CN112622416A

CN112622416A - Stainless steel dish bottom printing equipment

Info

Publication number: CN112622416A
Application number: CN202011559426.2A
Authority: CN
Inventors: 孔德兵
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-25
Filing date: 2020-12-25
Publication date: 2021-04-09

Abstract

The invention relates to printing equipment, in particular to stainless steel tray bottom printing equipment. The invention provides a stainless steel tray bottom printing device which is convenient for people to observe the use condition of pigment, can uniformly scrape the pigment and can position a stainless steel basin. A stainless steel pan bottom printing apparatus comprising: the cross beams are symmetrically arranged between the brackets; the transmission mechanism is arranged between the brackets; the printing mechanism is arranged on the support. According to the printing machine, the stainless steel basin is conveyed leftwards through the transmission mechanism, and then the efficient printing of the stainless steel basin is realized under the cooperation of the printing mechanism; through being equipped with intermittent type mechanism, and then realize stirring left to the intermittent type of stainless steel basin to realize the intermittent type stamp to stainless steel basin.

Description

Stainless steel dish bottom printing equipment

Technical Field

The invention relates to printing equipment, in particular to stainless steel tray bottom printing equipment.

Background

After stainless steel basin production is accomplished, the trade company can stamp stainless steel basin usually, with the brand of sign stainless steel basin, traditional stamp mode is artifical manual going on more, people hold the printing ware with the hand, stamp stainless steel basin one, so need the manpower and the time of consumption more, and the long-time work of workman produces fatigue easily, and then influence production efficiency, and current stamp equipment needs artifical placing in stamp equipment below with stainless steel basin one usually, people take off stainless steel basin manually after the stamp is accomplished, so because the position of stainless steel basin places for the workman is free hand, so just make the position of stainless steel basin stamp inconsistent easily, in addition because stamp equipment is not convenient for people to observe the in service behavior of pigment, so just make the flower color of seal inhomogeneous easily.

Therefore, in view of the above disadvantages, there is a need to develop a stainless steel tray bottom printing device which is convenient for people to observe the use condition of the pigment, can scrape the pigment uniformly and can position a stainless steel basin.

Disclosure of Invention

In order to overcome the defects that people cannot observe the using condition of the pigment conveniently and the printed flower is uneven in color and inconsistent in printing position easily in the prior art, the technical problem to be solved is as follows: the stainless steel tray bottom printing equipment is convenient for people to observe the service condition of pigment, can scrape the pigment uniformly and can position a stainless steel tray.

The technical scheme is as follows: a stainless steel pan bottom printing apparatus comprising: the cross beams are symmetrically arranged between the brackets; the transmission mechanism is arranged between the brackets; the printing mechanism is arranged on the support.

As a preferable aspect of the present invention, the transmission mechanism includes: the fixing rods are symmetrically arranged on the brackets; a left side plate is arranged between the fixed rods on one side; a right side plate is arranged between the fixed rods on the other side; a servo motor is arranged on the cross beam on one side; the output shaft of the servo motor is provided with a first belt pulley group; the second pulley group is arranged between the supports in a rotating mode, and a transmission shaft on one side of the second pulley group is connected with the first pulley group.

As a preferable technical solution of the present invention, the printing mechanism includes: the support columns are arranged on the supports; the supporting columns are provided with placing plates; the air cylinders are arranged between the placing plates; the telescopic rod of the cylinder is connected with a loop bar; the sleeve rod is internally provided with a first spring; the printing block is connected with the loop bar in a sliding mode, and the first spring is connected with the printing block.

As a preferable aspect of the present invention, the apparatus further comprises an intermittent mechanism, the intermittent mechanism comprising: the bracket on one side is provided with a first bearing seat; the first rotating shaft is arranged on the first bearing seat; the bevel gear set is arranged between the first rotating shaft and the adjacent transmission shaft of the second belt pulley set; the first rotating shaft is provided with a first belt pulley group; the second bearing seat is arranged on the support close to one side of the third belt pulley group; the second bearing seat is provided with a second connecting rod; the clamping rod is rotatably arranged on the first connecting rod; a second rotating shaft is arranged between the second bearing block and the adjacent bracket and is rotatably connected with the third belt pulley group; the grooved pulley is connected to the second rotating shaft, and the clamping rod is matched with the grooved pulley; the second spring is arranged between the clamping rod and the adjacent bracket; the upper part of the second rotating shaft is uniformly provided with a plurality of rotating rods; the clamping rod is rotatably provided with a second connecting rod; the third bearing seat is arranged on the bracket at one side close to the second connecting rod; the third bearing seat is rotatably provided with a third connecting rod; the contact rod is arranged on the third connecting rod and is rotatably connected with the second connecting rod.

As a preferable embodiment of the present invention, the present invention further includes a dye mechanism, the dye mechanism including: the connecting frame is arranged on the loop bar; a third spring is arranged between the connecting frame and the printing block; the connecting frame is provided with a fourth connecting rod; the fourth spring is arranged on the fourth connecting rod; the fourth connecting rod is connected with the mounting seat in a sliding mode, and the mounting seat is connected with the fourth spring; the mounting seat is rotatably connected with a third rotating shaft; the guide frames are arranged on the support columns, and the third rotating shaft slides in the guide frames; the first rack is arranged between the support columns; the third rotating shaft is provided with a second full gear which is meshed with the second rack; the dye disk is arranged on the third rotating shaft.

As a preferred technical scheme of the present invention, the present invention further comprises a material brushing mechanism, wherein the material brushing mechanism comprises: the contact frame is arranged at the lower part of the fourth connecting rod; the inclined plates are connected in the guide frame in a sliding manner and are matched with the contact frame; the rollers are connected in the guide frame in a sliding manner; the rollers are provided with a first rack which is connected with the inclined plate; the supporting columns are provided with fixing blocks, and the second racks slide on the fixing blocks; a fifth spring is arranged between the second rack and the fixed block; the dye disk is symmetrically provided with mounting blocks; the mounting blocks are respectively provided with a screw rod in a rotating mode; the screw rods are connected with second full gears which are meshed with the second racks; the scraper is connected between the scraper and the screw rod in a threaded manner and slides on the dye tray.

As a preferable technical solution of the present invention, the present invention further includes a positioning mechanism, the positioning mechanism including: the clamping hook is arranged on the connecting frame; the first fixing frame is arranged between the supporting columns; the second fixing frame is arranged between the supporting columns; the baffle is arranged between the first fixing frame and the second fixing frame in a sliding mode; the baffle plate is provided with a fixing plate, and the fixing plate is positioned between the first fixing frame and the second fixing frame; the contact plate is rotatably connected on the fixed plate and matched with the clamping hook; torsion springs are symmetrically arranged between the contact plate and the fixed plate.

As a preferable aspect of the present invention, the fifth spring is a compression spring.

The invention has the following advantages: 1. according to the invention, the stainless steel basin is conveyed leftwards through the transmission mechanism, and then the efficient printing of the stainless steel basin is realized under the cooperation of the printing mechanism.

2. Through being equipped with intermittent type mechanism, and then realize stirring left to the intermittent type of stainless steel basin to realize the intermittent type stamp to stainless steel basin.

3. Through being equipped with dyestuff mechanism, and then better provide the dyestuff to the stamp mechanism.

4. Through the cooperation of dyestuff mechanism with brush material mechanism, make the ink paste of scraper blade scraping in the dyestuff dish, and then make the pigment of dyestuff dish more even, so be better be stained with pigment with regard to the stamp piece to make the colour of stamp even.

5. Through being equipped with positioning mechanism, so just can be better fix a position the stainless steel basin, and then make better the carrying out stamp of stamp mechanism.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a first part of the present invention.

Fig. 3 is a schematic perspective view of a second part of the present invention.

Fig. 4 is a perspective view of a third part of the present invention.

Fig. 5 is a perspective view of a fourth part of the present invention.

Fig. 6 is a schematic perspective view of a fifth part of the present invention.

Labeled as: 1. the printing machine comprises a bracket, 2, a beam, 3, a transmission mechanism, 30, a fixing rod, 31, a left side plate, 32, a right side plate, 33, a servo motor, 34, a first pulley set, 35, a second pulley set, 4, a printing mechanism, 40, a support column, 41, a placing plate, 42, a cylinder, 43, a loop bar, 44, a first spring, 45, a printing block, 5, an intermittent mechanism, 50, a first bearing seat, 51, a first rotating shaft, 52, a bevel gear set, 53, a third pulley set, 54, a second bearing seat, 55, a first connecting rod, 550, a clamping rod, 56, a second rotating shaft, 57, a grooved wheel, 58, a second spring, 59, a rotating rod, 510, a second connecting rod, 511, a third bearing seat, 512, a third connecting rod, 513, a contact rod, 6, a dye mechanism, 60, a connecting frame, 61, a third spring, 62, a fourth connecting rod, 63, a fourth spring, 630, a mounting seat, 64, a mounting seat, a, The dye pan comprises a third rotating shaft 65, a guide frame 66, a first rack 67, a first full gear 68, a dye pan 7, a brushing mechanism 70, a contact frame 71, an inclined plate 72, a roller 73, a second rack 74, a fixed block 75, a fifth spring 76, an installation block 77, a second full gear 78, a screw rod 79, a scraping plate 8, a positioning mechanism 80, a clamping hook 81, a first fixing frame 82, a second fixing frame 83, a baffle 84, a fixing plate 85, a contact plate 86 and a torsion spring.

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.

Example 1

A stainless steel plate bottom printing device is shown in figures 1 and 2 and comprises supports 1, cross beams 2, transmission mechanisms 3 and printing mechanisms 4, wherein the cross beams 2 are symmetrically arranged between the supports 1, the transmission mechanisms 3 are arranged between the supports 1, and the printing mechanisms 4 are arranged on the supports 1.

When people need use this equipment, at first people place the stainless steel basin on drive mechanism 3, just can start drive mechanism 3 and stamp mechanism 4 after that, drive mechanism 3 functions and then drives the stainless steel basin and remove left, stamp mechanism 4 downstream simultaneously, when treating that the stainless steel basin removes to stamp mechanism 4 below, people block the stainless steel basin, make stamp mechanism 4 stamp the stainless steel basin, treat that stamp accomplishes stamp mechanism 4 and keep away from the stainless steel basin, people just can no longer block the stainless steel basin that the stamp was accomplished, people constantly repeat above-mentioned step and just can stamp the stainless steel basin fast after that, when people need not use this equipment, it can to close drive mechanism 3 and stamp mechanism 4.

Drive mechanism 3 is including the dead lever 30, left side board 31, right side board 32, servo motor 33, first pulley group 34 and second pulley group 35, equal symmetry is equipped with dead lever 30 on the support 1, be equipped with left side board 31 between the dead lever 30 of rear side, be equipped with right side board 32 between the dead lever 30 of front side, be equipped with servo motor 33 on the left crossbeam 2, be equipped with first pulley group 34 on the servo motor 33 output shaft, the rotary type is equipped with second pulley group 35 between the support 1, the left transmission shaft of second pulley group 35 is connected with first pulley group 34.

Stamp mechanism 4 is including support column 40, place board 41, cylinder 42, loop bar 43, first spring 44 and stamp piece 45, all is equipped with support column 40 on the support frame 1, all is equipped with on the support column 40 and places board 41, places and is equipped with cylinder 42 between the board 41, is connected with loop bar 43 on the cylinder 42 telescopic link, is equipped with first spring 44 in the loop bar 43, and sliding type is connected with stamp piece 45 in the loop bar 43, and first spring 44 is connected with stamp piece 45.

Firstly, people place a stainless steel basin on a second belt pulley set 35, then the servo motor 33 and the air cylinder 42 can be started, the output shaft of the servo motor 33 drives the second belt pulley set 35 to rotate through a first belt pulley set 34, the second belt pulley set 35 further drives the stainless steel basin to move leftwards, meanwhile, the telescopic rod of the air cylinder 42 drives the loop bar 43 and the printing block 45 to move downwards, people can block the stainless steel basin with a tool when the stainless steel basin moves to the lower part of the printing block 45, then when the printing block 45 is contacted with the stainless steel basin, the loop bar 43 continues to move downwards, the first spring 44 is compressed, so that the printing block 45 prints on the stainless steel basin, when printing is finished, people control the air cylinder 42 to drive the loop bar 43 and the printing block 45 to move upwards, when the printing block 45 moves to be separated from the stainless steel basin, the first spring 44 drives the printing block 45 to reset, then people can not block the printed stainless steel basin any more, thus, the printing can be rapidly carried out on the stainless steel basin by continuous repetition, and when people do not need to use the equipment, the servo motor 33 and the air cylinder 42 are closed.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 3, 4, 5 and 6, the intermittent mechanism 5 further includes an intermittent mechanism 5, where the intermittent mechanism 5 includes a first bearing seat 50, a first rotating shaft 51, a bevel gear group 52, a third pulley group 53, a second bearing seat 54, a first connecting rod 55, a clamping rod 550, a second rotating shaft 56, a grooved pulley 57, a second spring 58, a rotating rod 59, a second connecting rod 510, a third bearing seat 511, a third connecting rod 512 and a contact rod 513, the right portion of the rear bracket 1 is provided with the first bearing seat 50, the first bearing seat 50 is provided with the first rotating shaft 51, the bevel gear group 52 is provided between the first rotating shaft 51 and the right transmission shaft of the second pulley group 35, the third pulley group 53 is provided on the first rotating shaft 51, the second bearing seat 54 is provided on the rear bracket 1, the first connecting rod 55 is provided on the second bearing seat 54, the clamping rod 550 is rotatably provided on the first connecting rod 55, a second rotating shaft 56 is arranged between the second bearing seat 54 and the adjacent support 1, the second rotating shaft 56 is rotatably connected with the third belt pulley group 53, the second rotating shaft 56 is rotatably connected with the support 1, a grooved pulley 57 is connected on the second rotating shaft 56, a clamping rod 550 is matched with the grooved pulley 57, a second spring 58 is arranged between the clamping rod 550 and the adjacent support 1, a plurality of rotating rods 59 are uniformly arranged on the upper portion of the second rotating shaft 56, a second connecting rod 510 is rotatably arranged on the clamping rod 550, a third bearing seat 511 is arranged on the support 1 on the rear side, a third connecting rod 512 is rotatably arranged on the third bearing seat 511, a contact rod 513 is arranged on the third connecting rod 512, and the contact rod 513 is rotatably connected with the second connecting rod 510.

When the second pulley set 35 rotates, the second pulley set 35 drives the first rotating shaft 51 to rotate through the bevel gear set 52, the first rotating shaft 51 drives the third pulley set 53 to rotate, because the grooved pulley 57 is blocked by the blocking rod 550 in the initial state, the second rotating shaft 56 does not rotate at this time, and the rotating rod 59 blocks the stainless steel basin right in front of the second rotating shaft 59, so as to block other stainless steel basins on the right side, then when the stainless steel basin to be printed moves to the left to be contacted with the contact rod 513, the stainless steel basin extrudes the contact rod 513, so as to rotate the contact rod 513, and further drives the blocking rod 550 to rotate through the second connecting rod 510, so as to separate the blocking rod 550 from the grooved pulley 57, the second spring 58 deforms, at this time, the third pulley set 53 drives the grooved pulley 57 and the rotating rod 59 to rotate through the second rotating shaft 56, the rotating rod 59 rotates to stir the stainless steel basin right in front of the rotating rod 59 to the left, after the stainless basin right in front of the rotating, the stainless steel basin that the stamp was accomplished separates with contact bar 513, and next stainless steel basin removes to between the bull stick 59, and second spring 58 resets this moment, and then drives kelly 550, second connecting rod 510 and contact bar 513 and resets to make kelly 550 block sheave 57 once more, make bull stick 59 no longer rotate, so constantly repeated just can realize the intermittent type stamp to the stainless steel basin.

Also comprises a dye mechanism 6, the dye mechanism 6 comprises a connecting frame 60, a third spring 61, a fourth connecting rod 62, a fourth spring 63 and a mounting seat 630, third pivot 64, the leading truck 65, first rack 66, first full gear 67 and dyestuff dish 68, be equipped with link 60 on the loop bar 43, be equipped with third spring 61 between link 60 and the stamp block 45, be equipped with fourth connecting rod 62 on the link 60, be equipped with fourth spring 63 on the fourth connecting rod 62, sliding connection has mount pad 630 on the fourth connecting rod 62, mount pad 630 is connected with fourth spring 63, the last rotating connection of mount pad 630 has third pivot 64, all be equipped with leading truck 65 on the support column 40, third pivot 64 slides in leading truck 65, be equipped with first rack 66 between the support column 40, be equipped with first full gear 67 on the third pivot 64, first full gear 67 meshes with first rack 66, be equipped with dyestuff dish 68 on the third pivot 64.

Firstly, people add enough dye into the dye tray 68, then when the loop bar 43 moves downwards, the loop bar 43 drives the connecting frame 60 to move downwards, the connecting frame 60 drives the fourth connecting rod 62 to move downwards, the fourth connecting rod 62 drives the mounting seat 630 to move downwards, the mounting seat 630 drives the third rotating shaft 64, the dye tray 68 and the first full gear 67 to move downwards, wherein when the printing block 45 contacts with the dye tray 68, the third spring 61 is compressed, because the first full gear 67 is meshed with the first rack 66, the first full gear 67 drives the dye tray 68 to rotate through the third rotating shaft 64, when the first full gear 67 moves downwards to be separated from the first rack 66, the third rotating shaft 64 and the dye tray 68 become vertical state, the third rotating shaft 64 moves downwards along the sliding groove at the lower side of the guide frame 65, when the third rotating shaft 64 moves downwards to the maximum limit, the fourth connecting rod 62 continues to move downwards, the fourth spring 63 is compressed, at this time, the dye tray 68 is separated from the printing block 45, the third spring 61 is reset, then when the printing block 45 is in contact with the stainless steel basin, the third spring 61 is deformed again, then when printing of the stainless steel basin is completed, the printing block 45 and the fourth connecting rod 62 move upwards, when the printing block 45 is separated from the stainless steel basin, the third spring 61 is reset, then when the fourth connecting rod 62 moves upwards to reset the fourth spring 63, the fourth connecting rod 62 drives the mounting seat 630 and the third rotating shaft 64 to move upwards, the third rotating shaft 64 drives the first full gear 67 and the dye tray 68 to move upwards, when the first full gear 67 moves upwards and is meshed with the first rack 66, the first full gear 67 drives the third rotating shaft 64 and the dye tray 68 to rotate reversely to reset, and then after the connecting frame 60 is reset, the dye tray 68 and the third rotating shaft 64 are reset to complete.

The dye tray further comprises a brushing mechanism 7, the brushing mechanism 7 comprises a contact frame 70, an inclined plate 71, rollers 72, a second rack 73, fixed blocks 74, fifth springs 75, mounting blocks 76, second full gears 77, lead screws 78 and scrapers 79, the contact frame 70 is arranged at the lower part of a fourth connecting rod 62, the inclined plate 71 is connected in a sliding manner in the guide frame 65, the inclined plate 71 is matched with the contact frame 70, the rollers 72 are connected in the guide frame 65 in a sliding manner, the second racks 73 are arranged on the rollers 72, the second racks 73 are connected with the inclined plate 71, the fixed blocks 74 are arranged on the supporting columns 40, the second racks 73 slide on the fixed blocks 74, the fifth springs 75 are arranged between the second racks 73 and the fixed blocks 74, the mounting blocks 76 are symmetrically arranged on the dye tray 68, the lead screws 78 are arranged on the mounting blocks 76, the lead screws 78 are connected with the second full gears 77, the second full gears 77 are meshed with the second racks 73, the scrapers 79 are connected between the lead screws 78, the squeegee 79 slides over the dye pan 68.

When the fourth connecting rod 62 moves downwards, the fourth connecting rod 62 drives the contact frame 70 to move downwards, the dye pan 68 drives all the components on the contact frame to move, then when the dye pan 68 moves downwards to the maximum, the second full gear 77 is meshed with the second rack 73, then when the contact frame 70 moves downwards to contact with the inclined plate 71, the inclined plate 71 is pressed to drive the second rack 73 and the roller 72 to move leftwards, the fifth spring 75 is compressed, the second rack 73 drives the screw rod 78 to rotate through the second full gear 77, the screw rod 78 further drives the scraper 79 to move upwards, the scraper 79 moves upwards to scrape the inkpad in the dye pan 68, so that the pigment in the dye pan 68 is uniformly distributed, then when the contact frame 70 moves upwards, under the action of the fifth spring 75, the second rack 73 further drives the screw rod 78 to rotate backwards through the second full gear 77, so as to drive the scraper 79 to move rightwards to reset, and in the process that scraper 79 resets, scraper 79 can scrape the ink paste again, and then makes the pigment of dye dish 68 more even, so be better be stained with pigment with stamp piece 45 to make the colour of stamp even, wait after that when swash plate 71 and contact frame 70 separated, fifth spring 75 resets and accomplishes.

Still include positioning mechanism 8, positioning mechanism 8 is including pothook 80, first mount 81, second mount 82, baffle 83, fixed plate 84, contact plate 85 and torsion spring 86, be equipped with pothook 80 on the link span 60, be equipped with first mount 81 between the support column 40, be equipped with second mount 82 between the support column 40, slidingtype is equipped with baffle 83 between first mount 81 and the second mount 82, be equipped with fixed plate 84 on the baffle 83, fixed plate 84 is located between first mount 81 and the second mount 82, the last pivoted type of fixed plate 84 is connected with contact plate 85, contact plate 85 cooperates with pothook 80, the symmetry is equipped with torsion spring 86 between contact plate 85 and the fixed plate 84.

When the connecting frame 60 moves downwards, the connecting frame 60 drives the hook 80 to move downwards, when the hook 80 moves downwards to be in contact with the contact plate 85, the contact plate 85 is extruded to rotate slightly, the torsion spring 86 deforms, then after the hook 80 passes over the contact plate 85, the torsion spring 86 drives the contact plate 85 to reset, at the moment, the baffle 83 can block the stainless steel basin below the column printing block 45, so that the stainless steel basin is not required to be blocked manually, convenience is provided for people, then when printing of the stainless steel basin is completed, the connecting frame 60 drives the hook 80 to move upwards, then when the hook 80 contacts with the contact plate 85 again, the hook 80 drives the fixing plate 84 and the baffle 83 to move upwards through the contact plate 85, so that the baffle 83 does not block the stainless steel basin any more, then when the contact plate 85 moves upwards to the maximum limit, the contact plate 85 rotates, and the torsion spring 86 deforms again, therefore, the contact plate 85 is separated from the hook 80, then the baffle 83 drives the fixing plate 84 to move downwards to reset under the action of gravity, meanwhile, the torsion spring 86 drives the contact plate 85 to reset, the stainless steel basin with printing completed at the moment moves to the left side of the baffle 83, and the printing of the stainless steel basin can be better carried out by repeating the steps.

While the disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure as defined by the appended claims and their equivalents. Accordingly, the scope of the present disclosure should not be limited to the above-described embodiments, but should be defined not only by the appended claims, but also by equivalents thereof.

Claims

1. The utility model provides a stainless steel dish bottom stamp equipment which characterized by includes:

the device comprises brackets (1), wherein cross beams (2) are symmetrically arranged between the brackets (1);

the transmission mechanism (3) is arranged between the brackets (1);

the printing mechanism (4) is arranged on the support (1).

2. A stainless steel pan bottom printing apparatus according to claim 1, wherein the transmission mechanism (3) comprises:

the fixing rods (30) are symmetrically arranged on the brackets (1);

a left side plate (31), wherein a left side plate (31) is arranged between the fixing rods (30) on one side;

a right side plate (32) is arranged between the fixing rods (30) on the other side;

a servo motor (33) is arranged on the cross beam (2) on one side of the servo motor (33);

a first belt pulley group (34) is arranged on an output shaft of the servo motor (33);

a second belt pulley set (35) is rotatably arranged between the supports (1), and a transmission shaft on one side of the second belt pulley set (35) is connected with the first belt pulley set (34).

3. A stainless steel pan bottom printing apparatus according to claim 2, wherein the printing mechanism (4) comprises:

the support columns (40) are arranged on the support (1);

the supporting columns (40) are provided with placing plates (41);

air cylinders (42), and the air cylinders (42) are arranged between the placing plates (41);

the telescopic rod of the cylinder (42) is connected with a loop bar (43);

a first spring (44), wherein the sleeve rod (43) is internally provided with the first spring (44);

the inner of the loop bar (43) is connected with the printing block (45) in a sliding way, and the first spring (44) is connected with the printing block (45).

4. A stainless steel pan bottom printing apparatus according to claim 2 or 3, further comprising an intermittent mechanism (5), the intermittent mechanism (5) comprising:

the support (1) on one side of the first bearing seat (50) is provided with the first bearing seat (50);

the first rotating shaft (51) is arranged on the first bearing seat (50);

a bevel gear set (52) is arranged between the first rotating shaft (51) and the transmission shaft of the second belt pulley set (35) which is close to the first rotating shaft;

a third belt pulley group (53), wherein the first rotating shaft (51) is provided with the third belt pulley group (53);

the second bearing seat (54) is arranged on the bracket (1) close to one side of the third belt pulley group (53);

the first connecting rod (55) is arranged on the second bearing seat (54);

the clamping rod (550) is rotatably arranged on the first connecting rod (55);

a second rotating shaft (56) is arranged between the second bearing seat (54) and the adjacent bracket (1), the second rotating shaft (56) is rotatably connected with the third belt pulley group (53), and the second rotating shaft (56) is rotatably connected with the bracket (1);

the grooved wheel (57) is connected to the second rotating shaft (56), and the clamping rod (550) is matched with the grooved wheel (57);

the second spring (58) is arranged between the clamping rod (550) and the adjacent bracket (1);

the upper part of the second rotating shaft (56) is uniformly provided with a plurality of rotating rods (59);

the second connecting rod (510) is rotatably arranged on the clamping rod (550);

the third bearing seat (511) is arranged on the bracket (1) close to one side of the second connecting rod (510);

the third connecting rod (512) is rotatably arranged on the third bearing seat (511);

the contact rod (513) is arranged on the third connecting rod (512), and the contact rod (513) is rotatably connected with the second connecting rod (510).

5. A stainless steel pan bottom printing apparatus according to claim 4, further comprising a dye mechanism (6), the dye mechanism (6) comprising:

the connecting frame (60) is arranged on the loop bar (43);

a third spring (61), wherein the third spring (61) is arranged between the connecting frame (60) and the printing block (45);

the connecting frame (60) is provided with a fourth connecting rod (62);

the fourth spring (63) is arranged on the fourth connecting rod (62);

the mounting seat (630) is connected to the fourth connecting rod (62) in a sliding mode, and the mounting seat (630) is connected with the fourth spring (63);

the mounting seat (630) is rotatably connected with the third rotating shaft (64);

the guide frames (65) are arranged on the support columns (40), and the third rotating shaft (64) slides in the guide frames (65);

the first rack (66) is arranged between the supporting columns (40);

a first full gear (67) is arranged on the third rotating shaft (64), and the first full gear (67) is meshed with the first rack (66);

a dye disk (68) is arranged on the third rotating shaft (64).

6. A stainless steel pan bottom printing equipment according to claim 5, characterized by further comprising a brushing mechanism (7), wherein the brushing mechanism (7) comprises:

the contact frame (70) is arranged at the lower part of the fourth connecting rod (62);

the inclined plates (71) are connected in the guide frame (65) in a sliding manner, and the inclined plates (71) are matched with the contact frame (70);

the rollers (72) are connected in the guide frame (65) in a sliding way;

the rollers (72) are provided with second racks (73), and the second racks (73) are connected with the inclined plate (71);

the fixing blocks (74) are arranged on the supporting columns (40), and the second racks (73) slide on the fixing blocks (74);

a fifth spring (75), wherein the fifth spring (75) is arranged between the second rack (73) and the fixed block (74);

the mounting blocks (76) are symmetrically arranged on the dye disk (68);

the screw rods (78) are rotatably arranged on the mounting blocks (76);

the screw rods (78) are connected with second full gears (77), and the second full gears (77) are meshed with the second racks (73);

the scrapers (79) are connected between the screw rods (78) in a threaded mode, and the scrapers (79) slide on the dye tray (68).

7. A stainless steel pan bottom printing apparatus according to claim 6, further comprising a positioning mechanism (8), the positioning mechanism (8) comprising:

the hook (80) is arranged on the connecting frame (60);

the first fixing frame (81) is arranged between the supporting columns (40);

the second fixing frame (82) is arranged between the supporting columns (40);

the baffle (83) is arranged between the first fixing frame (81) and the second fixing frame (82) in a sliding manner;

the fixing plate (84) is arranged on the baffle plate (83), and the fixing plate (84) is positioned between the first fixing frame (81) and the second fixing frame (82);

the contact plate (85) is rotatably connected to the fixing plate (84), and the contact plate (85) is matched with the clamping hook (80);

torsion springs (86) are symmetrically arranged between the contact plate (85) and the fixing plate (84).

8. A stainless steel pan bottom printing apparatus according to claim 6, wherein the fifth spring (75) is a compression spring.