CN220314463U - Multi-station efficient printing machine - Google Patents

Abstract

The utility model discloses a multi-station efficient printing machine, which comprises: the printing device comprises a frame, a turntable device, at least one feeding mechanism, a printing device and at least one discharging mechanism, wherein a workbench is arranged on the frame, and a group of perforations are arranged on the workbench; the turntable device is arranged on the workbench, and at least two workbenches are arranged on the turntable device; the feeding mechanism is arranged on one side of a feeding port of the rotary table assembly and comprises a first feeding mechanism and a second feeding mechanism; the printing device is arranged on the workbench and at one end of the rotary table component far away from the feeding station; the discharging mechanism is arranged on the workbench and is arranged on one side of a discharge hole of the rotary table assembly. According to the multi-station efficient printing machine, the two work tables are arranged on the turntable device, and the two work tables are fed in turn through the two groups of feeding mechanisms, so that the printing efficiency can be effectively improved, and the production requirement can be better met.

Description

Multi-station efficient printing machine

Technical Field

The utility model belongs to the technical field of battery piece processing, and particularly relates to a multi-station efficient printing machine.

Background

In the processing process of the battery piece, silver paste printing processing is required to be carried out on the battery piece, most of conventional printing lines have only one printing station, and long waiting time exists among the working procedures of feeding, printing and discharging, so that the production efficiency of the battery piece is affected; although some production lines are provided with a plurality of positions for feeding, printing and discharging, the space occupation is large, the structure is complex, the position of the printing mechanism is not adjustable, and once deviation of the position of the printing station on the turntable on the printing mechanism occurs, the printing dislocation is caused, so that the product is scrapped;

therefore, the existing printing machine is still to be improved.

Disclosure of Invention

The utility model aims to: in order to overcome the defects, the utility model aims to provide the multi-station efficient printing machine, which can effectively improve the printing efficiency by arranging two work tables on the turntable device and feeding the two work tables in turn through two groups of feeding mechanisms.

The technical scheme is as follows: in order to achieve the above object, the present utility model provides a multi-station efficient printing machine, comprising:

the machine comprises a frame, wherein a workbench is arranged on the frame, and a group of perforations are arranged on the workbench;

the turntable device is arranged on the workbench, and at least two workbenches are arranged on the turntable device;

the feeding mechanism is arranged on one side of a feeding port of the rotary table assembly and comprises a first feeding mechanism and a second feeding mechanism;

the printing device is arranged on the workbench and is arranged at one end of the rotary table component far away from the feeding station;

and the discharging mechanism is arranged on the workbench and at one side of a discharge hole of the rotary table assembly.

According to the multi-station efficient printing machine, the two work tables are arranged on the turntable device, and the two work tables are fed in turn through the two groups of feeding mechanisms, so that the printing efficiency can be effectively improved, and the production requirement can be better met.

The rotary table device further comprises a rotary table assembly and a rotary driving mechanism, an anti-falling frame is arranged at a perforation position on the workbench, an inner groove is formed in the anti-falling frame, the rotary table assembly is arranged in the inner groove, the rotary driving mechanism is arranged below the anti-falling frame and fixedly connected with the anti-falling frame through a mounting seat, an output shaft of the rotary driving mechanism is connected with the rotary table assembly, and the first workbench is relatively arranged on the rotary table assembly.

The anti-drop frame comprises a mounting frame and an anti-drop cap, wherein the mounting frame is worn in a perforation of the workbench, the anti-drop cap is arranged above the mounting frame, and the outer diameter of the anti-drop cap is larger than the diameter of the perforation. The anti-drop cap is arranged, and the outer diameter of the anti-drop cap is larger than the diameter of the through hole, so that the rotary table assembly can be effectively prevented from falling off, and the rotary table assembly can be ensured to be more stable and safe in operation.

Further, the first feeding mechanism and the second feeding mechanism are arranged on the workbench front and back and are arranged at the feeding port of the turntable assembly.

Still further, first feed mechanism includes vertical mounting bracket, first transmission frame and first transmission driving motor, vertical mounting bracket passes through the fixing base and installs on the workstation, first transmission frame is erect on vertical mounting bracket, first transmission driving motor passes through motor mount pad and vertical mounting bracket fixed connection, the drive wheel of first transmission driving motor output passes through the belt and is connected with the driven transmission mechanism on the first transmission frame.

Preferably, the first feeding mechanism further comprises a set of lateral guiding mechanisms, the lateral guiding mechanisms are oppositely arranged on two sides of the transmission frame, each lateral guiding mechanism comprises a guiding fixing frame, a guiding wheel assembly and a bidirectional driving cylinder, each guiding wheel assembly is arranged on each guiding fixing frame, each bidirectional driving cylinder is connected with one side of the corresponding vertical installation frame through a fixing seat, and the output end of each bidirectional driving cylinder is connected with the corresponding guiding fixing frame through a transfer block. The setting of leading wheel subassembly plays fine guide effect to the transportation of battery piece, can effectually improve the stability of battery piece transportation.

Still further, second feed mechanism includes vertical support frame, support bracket, second transmission frame and second transmission motor, vertical support frame locates on the workstation, the support bracket is connected with vertical support frame is the over-and-under type, the second transmission frame is located on the support bracket, just second transmission frame is close to first feed mechanism one end and is equipped with second driven drive mechanism, the second transmission motor passes through the fixing base and is fixed with support bracket, the output of second transmission motor is equipped with the second drive wheel, the second drive wheel passes through the belt and is connected with second driven drive mechanism.

In addition, the second feeding mechanism further comprises a lifting driving cylinder, the lifting driving cylinder is connected with the vertical supporting frame through a fixing seat, and the output end of the lifting driving cylinder is connected with the supporting bracket;

and a group of sliding blocks are arranged on the inner wall, close to the lifting driving cylinder, of the vertical supporting frame, and the supporting bracket is in sliding connection with the sliding blocks through sliding rods. The second transmission frame can be lifted by the aid of the lifting driving cylinder, and the second transmission frame can be matched with two work tables on the turntable device better to work alternately.

Further, a group of guide adjusting frames are arranged on two sides of the second transmission frame, a group of adjusting holes are formed in the guide adjusting frames, and guide wheels are arranged in the adjusting holes. The position of the guide wheel can be adjusted according to actual needs by arranging the adjusting holes, so that the requirement of battery piece transportation is better met.

Still further, printing device includes lift adjustment mechanism, horizontal position adjustment mechanism and printing mechanism, lift adjustment mechanism is fixed in on the workstation, horizontal position adjustment mechanism locates lift adjustment mechanism's top, printing mechanism locates on the horizontal position adjustment mechanism. The lifting adjusting mechanism and the horizontal position adjusting mechanism can adjust the position of the printing mechanism, so that the printing mechanism can better meet the printing requirement of products.

The lifting adjusting mechanism comprises a lifting fixing seat, a lifting driving motor, an auxiliary driving cylinder, a group of lifting driving screw rod assemblies and a lifting sensing device, wherein the lifting fixing seat is fixed on the workbench, the lifting driving motor is fixedly connected with the mounting plate through the fixing seat, the mounting plate is fixed with the lower part of the workbench, the output end of the lifting driving motor is provided with a driving wheel, the auxiliary driving cylinder and the lifting driving motor are fixed on the same fixing seat, the lifting driving screw rod assemblies are distributed at four corners of the mounting plate, the upper parts of the lifting driving screw rod assemblies penetrate through a flange seat and a horizontal position adjusting mechanism after penetrating through shaft sleeves on the lifting fixing seat, driven wheels are arranged below the mounting plate through the auxiliary driving cylinder and the lifting driving screw rod assemblies, and the driving wheel is in transmission connection with the driven wheels through a belt;

the lifting induction device comprises a lifting induction frame and an induction assembly, wherein the top of the lifting induction frame is fixed on the lifting fixing seat through a horizontal position adjusting mechanism, and the lifting induction frame is matched with the induction assembly. The lifting sensing device is arranged, so that the lifting position of the printing mechanism can be detected.

The printing mechanism comprises a printing support frame, a printing head mounting frame, a printing vertical adjusting module, a printing head assembly and a printing screen frame assembly, wherein two groups of first sliding blocks are oppositely arranged on the printing support frame, the printing head mounting frame is in sliding connection with the first sliding blocks through a group of sliding rails, the end part of the printing head mounting frame is provided with a vertical mounting plate, the printing vertical adjusting module is fixed on the vertical mounting plate, the printing head assembly is connected with the printing vertical adjusting module in a lifting mode, and the printing screen frame assembly is fixed with the bottom of one end of the printing support frame and is arranged below the printing head assembly.

The printing mechanism further comprises a movable driving mechanism, the movable driving mechanism comprises a driving motor and a driving screw rod, the driving motor is fixedly connected with the printing support frame through a fixing seat, the driving screw rod is arranged at the output end of the driving motor, and the printing head mounting frame is connected with the driving screw rod through a sliding seat.

The technical scheme can be seen that the utility model has the following beneficial effects:

1. according to the multi-station efficient printing machine, the two first work tables are arranged on the rotary table device, and the two first work tables are fed in turn through the two groups of feeding mechanisms, so that the printing efficiency can be effectively improved, and the production requirement can be better met.

2. The anti-drop cap is arranged, and the outer diameter of the anti-drop cap is larger than the diameter of the through hole, so that the rotary table assembly can be effectively prevented from falling off, and the rotary table assembly can be ensured to be more stable and safe in operation.

3. The guide wheel assembly is arranged, so that the battery piece can be transported well, and the stability of the battery piece transportation can be effectively improved.

4. The arrangement of the adjusting holes enables the position of the guide wheels to be adjusted according to actual needs, and therefore the requirement of battery piece transportation is met better.

5. The printing device, the lifting adjusting mechanism and the horizontal position adjusting mechanism can adjust the position of the printing mechanism, so that the printing device can better meet the printing requirement of products.

Drawings

FIG. 1 is a schematic diagram of a multi-station efficient printer according to the present utility model;

FIG. 2 is a side view of a multi-station high efficiency printer of the present utility model;

FIG. 3 is a schematic view of the inside of a multi-station high efficiency printer according to the present utility model;

FIG. 4 is a schematic view of a part of the structure of the lifting adjusting mechanism in the utility model;

FIG. 5 is a schematic view of a part of the bottom view of the lifting adjusting mechanism according to the present utility model;

FIG. 6 is a schematic view of a feeding mechanism according to the present utility model;

FIG. 7 is a partial schematic view of a slide bar according to the present utility model;

FIG. 8 is a schematic diagram of a portion of a lift sensing device according to the present utility model;

fig. 9 is a schematic view of the conveyor belt installation in the feeding mechanism of the present utility model.

Detailed Description

The utility model is further elucidated below in connection with the drawings and the specific embodiments.

Examples

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

A multi-station high efficiency printer as shown in fig. 1 to 6, comprising: the printing device comprises a frame 1, a turntable device 3, at least one feeding mechanism 4, a printing device 5 and at least one discharging mechanism 6, wherein a workbench 2 is arranged on the frame 1, and a group of perforations are arranged on the workbench 2; the turntable device 3 is arranged on the workbench 2, and at least two first workbenches 31 are arranged on the turntable device 3; the feeding mechanism 4 is arranged on one side of a feeding port of the rotary table assembly 3; the printing device 5 is arranged on the workbench 2 and is arranged at one end of the rotary table assembly 3 far away from the feeding station; the discharging mechanism 6 is arranged on the workbench and is arranged on one side of a discharge hole of the rotary table assembly 3.

The turntable device 3 as shown in fig. 1 and 3 further comprises a turntable assembly 32 and a rotation driving mechanism 33, wherein an anti-falling frame 34 is arranged at a perforation position on the workbench 2, an inner groove 341 is arranged on the anti-falling frame 34, the turntable assembly 32 is arranged in the inner groove 341, the rotation driving mechanism 33 is arranged below the anti-falling frame 34 and is fixedly connected with the anti-falling frame 34 through a mounting seat, an output shaft of the rotation driving mechanism 33 is connected with the turntable assembly 32, and the first workbench 31 is oppositely arranged on the turntable assembly 32;

the anti-falling frame 34 comprises a mounting frame 342 and an anti-falling cap 343, the mounting frame 342 is penetrated in the perforation of the workbench 2, the anti-falling cap 343 is arranged above the mounting frame 342, and the outer diameter of the anti-falling cap 343 is larger than the diameter of the perforation. Can effectively prevent the slipping of the anti-falling frame and improve the working safety.

The feeding mechanism 4 shown in fig. 5 includes a first feeding mechanism 41 and a second feeding mechanism 42, and the first feeding mechanism 41 and the second feeding mechanism 42 are provided on the table 2 back and forth and at a feed port of the turntable assembly 32.

The first feeding mechanism 41 comprises a vertical mounting frame 411, a first transmission frame 412 and a first transmission driving motor 413, wherein the vertical mounting frame 411 is arranged on the workbench 2 through a fixed seat, the first transmission frame 412 is arranged on the vertical mounting frame 411, the first transmission driving motor 413 is fixedly connected with the vertical mounting frame 411 through a motor mounting seat, and a driving wheel at the output end of the first transmission driving motor 413 is connected with a driven transmission mechanism on the first transmission frame 412 through a belt.

The first feeding mechanism 41 further comprises a set of lateral guiding mechanisms 414, the lateral guiding mechanisms 414 are oppositely arranged on two sides of the first transmission frame 412, the lateral guiding mechanisms 414 comprise a guiding fixing frame 4141, a guiding wheel assembly 4142 and a bidirectional driving cylinder 4143, the guiding wheel assembly 4142 is arranged on the guiding fixing frame 4141, the bidirectional driving cylinder 4143 is connected with one side of the vertical fixing frame 411 through a fixing seat, and the output ends of the bidirectional driving cylinders 4143 are respectively connected with the corresponding guiding fixing frame 4141 through transfer blocks.

The second feeding mechanism 42 comprises a vertical supporting frame 421, a supporting bracket 422, a second transmission frame 423 and a second transmission motor 424, the vertical supporting frame 421 is arranged on the workbench 2, the supporting bracket 422 is connected with the vertical supporting frame 421 in a lifting mode, the second transmission frame 423 is arranged on the supporting bracket 422, one end, close to the first feeding mechanism 41, of the second transmission frame 423 is provided with a second driven transmission mechanism 425, the second transmission motor 424 is fixed with the supporting bracket 422 through a fixing seat, and the output end of the second transmission motor 424 is provided with a second driving wheel which is connected with the second driven transmission mechanism 425 through a belt.

The second feeding mechanism 42 further comprises a lifting driving cylinder 426, the lifting driving cylinder 426 is connected with the vertical supporting frame 421 through a fixed seat, and the output end of the lifting driving cylinder 426 is connected with the supporting bracket 422;

the vertical supporting frame 421 shown in fig. 6 is provided with a set of sliding blocks 427 near the inner wall of the lift driving cylinder 426, and the supporting bracket 422 is slidably connected with the sliding blocks 427 through sliding rods 428.

A set of guiding adjustment frames 4231 are arranged on two sides of the second transmission frame 423, a set of adjustment holes 4232 are formed in the guiding adjustment frames 4231, and guiding wheels 4233 are arranged in the adjustment holes 4232.

It should be noted that the discharging mechanism 6 includes a first discharging mechanism and a second discharging mechanism, the structure of the first discharging mechanism is the same as that of the first feeding mechanism 41, and the structure of the second discharging mechanism is the same as that of the second feeding mechanism 42.

The printing apparatus 5 according to fig. 1 to 5 includes a lifting adjustment mechanism 51, a horizontal position adjustment mechanism 52, and a printing mechanism 53, wherein the lifting adjustment mechanism 51 is fixed to a table, the horizontal position adjustment mechanism 52 is provided on top of the lifting adjustment mechanism 51, and the printing mechanism 53 is provided on the horizontal position adjustment mechanism 52. The horizontal position adjusting mechanism 52 includes a lateral position adjustment and a longitudinal position adjustment.

The lifting adjusting mechanism 51 shown in fig. 1 to 5 comprises a lifting fixing seat 511, a lifting driving motor 512, an auxiliary driving cylinder 513, a group of lifting driving screw rod assemblies 514 and a lifting sensing device 515, wherein the lifting fixing seat 511 is fixed on a workbench 2, the lifting driving motor 512 is fixedly connected with a mounting plate through the fixing seat, the mounting plate is fixed on the lower part of the workbench 2, the output end of the lifting driving motor 512 is provided with a driving wheel 516, the auxiliary driving cylinder 513 and the lifting driving motor 512 are fixed on the same fixing seat, the lifting driving screw rod assemblies 514 are distributed at four corners of the mounting plate, the upper parts of the lifting driving screw rod assemblies 514 penetrate through a shaft sleeve on the lifting fixing seat 511 and then are provided with driven wheels through flange seats and a horizontal position adjusting mechanism 52, and the auxiliary driving cylinder 513 and the lifting driving screw rod assemblies 514 are positioned below the mounting plate and are in transmission connection with the driven wheels 516 through belts;

the lifting sensing device 515 as shown in fig. 8 comprises a lifting sensing frame 5151 and a sensing assembly 5152, wherein the top of the lifting sensing frame 5151 is fixed at the lower part of the horizontal position adjusting mechanism 52, the sensing assembly 5152 is arranged on the lifting fixing seat 511, and the lifting sensing frame 5151 and the sensing assembly 5152 are matched.

The printing mechanism 53 as shown in fig. 1 and 3 comprises a printing support frame 531, a printing head mounting frame 532, a printing vertical adjusting module 533, a printing head assembly 534 and a printing screen frame assembly 535, wherein two groups of first sliding blocks 537 are oppositely arranged on the printing support frame 531, the printing head mounting frame 532 is in sliding connection with the first sliding blocks 537 through a group of sliding rails 538, the end part of the printing head mounting frame 532 is provided with a vertical mounting plate, the printing vertical adjusting module 533 is fixed on the vertical mounting plate, the printing head assembly 534 is connected with the printing vertical adjusting module 533 in a lifting manner, and the printing screen frame assembly 535 is fixed with the bottom of one end of the printing support frame 531 and is arranged below the printing head assembly 534.

The printing mechanism 53 as shown in fig. 3 further includes a moving driving mechanism 536, where the moving driving mechanism 536 includes a driving motor and a driving screw, the driving motor is fixedly connected with the printing support 531 through a fixing seat, the driving screw is disposed at an output end of the driving motor, and the print head mounting frame 532 is connected with the driving screw through a sliding seat.

The working principle of the multi-station efficient printing machine in the embodiment is as follows: when all the battery pieces to be printed are ready, the battery pieces are fed into the first feeding mechanism 41 through the feeding mechanism, are conveyed through the belt and sequentially pass through the second feeding mechanism 42, enter one of the first work tables 31 on the turntable device 3, the first work tables 31 convey the battery pieces to a designated position through roll paper, at the moment, the second feeding mechanism 42 and the second conveying table in the second discharging mechanism are lifted up through the lifting driving cylinder 426, then the rotary driving mechanism 33 in the turntable device 3 drives the turntable assembly 32 to rotate 180 degrees, and then the lifting driving cylinder 426 drives the second conveying table in the second feeding mechanism 42 and the second discharging mechanism to descend, at the moment, the printing mechanism 5 prints the incoming materials, and at the same time, the other side finishes feeding and discharging actions.

The foregoing is merely a preferred embodiment of the utility model, and it should be noted that modifications could be made by those skilled in the art without departing from the principles of the utility model, which modifications would also be considered to be within the scope of the utility model.

Claims (10)

1. A high-efficient printing machine of multistation, its characterized in that: comprising the following steps:

the device comprises a frame (1), wherein a workbench (2) is arranged on the frame (1), and a group of perforations are arranged on the workbench (2);

the turntable device (3), the turntable device (3) is arranged on the workbench (2), and at least two first workbenches (31) are arranged on the turntable device (3);

at least one feeding mechanism (4), wherein the feeding mechanism (4) is arranged at one side of a feeding port of the turntable device (3);

the printing device (5) is arranged on the workbench (2) and is arranged at one end of the rotary table device (3) far away from the feeding station;

and the blanking mechanism (6) is arranged on the workbench and is arranged on one side of a discharge hole of the turntable device (3).

2. The multi-station high efficiency printer of claim 1, wherein: the rotary table device (3) further comprises a rotary table assembly (32) and a rotary driving mechanism (33), an anti-falling frame (34) is arranged at one perforation position on the workbench (2), an inner groove (341) is formed in the anti-falling frame (34), the rotary table assembly (32) is arranged in the inner groove (341), the rotary driving mechanism (33) is arranged below the anti-falling frame (34) and is fixedly connected with the anti-falling frame (34) through a mounting seat, an output shaft of the rotary driving mechanism (33) is connected with the rotary table assembly (32), and the first workbench (31) is relatively arranged on the rotary table assembly (32).

3. The multi-station high efficiency printer of claim 2, wherein: the feeding mechanism (4) comprises a first feeding mechanism (41) and a second feeding mechanism (42), and the first feeding mechanism (41) and the second feeding mechanism (42) are arranged on the workbench (2) front and back and are arranged at a feeding port of the turntable assembly (32).

4. A multi-station high efficiency printer according to claim 3, wherein: the first feeding mechanism (41) comprises a vertical mounting frame (411), a first transmission frame (412) and a first transmission driving motor (413), wherein the vertical mounting frame (411) is mounted on the workbench (2) through a fixing seat, the first transmission frame (412) is arranged on the vertical mounting frame (411), the first transmission driving motor (413) is fixedly connected with the vertical mounting frame (411) through a motor mounting seat, and a driving wheel at the output end of the first transmission driving motor (413) is connected with a driven transmission mechanism on the first transmission frame (412) through a belt.

5. The multi-station high efficiency printer of claim 4, wherein: the first feeding mechanism (41) further comprises a set of lateral guide mechanisms (414), the lateral guide mechanisms (414) are oppositely arranged on two sides of the first transmission frame (412), each lateral guide mechanism (414) comprises a guide fixing frame (4141), a guide wheel assembly (4142) and a bidirectional driving cylinder (4143), each guide wheel assembly (4142) is arranged on each guide fixing frame (4141), each bidirectional driving cylinder (4143) is connected with one side of the corresponding vertical installation frame (411) through a fixing base, and the output end of each bidirectional driving cylinder (4143) is connected with the corresponding guide fixing frame (4141) through a transfer block.

6. The multi-station high efficiency printer of claim 5, wherein: the second feeding mechanism (42) comprises a vertical supporting frame (421), a supporting bracket (422), a second transmission frame (423) and a second transmission motor (424), wherein the vertical supporting frame (421) is arranged on a workbench (2), the supporting bracket (422) is connected with the vertical supporting frame (421) in a lifting mode, the second transmission frame (423) is arranged on the supporting bracket (422), the second transmission frame (423) is close to one end of the first feeding mechanism (41) and is provided with a second driven transmission mechanism (425), the second transmission motor (424) is fixed with the supporting bracket (422) through a fixing seat, and the output end of the second transmission motor (424) is provided with a second driving wheel which is connected with a second driven transmission mechanism (425) through a belt.

7. The multi-station high efficiency printer of claim 6, wherein: the second feeding mechanism (42) further comprises a lifting driving cylinder (426), the lifting driving cylinder (426) is connected with the vertical supporting frame (421) through a fixed seat, and the output end of the lifting driving cylinder is connected with the supporting bracket (422);

the inner wall of the vertical supporting frame (421) close to the lifting driving cylinder (426) is provided with a group of sliding blocks (427), and the supporting bracket (422) is in sliding connection with the sliding blocks (427) through sliding rods (428); a group of guide adjusting frames (4231) are arranged on two sides of the second transmission frame (423), a group of adjusting holes (4232) are formed in the guide adjusting frames (4231), and guide wheels (4233) are arranged in the adjusting holes (4232).

8. The multi-station high efficiency printer of claim 1, wherein: the printing device (5) comprises a lifting adjusting mechanism (51), a horizontal position adjusting mechanism (52) and a printing mechanism (53), wherein the lifting adjusting mechanism (51) is fixed on a workbench, the horizontal position adjusting mechanism (52) is arranged at the top of the lifting adjusting mechanism (51), and the printing mechanism (53) is arranged on the horizontal position adjusting mechanism (52).

9. The multi-station high efficiency printer of claim 8, wherein: the lifting adjusting mechanism (51) comprises a lifting fixing seat (511), a lifting driving motor (512), an auxiliary driving cylinder (513), a group of lifting driving screw rod assemblies (514) and a lifting sensing device (515), wherein the lifting fixing seat (511) is fixed on the workbench (2), the lifting driving motor (512) is fixedly connected with the mounting plate through the fixing seat, the mounting plate is fixed with the lower portion of the workbench (2), the output end of the lifting driving motor (512) is provided with a driving wheel (516), the auxiliary driving cylinder (513) and the lifting driving motor (512) are fixed on the same fixing seat, the lifting driving screw rod assemblies (514) are distributed at four corners of the mounting plate, the upper portion of the lifting driving screw rod assemblies (514) penetrates through a shaft sleeve on the lifting fixing seat (511) and then is connected with the horizontal position adjusting mechanism (52) through a flange seat, and driven wheels are arranged below the mounting plate through the auxiliary driving cylinder (513) and the lifting driving screw rod assemblies (514), and the driving wheel (516) are in transmission connection with the driven wheels through belts.

10. The multi-station high efficiency printer of claim 8, wherein: printing mechanism (53) are including printing support frame (531), print head mounting bracket (532), vertical regulation module (533) of printing, print head subassembly (534) and printing silk screen frame subassembly (535), be equipped with two sets of first sliding block (537) relatively on printing support frame (531), print head mounting bracket (532) are through a set of slide rail (538) and first sliding block (537) sliding connection, and the tip of print head mounting bracket (532) is equipped with vertical mounting panel, vertical regulation module (533) of printing is fixed in on the vertical mounting panel, print head subassembly (534) are connected with the vertical regulation module (533) of printing over-and-under, print silk screen frame subassembly (535) are fixed with the bottom of printing support frame (531) one end to locate the below of print head subassembly (534).