CN213035474U - Multi-station printing mechanism - Google Patents

Abstract

The utility model discloses a multistation printing mechanism, including the bat printing device, the bat printing device is provided with four at least transfer seal heads, is provided with the viscous ink station, presses down the seal station, clean station below the bat printing device, every the transfer seal head is shifted to pressing down seal station, clean station order by the viscous ink station in proper order, presses down the seal station and is used for the transfer seal head to the operation of pressing down seal of product, clean station is used for cleaning the transfer seal head that presses down to seal and accomplish; be different from traditional single pad printing head seal word mode, this mechanism sets up four at least pad printing heads to the matching sets up a plurality of stations, makes this mechanism glue the china ink, press down seal, clean operation is orderly and coherent, has effectively accelerated down seal efficiency, and every pad printing head presses down the cleanness that the seal accomplished the back can in time carry out remaining printing ink, has avoided leading to the emergence of the bad phenomenon of follow-up press down seal because of printing ink remains.

Description

Multi-station printing mechanism

Technical Field

The utility model relates to an energy storage device presses down the seal device field, especially relates to a multistation printing mechanism.

Background

The traditional energy storage device stamping device mainly uses a single pad printing head to circularly glue ink and stamp to finish stamping operation, and is matched with a single stamping station, so that ink is inevitably left on the pad printing head after stamping is finished, and the pad printing head used for a long time directly influences the printing effect of subsequent products; on the other hand, the single transfer printing head has poor consistency of the printing pressing structure and low printing pressing efficiency, and is difficult to meet the requirements of the existing high-efficiency and high-quality automatic printing production line.

SUMMERY OF THE UTILITY MODEL

For solving above-mentioned traditional energy storage device and pressing down the seal device and press down the seal effect not good, press down the seal inefficiency scheduling problem, the utility model provides a multistation printing mechanism.

The utility model provides a multistation printing mechanism, includes the bat printing device, the bat printing device is provided with four at least bat printing heads, it is provided with glues black station, presses down seal station, clean station, transition station to move printing device below, it is used for the bat printing head to glue getting of printing ink typeface to glue the china ink station, it is used for the bat printing head to press down the seal operation of product to press down the seal station, clean station is used for cleaning the bat printing head of pressing down the seal completion, the transition station is used for the transition of clean bat printing head after accomplishing and the maintenance of follow-up bat printing head to be changed, every the bat printing head shifts to the order of pressing down seal station, clean station, transition station by gluing the black station in proper order to correspond to accomplish the bat printing head glue the china ink, the product is pressed down seal, the clean, the transition operation of bat printing.

Specifically, the pad printing device is provided with a rotating disc, transmission rods are uniformly distributed on the periphery of the rotating disc, and the pad printing heads are fixed at the lower ends of the transmission rods.

Further, glue the black station, press down the top of seal station, clean station and still be provided with down and press down drive arrangement, it is provided with down to press down drive arrangement, it can promote to press down the drive pole realizes moving down of seal head for move down and glue black, press down seal, clean operation.

Furthermore, the transmission rod is a spring rod or a compressed air rod which can automatically reset after being pressed down, so that the pad printing head at the lower end of the transmission rod can automatically reset after moving down to complete ink sticking, printing and cleaning operations.

Further, glue the black station and be provided with the ink horn, be provided with the steel mould of carving characters in the ink horn, the top of steel mould of carving characters is provided with printing ink gyro wheel and printing ink scraper.

Further, ink roller and ink scraper pass through the scraper support and stretch into the setting in the ink box, scraper support bottom is provided with the slip table, ink scraper and ink roller accessible scraper support push down to the steel mould surface and along with slip table reciprocating motion to the coating of realization steel mould printing ink of carving characters and the operation of scraping off of unnecessary printing ink on the steel mould of carving characters.

Furthermore, the printing station is provided with a conveying device, and the conveying device can convey the product to the printing position of the pad printing head, so that the product printing operation is completed by matching with pressing drive.

Furthermore, the cleaning station is provided with a cleaning table, cleaning materials are placed on the cleaning table, the pad printing head which presses the printing station can rotate to the upper side of the cleaning table and press down to the cleaning table, and therefore the pad printing head can be adhered and cleaned with residual printing ink after the pad printing is completed.

Furthermore, the transition station is a vacant position arranged between the cleaning station and the ink sticking station, the pad printing head after the cleaning of the cleaning station can rotate to the transition station for transition, and meanwhile, the maintenance and the replacement of the follow-up pad printing head are facilitated.

Advantageous effects

A multistation printing mechanism that describes above is provided with four at least and moves printer head to the matching sets up glues black station, presses down the seal station, clean station, the transition station, make this mechanism glue black, press down the seal, clean operation process is orderly and link up, a plurality of printer head synchronous revolution that move, it is shorter to press down the seal interval, effectively accelerated press down seal efficiency, every moves printer head and presses down the clean of seal operation completion back can in time carry out remaining printing ink, the residue of printing ink has been avoided, the life of printer head has been prolonged, the printer head that presses down who effectively guarantees simultaneously after long-time the use presses down the seal yield.

Drawings

The accompanying drawings, which are included to provide a further understanding of embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention:

FIG. 1 is a schematic view of the overall structure of the preferred embodiment of the present invention;

FIG. 2 is a schematic top view of the structure of FIG. 1;

FIG. 3 is a schematic structural view of the pad printing device 10 and the down-pressure driving device 60 shown in FIG. 1;

FIG. 4 is a schematic structural view of the ink adhering station 20 in FIG. 1;

FIG. 5 is a schematic diagram of the stamping station 30 of FIG. 1;

fig. 6 is a schematic structural view of the cleaning station 40 in fig. 1.

Wherein:

product-A;

a pad printing device-10; a rotating disc-11; a transmission rod-12; a pad-13;

ink sticking station-20; an ink box-21; lettering steel mould-22; ink blade-23; ink roller-23 a; a scraper support-24; a sliding table-25; a drive link-26; a lifting drive-27; a crutch shaft-28; a spring-29;

printing station-30; a conveying device-31;

a cleaning station-40; a washing table-41;

transition station-50;

a pressing drive device-60 and a pressing drive bracket-61; drive-62 is depressed.

Detailed Description

The following description of the preferred embodiments of the present invention will enable one skilled in the art to make and use the present invention as described below, and will more fully understand the innovative features and attendant advantages of the present invention.

As shown in fig. 1 and 2, a multi-station printing mechanism is provided with a pad printing device 10 in the middle, an ink sticking station 20, a printing station 30, a cleaning station 40 and a transition station 50 are respectively arranged around the lower part of the pad printing device 10, and a press-down driving device 60 is further arranged above the pad printing device 10.

Specifically, as shown in fig. 3, the pad printing device 10 includes a rotating disk 11, four driving rods 12 are uniformly arranged at the edge of the rotating disk 11, a pad printing head 13 is arranged at the lower end of each driving rod 12, and when the pad printing device works, the rotating disk 11 can drive the four pad printing heads 13 to rotate, so that the four pad printing heads 13 are vertically aligned with an ink sticking station 20, a stamp pressing station 30, a cleaning station 40 and a transition station 50 below the four pad printing heads, and a subsequent downward pressing driving device 60 can conveniently press the pad printing heads to complete ink sticking, stamp pressing, cleaning and transition operations.

Push down drive arrangement 60 and be provided with down and press drive support 61, push down the drive support for the semi-enclosed structure that matches rotary disk 11, but not be limited to this, correspond and glue black station 20, press down seal station 30, clean station 40 position and still be provided with three drive 62 that pushes down, it is fixed in to push down drive 62 on the support 61, the drive end of drive 62 that pushes down runs through and pushes down support 61 and sets up, transfer line 12 can rotate to the drive 62 below that pushes down that corresponds the station along with rotary disk 11 at the during operation to move down the action and provide power for transfer line 12.

It should be noted that the three downward-pressing drives 62 can be driven synchronously downward according to actual production requirements, or sequentially downward according to a certain sequence, so as to complete the operations of ink sticking, printing and cleaning.

The transmission rod 12 is a spring rod which can automatically reset after being pressed down, but not limited to this, and can also be a compressed air rod, so that the transfer head 13 at the lower end of the transmission rod can automatically reset after moving down to complete ink sticking, printing and cleaning operations.

Specifically, as shown in fig. 4, glue black station 20 and be provided with ink horn 21, be provided with the steel mould 22 of carving characters in the ink horn 21, the top of steel mould 22 of carving characters is provided with printing ink roller 23a and printing ink scraper 23, printing ink roller 23a and printing ink scraper 23 pass through scraper support 24 slope and stretch into in the ink horn 21, scraper support 24 sets up on slip table 25, slip table 25 is provided with drive link 26, slip table 25 passes through the horizontal slip of drive link 26 to drive printing ink roller 23a and printing ink scraper 23 horizontal migration.

The side surface of the scraper bracket 24 is also provided with a lifting drive 27, a crutch-shaped shaft 28 is arranged above the lifting drive 27, and the ink roller 23a and the ink scraper 23 are fixed on the crutch-shaped shaft 28 and can rotate to lift or descend along with the crutch-shaped shaft 28; one end of the crank shaft 28 is further connected with a spring 29, but the spring 29 is not limited thereto, and the other end of the spring 29 is connected with the side surface of the lifting drive 27.

Specifically, during the ink coating operation, the lifting drive 27 is lifted to jack up the crank shaft 28, so that the ink roller 23a is fully contacted with the surface of the flat steel die 22, and because the ink scraper 23 of the ink roller 23a extends into the ink box 21 at different angles, a certain gap is reserved between the ink scraper 23 and the surface of the flat steel die 22, then the sliding table 25 moves forward, and the ink coating operation is completed; during ink scraping operation, the lifting drive 27 descends to a low position, the crutch-shaped shaft 28 is subjected to the downward pulling force of the spring 29, so that the ink scraper 23 is pressed down to the surface of the plane steel die 22, then the sliding table 25 moves backwards, ink on the non-lettering part of the surface of the plane steel die 22 can be scraped, and after ink scraping is completed, the pad printing head 13 moves downwards at the moment, and ink fonts on the plane steel die 22 can be picked up.

Specifically, as shown in fig. 5, the printing position 30 is provided with a conveying device 31, and the conveying device 31 is used for automatically conveying the products a to be printed one by one to the printing position of the pad 13, so that the downward movement of the pad 13 is matched to complete the printing operation, the position is accurate, and the degree of automation is high.

Specifically, as shown in fig. 6, the cleaning station 40 includes a cleaning platform 41, and the cleaning platform 41 is provided with a cleaning material, which is a gummed paper with a sticky surface on one side, but not limited thereto, and the cleaning platform 41 is used for providing effective support when the pad printing head 13 is pressed down on the cleaning material, so as to ensure the sticking effect of the residual ink printed by the pad printing head 13.

After the stamping is finished, the pad 13 rotates to the position above the washing table 41 from the stamping station 30 and is pressed down to the cleaning material of the washing table 41 through the transmission rod 12, so that the pad 13 is cleaned and adhered after the stamping is finished, and the ink residue is avoided.

The transition station 50 is a vacant position without any structure, the pad printing head 13 after the cleaning of the cleaning station 30 can rotate to the station to prepare for the subsequent ink sticking operation, and the transition station 50 is convenient to maintain and replace the subsequent pad printing head 13.

The multistation printing mechanism that describes above, be different from traditional single pad printing head seal word mode, this mechanism is provided with four pad printing heads 13, and the matching sets up glues black station 20, press down seal station 30, clean station 40, transition station 50, four stations encircle rotary disk 11 and set up, make this mechanism glue the china ink, press down the seal, orderly and link up during clean operation, four pad printing heads 13 are synchronous revolution under the drive of rotary disk 11, it is shorter to press down the seal interval, effectively accelerated press down seal efficiency, every pad printing head 13 presses down the cleanness that can in time carry out remaining printing ink after the seal operation is accomplished, the residue of printing ink has been avoided, the life of pad printing heads 13 has been prolonged, the effective seal yield of pressing down after guaranteeing pad printing heads 13 long-time use simultaneously.

The foregoing is a more detailed description of the present invention, taken in conjunction with the specific preferred embodiments thereof, and it is not intended that the specific embodiments of the present invention be limited by these descriptions; to the utility model belongs to the technical field of ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions or replacement, all should regard as belonging to the utility model discloses a protection.

Claims (9)

1. A multistation printing mechanism which characterized in that: the transfer printing device is provided with at least four transfer printing heads, a viscous ink station, a printing station and a cleaning station are arranged below the transfer printing device, the transfer printing device can drive the transfer printing heads to be sequentially transferred from the viscous ink station to the printing station and the cleaning station, and therefore the viscous ink, the product and the cleaning operation of the transfer printing heads are correspondingly completed.

2. A multi-station printing mechanism according to claim 1, wherein: specifically, the pad printing device is provided with a rotating disc, transmission rods are uniformly distributed on the periphery of the rotating disc, and the pad printing heads are fixed at the lower ends of the transmission rods.

3. A multi-station printing mechanism according to claim 2, wherein: glue black station, press down the top of seal station, clean station and still be provided with down and press down drive arrangement, it is provided with down to press down drive arrangement, it can promote to push down the drive pole realizes moving down of bat seal head for it moves down to glue black, press down seal, clean operation to move down of bat seal head.

4. A multi-station printing mechanism according to claim 2, wherein: the transmission rod is a spring rod or a compressed air rod which can automatically reset after being pressed down, so that the pad printing head at the lower end of the transmission rod can automatically reset after moving down to complete ink sticking, printing and cleaning operations.

5. A multi-station printing mechanism according to claim 1, wherein: the ink sticking station is provided with an ink box, a lettering steel die is arranged in the ink box, and an ink roller and an ink scraper are arranged above the lettering steel die.

6. The multi-station printing mechanism according to claim 5, wherein: ink gyro wheel and ink scraper pass through the scraper support and stretch into the setting in the ink box, scraper support bottom is provided with the slip table, ink gyro wheel and ink scraper can push down to the steel mould surface and along with slip table reciprocating motion to realize the coating of steel mould printing ink of carving characters and the scraping of the unnecessary printing ink in steel mould surface of carving characters.

7. A multi-station printing mechanism according to claim 1, wherein: the transfer printing machine is characterized in that the printing station is provided with a conveying device, and the conveying device can convey a product to a printing position of the transfer printing head so as to complete the printing operation of the product by cooperating with pressing drive.

8. A multi-station printing mechanism according to claim 1, wherein: the cleaning station is provided with a cleaning table, the cleaning table is used for placing cleaning materials, and the pad printing head which presses the printing station can rotate to the upper part of the cleaning table and press down the cleaning materials on the cleaning table, so that the cleaning of residual printing ink of the pad printing head after the completion of the printing is realized.

9. A multi-station printing mechanism according to claim 1, wherein: the transfer printing head is characterized by further comprising a transition station, the transition station is a vacant position arranged between the cleaning station and the ink sticking station, the transfer printing head after cleaning of the cleaning station can rotate to the station for transition, and meanwhile, maintenance and replacement of the follow-up transfer printing head are facilitated.

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