holes 44, the number of the first suction holes 44 generating the suction force can be controlled, and in the practical application process, the object to be marked 3 does not completely cover the upper side of the first suction holes 44 in the vertical direction, so that the first suction holes 44 partially not below the object to be marked 3 need to be stopped, and the suction force of each first suction hole 44 reaches the maximum.

The present invention mainly adopts the following preferred embodiments to achieve the above object, as shown in fig. 2 and 4, a plurality of sealing strips 46 are arranged in the negative pressure chamber 42 and opposite to the lower part of the first suction hole 44, every four sealing strips 46 form a closed sealing frame, a connecting frame 47 is correspondingly bonded below each sealing frame, a hydraulic cylinder 48 is arranged below the connecting frame 47, the hydraulic cylinder 48 is installed in the negative pressure chamber 42, a sealing bump 49 is arranged above each sealing strip 46, and each sealing bump 49 is correspondingly matched with the first suction hole 44.

The hydraulic cylinder 48 drives the connecting frame 47 to move downwards, the connecting frame 47 drives the bonding part of the sealing strip 46 to move downwards so as to drive the sealing bump 49 to move downwards to be separated from the first adsorption hole 44, under normal conditions, the sealing bump 49 is clamped in the first adsorption hole 44, that is, the first adsorption hole 44 is in a closed state under normal conditions, when the adsorption force is required to be generated on the object to be marked 3 above the adsorption bottom plate 41, the hydraulic cylinder 48 needs to be driven to pull down each connecting frame 47 one by one from inside to outside at the moment, the connecting frame 47 below the edge of the object to be marked 3 from inside to outside is pulled, the first adsorption hole 44 above is driven to be in an open state, and at the moment, the air blower 45 drives the object to be marked 3 above the open first adsorption hole 44 to form adsorption force.

In order to enable the connecting frame 47 to bring the sealing frame part downwards, the bonding points of the connecting frame 47 and the sealing frame are arranged below each sealing bump 49, and the lengths and the widths of the sealing frame and the connecting frame 47 are consistent.

In addition, in order to make the sealing tape 46 itself always adhere to the inner wall of the negative pressure chamber 42 and to enable the sealing tape 46 to return to the initial state, in the present embodiment, the sealing tape 46 is provided in a rubber material, the portion of the sealing tape 46 below the first suction hole 44 is in an empty state, and the portion of the sealing tape 46 away from the lower portion of the first suction hole 44 adheres to the inner wall of the negative pressure chamber 42.

In the process that the hydraulic cylinder 48 drives the connecting frame 47 to move downwards, only the vacant part of the sealing strip 46 moves downwards along with the connecting frame 47 and drives the sealing lug 49 to move downwards, in order to enable the sealing lug 49 not to be completely pulled out to form adsorption force on the object 3 to be marked, an air suction channel can be arranged in the sealing lug 49, and as long as the connecting frame 47 is slightly pulled down to drive the sealing lug 49 to move downwards for a small section, the air suction channel can be communicated with the inside of the negative pressure cavity 42 and enable the adsorption force to be formed above the sealing lug 49.

In addition, in the practical application process, aiming at the same object 3 to be marked, the sealing state of the first adsorption holes 44 can be adjusted in advance, the adsorption of the object 3 to be marked can be completed only by starting the air blower 45 before the object 3 to be marked is marked, if the object 3 to be marked with different specifications (different in length and width) is marked, an infrared sensor can be arranged on the laser marking equipment at the moment, so that the actual length and width of the object 3 to be marked are judged, and the number of the hydraulic cylinders 48 driven from inside to outside (so that the number of the first adsorption holes 44 in the open state) can be adjusted according to the specification of the object 3 to be marked.

The invention adopts a correcting device 5 to correct the position and the angle of an object 3 to be marked, wherein the correcting device 5 mainly adopts the following preferred embodiment, the correcting device 5 comprises an adsorption shift component 51 which is arranged in a way of being tightly attached to an adsorption platform 4 and a correction fixing component 52 which is arranged on the adsorption shift component 51, the adsorption shift component 51 positions the object 3 to be marked and drives the object 3 to be marked to complete the position adjustment and correction, and the correction fixing component 52 is used for driving the object 3 to be marked to transfer so as to complete the angle correction of the object 3 to be marked.

As shown in fig. 5, the adsorption shift assembly 51 includes an adsorption top plate 511 disposed on the adsorption platform 4, and mounting seats 512 disposed at two ends of the adsorption top plate 511, and a plurality of second adsorption holes 513 corresponding to the first adsorption holes 44 are disposed on the adsorption top plate 511 in a penetrating manner, in this embodiment, in the actual application process, adsorption top plates 511 of different specifications (the number and distribution of the second adsorption holes 513 are different) are selected according to different types of objects 3 to be marked, so that the adsorption top plates 511 of different specifications can correspond to the first adsorption holes 44 below in an open state.

In order to correct the position of the object 3 to be marked, a control cavity 514 is arranged in the mounting base 512, a driving threaded column 515 is arranged in the control cavity 514, a second driving motor 5120 is connected to the driving threaded column 515, a threaded cylinder 516 is connected to the driving threaded column 515 in a threaded manner, a first side push rod 517 is connected to the side edge of the threaded cylinder 516, the first side push rod 517 penetrates through the mounting base 512, a sliding groove 518 (shown in fig. 6) for the first side push rod 517 to slide is formed in the side wall of the mounting base 512, and a first side push plate 519 parallel to the side edge of the adsorption top plate 511 is arranged on the first side push rod 517.

The second driving motor 5120 is driven to drive the driving threaded column 515 to rotate so as to drive the threaded cylinder 516 to translate, the first side push rod 517 drives the first side push plate 519 to translate along with the translation of the threaded cylinder 516, and the first side push plate 519 pushes the upper side of the adsorption top plate 511 to complete the correction of the upper side of the adsorption top plate 511.

In order to correct the left side and the right side of the adsorption top plate 511 while completing the correction of the upper side of the adsorption top plate 511, a first transmission gear 5110 is arranged at the end of the driving threaded column 515, a second transmission gear 5111 is meshed with the side of the first transmission gear 5110, a third transmission gear 5112 is meshed with the side of the second transmission gear 5111, a fourth transmission gear 5113 is meshed with the side of the third transmission gear 5112, a threaded shaft 5114 is connected to the fourth transmission gear 5113, a second side push rod 5115 is connected to the threaded shaft 5114 through an external thread, the second side push rod 5115 is arranged on the mounting seat 512 in a penetrating manner, and a second side push plate 5116 is connected to the second side push rod 5115, wherein the first transmission gear 5110, the second transmission gear 5111, the third transmission gear 5112 and the fourth transmission gear 5113 have the same pitch.

In this embodiment, the second driving motor 5120 drives the first transmission gear 5110 to rotate, so that the second transmission gear 5111, the third transmission gear 5112 and the third transmission gear 5112 drive the threaded shaft 5114 to rotate, the second side pushing rod 5115 is driven to move outwards under the rotation action of the threaded shaft 5114, and the second side pushing rod 5115 drives the second side pushing plate 5116 to perform side pushing correction on the left and right sides of the adsorption top plate 511.

In the practical application process, the fourth transmission gear 5113, the threaded shaft 5114, the second side push rod 5115 and the second side push plate 5116 are replaceable components, the radii of the fourth transmission gear 5113 of different replaceable components are different, so that the side push distances transmitted to the second side push rod 5115 are different, each replaceable component corresponds to a certain side push distance ratio (the ratio of the side push distance of the first side push plate 519 to the side push distance of the second side push plate 5116), that is, different replaceable components are selected in the practical process, the second driving motor 5120 rotates for a certain number of turns, the side push distance of the first side push plate 519 is certain, the side push distance of the second side push plate 5116 changes according to the side push distance ratio of the corresponding replaceable component, accordingly, in the practical process, the corresponding replaceable component is selected, and the second driving motor 5120 is driven to rotate for a certain number of turns, so that the position correction of the top plate 511 and the object to be marked can be realized (it is required to ensure that the object 3 to be marked is located at the center of the top plate 511).

In order to facilitate installation of the replacement parts, as shown in fig. 6, an adjustment elongated slot 5117 through which the second side push rod 5115 passes is formed in the mounting seat 512, a sliding groove seat 5118 is slidably disposed in the adjustment elongated slot 5117, the second side push rod 5115 is disposed on the sliding groove seat 5118 in a penetrating manner, the sliding groove seat 5118 is fixed in the adjustment elongated slot 5117 through a positioning bolt 5119, and the positioning bolt 5119 can be used to fix the replacement parts in the adjustment elongated slot 5117.

In addition, the angle of the object 3 to be marked is corrected through the correcting and fixing component 52, and the correcting and fixing component 52 adopts the following preferred embodiment, as shown in fig. 7 and 8, the correcting and fixing component 52 comprises a mounting cavity 521 arranged in the end part of the adsorption top plate 511, a trend groove 522 arranged in the mounting cavity 521, a fixed shaft 523 arranged in the trend groove 522 in a sliding manner, and a pushing cylinder 524 arranged in the mounting cavity 521, wherein the pushing cylinder 524 pushes the fixed shaft 523 to slide in the trend groove 522, the upper end surface of the adsorption top plate 511 is provided with a slot 525 corresponding to the trend groove 522, the shapes and the sizes of the slot 525 and the trend groove 522 are consistent, and the fixed shaft 523 extends to the upper part of the slot 525.

Treat to mark article 3 for example with the cuboid that has the recess, when treating to mark article 3 and appear slightly squinting, fixed axle 523 can drive in gliding in-process and treat to mark article 3 playback to preset the position under the normal conditions, in this embodiment, the inboard of fluting 525 just with treat to mark the inslot wall laminating of article 3, identically, if treat to mark article 3 for there being bellied cuboid, fluting 525 then corresponds and extends to bellied both sides, fluting 525 mainly comprises the different grooves in two sections positions, mainly be for correcting the angle of treating to mark article 3, mark article 3 according to treating of different specifications, change the specification of fluting 525 in this embodiment (chooseing different absorption roof 511 for use) according to actual conditions.

The above embodiments are only exemplary embodiments of the present application, and are not intended to limit the present application, and the protection scope of the present application is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present application and such modifications and equivalents should also be considered to be within the scope of the present application.

Claims (10)

1. The utility model provides an automatic over-and-under type high pressure air-blower adsorption platform which characterized in that includes:

a base (1) placed on a horizontal plane;

the lifting frame (2) is arranged on the base (1), and the lifting frame (2) is used for adjusting the height of the lifting frame to drive the object (3) to be marked to move up or down;

the adsorption platform (4) is arranged on the upper end face of the lifting frame (2), and the adsorption platform (4) moves up or down to a preset height position along with the lifting frame (2);

the correcting device (5) is arranged on the adsorption platform (4), and the correcting device (5) is used for correcting the position and the angle of the object to be marked (3);

correcting unit (5) include with adsorption platform (4) hug closely absorption aversion subassembly (51) that sets up and set up fixed subassembly (52) of correction on absorption aversion subassembly (51), it is right to adsorb aversion subassembly (51) wait to beat and to beat mark article (3) and fix a position and drive wait to beat and beat mark article (3) and accomplish position adjustment and correction, correct fixed subassembly (52) and be used for driving wait to beat and beat mark article (3) and shift in order to accomplish wait to beat the angle correction of marking article (3).

2. The automatic lifting type high-pressure blower adsorption platform as claimed in claim 1, wherein the lifting frame (2) comprises a plurality of fixed shaft columns (21) uniformly arranged on the base (1), sliding shaft columns (22) slidably arranged in the fixed shaft columns (21), a lifting top seat (23) arranged at the upper ends of the sliding shaft columns (22), positioning columns (24) arranged on the base (1), threaded lifting shafts (25) in threaded connection with the positioning columns (24), and first driving motors (26) connected to the threaded lifting shafts (25), the first driving motors (26) are arranged on the lower end faces of the lifting top seats (23), and the first driving motors (26) drive the threaded lifting shafts (25) to rotate.

3. The automatic lifting type high-pressure blower adsorption platform according to claim 2, wherein the adsorption platform (4) comprises an adsorption bottom plate (41) arranged on the lifting top seat (23), a negative pressure cavity (42) arranged in the adsorption bottom plate (41), a negative pressure joint (43) arranged in the negative pressure cavity (42), and a first adsorption hole (44) arranged on the adsorption bottom plate (41), the negative pressure joint (43) extends out of the negative pressure cavity (42), and an end of the negative pressure joint (43) is connected with a blower (45).

4. The automatic lifting type high-pressure blower suction platform is characterized in that a plurality of sealing strips (46) are arranged in the negative pressure cavity (42) and face the lower portion of the first suction hole (44), every four sealing strips (46) form a closed sealing frame, a connecting frame (47) is correspondingly bonded to the lower portion of each sealing frame, a hydraulic cylinder (48) is arranged below each connecting frame (47), the hydraulic cylinder (48) is installed in the negative pressure cavity (42), sealing convex blocks (49) are arranged above the sealing strips (46), and each sealing convex block (49) is correspondingly matched with the first suction hole (44).

5. The automatic lifting type high-pressure blower adsorption platform is characterized in that the bonding points of the connecting frame (47) and the sealing frame are arranged below each sealing bump (49), and the lengths and the widths of the sealing frame and the connecting frame (47) are consistent;

the sealing strip (46) is made of rubber, the part of the sealing strip (46) below the first adsorption hole (44) is in an empty state, and the part of the sealing strip (46) far away from the lower part of the first adsorption hole (44) is bonded on the inner wall of the negative pressure cavity (42).

6. The automatic lifting type high-pressure blower adsorption platform according to claim 5, wherein the adsorption shift assembly (51) comprises an adsorption top plate (511) arranged on the adsorption platform (4) and mounting seats (512) arranged at two ends of the adsorption top plate (511), and a plurality of second adsorption holes (513) corresponding to the first adsorption holes (44) are arranged on the adsorption top plate (511) in a penetrating manner.

7. The automatic lifting type high-pressure blower adsorption platform according to claim 6, wherein a control cavity (514) is arranged in the mounting seat (512), a driving threaded column (515) is arranged in the control cavity (514), a second driving motor (5120) is connected to the driving threaded column (515), a threaded cylinder (516) is in threaded connection with the driving threaded column (515), a first side push rod (517) is connected to the side edge of the threaded cylinder (516), the first side push rod (517) penetrates through the mounting seat (512), a sliding groove (518) for the first side push rod (517) to slide is formed in the side wall of the mounting seat (512), and a first side push plate (519) parallel to the side edge of the adsorption top plate (511) is arranged on the first side push rod (517).

8. The automatic lifting type high-pressure blower adsorption platform is characterized in that a first transmission gear (5110) is arranged at the end of the driving threaded column (515), a second transmission gear (5111) is meshed at the side edge of the first transmission gear (5110), a third transmission gear (5112) is meshed at the side edge of the second transmission gear (5111), a fourth transmission gear (5113) is meshed at the side edge of the third transmission gear (5112), a threaded shaft (5114) is connected onto the fourth transmission gear (5113), a second side push rod (5115) is connected to the threaded shaft (5114) through external threads, the second side push rod (5115) penetrates through the mounting seat (512), and a second side push plate (5116) is connected onto the second side push rod (5115);

the first transmission gear (5110), the second transmission gear (5111), the third transmission gear (5112) and the fourth transmission gear (5113) have the same tooth pitch.

9. The adsorption platform of the automatic lifting high-pressure blower according to claim 8, wherein the mounting base (512) is provided with an adjusting long groove (5117) for the second side push rod (5115) to pass through, a sliding groove seat (5118) is slidably arranged in the adjusting long groove (5117), the second side push rod (5115) is arranged on the sliding groove seat (5118) in a penetrating manner, and the sliding groove seat (5118) is fixed in the adjusting long groove (5117) through a positioning bolt (5119).

10. The automatic lifting type high-pressure blower adsorption platform according to claim 9, wherein the correction fixing assembly (52) comprises an installation cavity (521) arranged in the end portion of the adsorption top plate (511), a trend groove (522) arranged in the installation cavity (521), a fixing shaft (523) arranged in the trend groove (522) in a sliding manner, and a pushing cylinder (524) arranged in the installation cavity (521), wherein the pushing cylinder (524) pushes the fixing shaft (523) to slide in the trend groove (522), a slot (525) corresponding to the trend groove (522) is arranged on the upper end surface of the adsorption top plate (511), the slot (525) is identical to the trend groove (522) in shape and size, and the fixing shaft (523) extends to the position above the slot (525).

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