CN108045075B - Transfer machine - Google Patents

Abstract

A transfer machine comprises a transfer mold, a brush, a scraper and a matrix; the transfer printing die is arranged on the transfer printing die lifting mechanism, and the transfer printing die lifting mechanism is arranged on the transfer printing die longitudinal horizontal moving mechanism; the brush and the scraper are arranged on a brush lifting mechanism, and the brush lifting mechanism is arranged on a brush longitudinal horizontal moving mechanism; the type matrix is installed in the pigment groove, and the upper surface of the type matrix is carved with typefaces. According to the scheme, the brush is used for smearing the pigment on the character die, the pigment permeates into the character, the scraper is used for removing the redundant pigment on the character die, the transfer printing die is used for obtaining the pigment in the character from the character die, and then the pigment is transferred to a product to finish the printing of the product. This scheme transfer machine can improve the printing efficiency and the printing quality of typeface on the product.

Description

Transfer machine

Technical Field

The invention relates to the technical field of printing, in particular to transfer printing equipment.

Background

According to the prior art, the way of printing characters on a product is as follows: the printing plate is carved with the typeface of fretwork on, and the printing plate is placed on the product, and the printing plate upper surface is scribbled pigment, and the brush comes back and forth at the printing plate upper surface and brushes, and pigment forms corresponding typeface on the product along the typeface printing of fretwork on the product.

Disclosure of Invention

The technical problems solved by the invention are as follows: how to improve the efficiency of product printing.

In order to solve the technical problems, the invention provides the following technical scheme: a transfer machine comprises a transfer mold, a brush, a scraper and a matrix; the transfer printing die is arranged on the transfer printing die lifting mechanism, and the transfer printing die lifting mechanism is arranged on the transfer printing die longitudinal horizontal moving mechanism; the brush and the scraper are arranged on a brush lifting mechanism, the brush lifting mechanism is arranged on a brush longitudinal horizontal moving mechanism, and the brush and the scraper are arranged in parallel front and back; the character die is arranged in the pigment groove, characters are engraved on the upper surface of the character die, and the upper surface of the character die is higher than the surface of pigment in the pigment groove; the transfer mould is positioned in front of the brush, and the pigment groove is positioned below the brush.

According to the technical scheme, the brush lifting mechanism drives the brush and the scraper to extend into the pigment groove to contact with the pigment, and then the brush and the scraper ascend; under the drive of the brush longitudinal horizontal moving mechanism, the brush moves forward to brush the pigment on the character die, and the pigment permeates into the character. And the scraper which moves forward synchronously with the brush scrapes the surface of the matrix to scrape off the pigment on the surface of the matrix. After the brush and the scraper leave the upper part of the matrix, the transfer printing mold is driven by the transfer printing mold lifting mechanism and the transfer printing mold longitudinal horizontal moving mechanism to downwards press on the character of the matrix to obtain the pigment in the character, and then the pigment is transferred to a product to finish the printing of the product.

The transfer printing mold longitudinal horizontal moving mechanism and the brush longitudinal horizontal moving mechanism are the same mechanism, the mechanism drives the transfer printing mold, the brush and the scraper to synchronously move forwards or backwards, and when the transfer printing mold transfers a product, the brush and the scraper permeate pigments into the character of the character mold so as to improve the working efficiency.

The transfer printing die is arranged on the transfer printing die lifting mechanism through a transfer printing die mounting assembly; the transfer printing die installation component comprises a transfer printing die rotation adjusting component connected with the transfer printing die, a transfer printing die longitudinal adjusting component connected with the transfer printing die rotation adjusting component, and a transfer printing die transverse adjusting component connected with the transfer printing die longitudinal adjusting component, and the transfer printing die transverse adjusting component is installed on the transfer printing die lifting mechanism. The rotary adjusting assembly of the transfer printing die, the longitudinal adjusting assembly of the transfer printing die and the transverse adjusting assembly of the transfer printing die are used for adjusting the circumferential position, the longitudinal position (front and back position) and the transverse position (left and right position) of the transfer printing die so as to improve the accuracy of the word position on a product.

The rotary transfer printing mold adjusting assembly comprises a transfer printing mold mounting disc, a transfer printing mold rotating shaft arranged on the transfer printing mold mounting disc and a rotating shaft fixing assembly which is installed on the transfer printing mold rotating shaft in a matched mode;

the rotating shaft fixing assembly comprises a rotating shaft fixing seat provided with a hollow cavity, a rotating shaft pressing sheet matched in the hollow cavity of the rotating shaft fixing seat and a rotating shaft fixing bolt installed on the rotating shaft pressing sheet, the transfer die rotating shaft is inserted in the hollow cavity of the rotating shaft fixing seat and clamped by the side wall of the hollow cavity and the rotating shaft pressing sheet, the rotating shaft fixing bolt is in threaded connection with the rotating shaft fixing seat, and the rotating shaft fixing bolt can drive the rotating shaft pressing sheet to move towards the side wall of the hollow cavity so as to clamp the transfer die rotating shaft;

the transfer printing die is arranged on the transfer printing die mounting disc, and the rotating shaft fixing assembly is arranged on the transfer printing die longitudinal adjusting assembly.

According to the above description, the rotating shaft fixing bolt presses the rotating shaft pressing sheet, and the rotating shaft pressing sheet and the side wall of the hollow cavity clamp the rotating shaft of the transfer printing mold. When the circumferential position of the transfer printing die needs to be adjusted, the rotating shaft fixing bolt is loosened, the rotating shaft pressing sheet is loosened, the rotating shaft of the transfer printing die, and the circumferential position of the transfer printing die can be adjusted.

The transfer printing die longitudinal adjusting assembly comprises an adjusting transition block matched with the transfer printing die transverse adjusting assembly, a transfer printing die longitudinal adjusting seat in sliding fit with the adjusting transition block, and a longitudinal fixing assembly arranged on the adjusting transition block, wherein the longitudinal fixing assembly can fix the transfer printing die longitudinal adjusting seat on the adjusting transition block;

the side wall of the transition block for adjustment is provided with an installation groove, and the longitudinal adjusting seat of the transfer mold is provided with a longitudinal adjusting sliding groove matched with the transition block for adjustment;

the longitudinal fixing assembly comprises a tightening block, a driving block and a tightening bolt, the tightening bolt is in threaded connection with the transition block for adjustment and extends into the mounting groove, the driving block is in sliding fit in the mounting groove and is mounted at the end of the tightening bolt, the tightening block is in sliding fit in the mounting groove and can protrude outwards from the mounting groove, and the tightening block protruding outwards from the mounting groove can be pressed against the side wall of the sliding groove for longitudinal adjustment; the tensioning block is provided with a first inclined surface, the driving block is provided with a second inclined surface, the tensioning block is perpendicular to the driving block, and the first inclined surface is matched with the second inclined surface;

the rotating shaft fixing component is arranged on the transfer printing die longitudinal adjusting seat.

According to the description, the tightening bolt acts to drive the driving block to move longitudinally, the driving block drives the tightening block to move transversely through the sliding fit of the first inclined surface and the second inclined surface, the tightening block protrudes transversely out of the mounting groove, the tightening block is pressed against the side wall of the sliding groove for longitudinal adjustment, and the transition block for adjustment and the transfer printing die longitudinal adjustment seat are fixed. When the longitudinal position of the transfer die needs to be adjusted, the tightening bolt is loosened.

The transfer printing mold transverse adjusting assembly comprises a transfer printing mold transverse guide rail arranged on the transfer printing mold lifting mechanism and a pair of guide rail clamping blocks matched with the transfer printing mold transverse guide rail;

the transition block for adjustment is provided with a sliding groove for transverse adjustment and a pair of guide rail clamping block mounting grooves, and the pair of guide rail clamping block mounting grooves are positioned on two sides of the sliding groove for transverse adjustment; the transfer die transverse guide rail is matched in the transverse adjusting sliding groove, the pair of guide rail clamping blocks is matched in the pair of guide rail clamping block mounting grooves, a screw rod for connecting the clamping blocks is connected with the pair of guide rail clamping blocks, and the screw rod for connecting the clamping blocks penetrates through the adjusting transition block.

As described above, when the transfer mold cross rail and the adjustment transition block need to be fixed, the screw for connecting the clamp blocks is operated to move the pair of rail clamp blocks toward each other and clamp the pair of rail clamp blocks to the transfer mold cross rail. When the transverse position of the rotary die plate needs to be adjusted, the screw rod for connecting the clamping blocks is loosened.

The end portion of screwing of pivot fixing bolt, the end portion of screwing of jack bolt, the end portion of screwing of the screw rod of clamp splice connection usefulness all is towards the place ahead, promptly, towards the operator, makes things convenient for the operator to adjust the position of rotary impression.

At least one pair of matrix fastening bolts are screwed on a pair of opposite side walls of the pigment groove, and the matrices are clamped by the at least one pair of matrix fastening bolts in opposite directions.

A product carrying platform mechanism is arranged below the transfer mould;

the product carrier mechanism comprises a carrier lifting guide rail, a carrier lifting seat which is in sliding fit with the carrier lifting guide rail, a carrier longitudinal moving seat which is in sliding fit with the carrier lifting seat, a carrier transverse moving seat which is in sliding fit with the carrier longitudinal moving seat, and a carrier which is arranged on the carrier transverse moving seat;

the bottom of the carrier lifting guide rail is provided with a first threaded seat, a first screw rod is screwed on the first threaded seat, and the first screw rod is connected with the carrier lifting seat;

the carrying platform lifting seat is provided with a second threaded seat, a second screw rod is screwed on the second threaded seat, and the second screw rod is connected with the carrying platform longitudinal moving seat;

the microscope carrier longitudinal moving seat is provided with a third threaded seat, a third screw rod is screwed on the third threaded seat, and the third screw rod is connected with the microscope carrier transverse moving seat.

The microscope carrier transverse moving seat is provided with a limiting edge and a locking screw, the limiting edge and the locking screw are arranged oppositely, and the locking screw tightly pushes the microscope carrier on the limiting edge.

According to the above description, the first screw drives the carrier to lift, the second screw drives the carrier to move longitudinally, and the third screw drives the carrier to move transversely, so as to adjust the position of the product on the carrier and improve the accuracy of the transfer printing die for transferring the characters to the product.

The transfer printing machine can improve the printing efficiency and the printing quality of the typeface on the product.

Drawings

The invention is further described below with reference to the accompanying drawings:

FIG. 1 is a schematic view of the combination of a transfer mold, a brush, a scraper, a matrix and a pigment groove;

FIG. 2 is a schematic view showing a combined structure of a transfer mold and a transfer mold mounting assembly;

FIG. 3 is an exploded view of FIG. 2;

FIG. 4 is a schematic view of the combination structure of the driving block and the tightening bolt shown in FIG. 3;

FIG. 5 is a schematic view of the spacer of FIG. 3;

FIG. 6 is a plan view of the tensioning block of FIG. 5 looking down;

FIG. 7 is a schematic view of a pigment trough;

fig. 8 is a schematic diagram of a product stage mechanism.

The symbols in the drawings illustrate that:

10. transferring the die; 11. a transfer mold lifting mechanism; 12. a transfer mold longitudinal horizontal movement mechanism; 13. a transfer die mounting assembly; 131. a transfer mold mounting plate; 132. a transfer mold rotating shaft; 133. a rotating shaft fixing seat; 1330. a hollow cavity of the rotating shaft fixing seat; 134. pressing the rotating shaft; 136. a transition block for adjustment; 1360. mounting grooves; 1361. a sliding groove for transverse adjustment; 1362. a guide rail clamping block mounting groove; 137. a longitudinal adjusting seat of the transfer mold; 138. a tensioning block; 1380. a first inclined surface; 139. a drive block; 1390. a second inclined surface; 140. tightening the bolt; 141. a transfer mold transverse guide rail; 142. a guide rail clamping block;

20. a brush; 21. a brush lifting mechanism;

30. a scraper;

40. a matrix; 41. a typeface;

50. a pigment groove; 51. a matrix fastening bolt;

60. a stage; 61. a platform lifting guide rail; 610. a first screw; 62. a carrying platform lifting seat; 620. a second screw; 63. a stage longitudinal moving base; 630. a third screw; 64. a platform deck transverse moving seat; 640. and locking the screw.

Detailed Description

Referring to fig. 1 and 8, a transfer machine includes a transfer mold 10, a brush 20, a doctor blade 30, a matrix 40, and a stage 60.

Referring to fig. 1, the transfer mold 10 is mounted on a transfer mold lifting mechanism 11, and the transfer mold lifting mechanism is mounted on a transfer mold longitudinal horizontal movement mechanism 12.

As shown in fig. 2, the transfer mold 10 is mounted on the transfer mold lifting mechanism 11 by a transfer mold mounting assembly 13.

The transfer printing die installation component comprises a transfer printing die rotation adjusting component connected with the transfer printing die, a transfer printing die longitudinal adjusting component connected with the transfer printing die rotation adjusting component, and a transfer printing die transverse adjusting component connected with the transfer printing die longitudinal adjusting component, and the transfer printing die transverse adjusting component is installed on the transfer printing die lifting mechanism.

As shown in fig. 3, the rotary adjusting assembly of the transfer mold comprises a transfer mold mounting plate 131, a rotary shaft 132 of the transfer mold disposed on the transfer mold mounting plate, and a shaft fixing assembly fittingly mounted on the rotary shaft of the transfer mold.

About the rotary adjusting component of transfer die, the fixed subassembly of pivot is including the pivot fixing base 133 of offering well cavity, the pivot preforming 134 of cooperation in the cavity of pivot fixing base, installing pivot fixing bolt in the pivot preforming, the transfer die rotation axis is inserted and is established in the cavity of pivot fixing base, and by the lateral wall of well cavity with the centre gripping of pivot preforming, pivot fixing bolt spiro union is in on the pivot fixing base, pivot fixing bolt can drive the pivot preforming to the lateral wall of well cavity removes and presss from both sides tightly the transfer die rotation axis.

With respect to the transfer mold rotation regulating assembly, the transfer mold 10 is mounted on the transfer mold mounting plate, and the rotary shaft fixing assembly is mounted on the transfer mold longitudinal regulating assembly.

As shown in fig. 3 to 6, the transfer mold longitudinal adjusting assembly comprises an adjusting transition block 136 matched with the transfer mold transverse adjusting assembly, a transfer mold longitudinal adjusting seat 137 matched with the adjusting transition block in a sliding mode, and a longitudinal fixing assembly arranged on the adjusting transition block, wherein the longitudinal fixing assembly can fix the transfer mold longitudinal adjusting seat on the adjusting transition block.

Regarding the transfer mold longitudinal adjusting assembly, the side wall of the transition block for adjustment is provided with an installation groove 1360, and the transfer mold longitudinal adjusting seat is provided with a sliding groove for longitudinal adjustment matched with the transition block for adjustment.

Regarding the transfer mold longitudinal adjusting component, the longitudinal fixing component comprises a tightening block 138, a driving block 139 and a tightening bolt 140, the tightening bolt is screwed on the adjusting transition block and extends into the mounting groove, the driving block is in sliding fit in the mounting groove and is mounted at the end of the tightening bolt, the tightening block is in sliding fit in the mounting groove and can protrude outwards from the mounting groove, and the tightening block protruding outwards from the mounting groove can be pressed against the side wall of the longitudinal adjusting sliding groove; the tight piece of propping is equipped with first inclined plane 1380, the drive block is equipped with second inclined plane 1390, prop tight piece with the drive block is perpendicular just first inclined plane with the cooperation of second inclined plane.

Regarding the transfer printing die longitudinal adjusting assembly, the rotating shaft fixing assembly is installed on the transfer printing die longitudinal adjusting seat.

As shown in fig. 3, the transfer mold lateral adjustment assembly includes a transfer mold lateral rail 141 mounted on the transfer mold lifting mechanism 11, and a pair of rail clamp blocks 142 fitted on the transfer mold lateral rail.

Regarding the transfer mold lateral adjustment assembly, the adjustment transition block 136 is provided with a lateral adjustment sliding groove 1361 and a pair of guide rail clamp block installation grooves 1362, and the pair of guide rail clamp block installation grooves are positioned on two sides of the lateral adjustment sliding groove; the transfer die transverse guide rail is matched in the transverse adjusting sliding groove, the pair of guide rail clamping blocks is matched in the pair of guide rail clamping block mounting grooves, a screw rod for connecting the clamping blocks is connected with the pair of guide rail clamping blocks, and the screw rod for connecting the clamping blocks penetrates through the adjusting transition block.

In the transfer mold mounting assembly 13, the screwing end portion of the rotating shaft fixing bolt, the screwing end portion of the tightening bolt, and the screwing end portion of the screw for connecting the clamping blocks all face forward.

The brush 20 and the scraper 30 are mounted on a brush lifting mechanism 21, the brush lifting mechanism is mounted on the transfer printing die longitudinal horizontal moving mechanism 12, and the brush and the scraper are arranged in parallel front and back.

As shown in fig. 7, the matrix 40 is installed in the color tank 50, and the upper surface of the matrix is engraved with the characters 41, which is higher than the surface of the color in the color tank. Two pairs of matrix fastening bolts 51 are screwed on a pair of opposite side walls of the pigment tank 50, and the two pairs of matrix fastening bolts clamp the matrices 40 oppositely.

As shown in fig. 8, the stage 60 is provided on a product stage mechanism located below the transfer mold 10.

The product stage mechanism includes a stage lifting guide rail 61, a stage lifting base 62 slidably fitted on the stage lifting guide rail, a stage longitudinal moving base 63 slidably fitted on the stage lifting base, a stage lateral moving base 64 slidably fitted on the stage longitudinal moving base, and a stage 60 mounted on the stage lateral moving base.

Regarding the product stage mechanism, the bottom of the stage lifting guide rail is provided with a first screw seat, the first screw seat is screwed with a first screw 610, and the first screw is connected with the stage lifting seat.

Regarding the product carrier mechanism, the carrier lifting base is provided with a second threaded base, a second screw 620 is screwed on the second threaded base, and the second screw is connected with the carrier longitudinal moving base.

Regarding the product carrier mechanism, the carrier longitudinal moving base is provided with a third screw base, and a third screw 630 is screwed on the third screw base and is connected with the carrier transverse moving base.

Regarding the product stage mechanism, the stage transverse moving base 64 is provided with a limit edge and a locking screw 640, the limit edge and the locking screw are arranged oppositely, and the locking screw tightly pushes the stage 60 against the limit edge.

The transfer die 10 is located in front of the brush 20, the color tanks 40 are located below the brush 20, and the carrier 60 is located in front of the color tanks 40.

In operation, the brush lifting mechanism 21 drives the brush 20 and the scraper 30 into the paint tank 50 to contact the paint. After that, the brush 20 and the scraper 30 are lifted. Under the drive of the longitudinal horizontal transfer mechanism 12 of the transfer mold, the brush and the scraper move forward to brush the pigment on the character mold 40, the pigment permeates into the character, and the scraper 30 scrapes the surface of the character mold to scrape the pigment on the surface of the character mold. Thereafter, the brush and scraper are raised away from the face of the matrix 40.

The transfer mold 10, the brush 20 and the scraper 30 synchronously move back and forth horizontally under the driving of the longitudinal horizontal transfer mechanism 12 of the transfer mold, the transfer mold 10 comes above the matrix 40, the transfer mold 10 descends to press on the characters of the matrix 40 under the driving of the lifting mechanism 11 of the transfer mold, and the pigments in the characters are transferred to the transfer mold 10. After that, the transfer mold ascends.

The transfer mold 10 is horizontally moved forward to just above the stage 60 by the transfer mold longitudinal horizontal movement mechanism 12. The product is carried on the stage, and the stage 60 is driven by the first screw 610 to move up linearly, so that the product is in contact with the transfer mold 10, and the pigment on the transfer mold is transferred to the product, thereby completing the printing of the character pattern on the product.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description herein, since various changes and modifications can be made in the details of the embodiment and the application range according to the spirit of the present invention.

Claims (7)

1. A transfer machine includes a transfer mold (10), a brush (20), a scraper (30), a matrix (40); the method is characterized in that:

the transfer printing mould is arranged on a transfer printing mould lifting mechanism (11), and the transfer printing mould lifting mechanism is arranged on a transfer printing mould longitudinal horizontal moving mechanism (12);

the brush and the scraper are arranged on a brush lifting mechanism (21), the brush lifting mechanism is arranged on a brush longitudinal horizontal moving mechanism, and the brush and the scraper are arranged in parallel front and back; the brush and the scraper move forward synchronously;

the character die is arranged in the pigment groove (50), characters (41) are engraved on the upper surface of the character die, and the upper surface of the character die is higher than the surface of pigment in the pigment groove;

the transfer die is positioned in front of the brush, and the pigment groove is positioned below the brush;

the longitudinal horizontal moving mechanism (12) of the transfer printing die and the longitudinal horizontal moving mechanism of the brush are the same mechanism;

the transfer printing die (10) is arranged on the transfer printing die lifting mechanism (11) through a transfer printing die mounting assembly (13);

the transfer printing die installation component comprises a transfer printing die rotation adjusting component connected with the transfer printing die, a transfer printing die longitudinal adjusting component connected with the transfer printing die rotation adjusting component, and a transfer printing die transverse adjusting component connected with the transfer printing die longitudinal adjusting component, and the transfer printing die transverse adjusting component is installed on the transfer printing die lifting mechanism;

the rotary transfer printing die adjusting assembly comprises a transfer printing die mounting disc (131), a rotary transfer printing die rotating shaft (132) arranged on the transfer printing die mounting disc and a rotating shaft fixing assembly which is arranged on the rotary transfer printing die rotating shaft in a matching mode;

the rotating shaft fixing assembly comprises a rotating shaft fixing seat (133) provided with a hollow cavity, a rotating shaft pressing sheet (134) matched in the hollow cavity of the rotating shaft fixing seat and a rotating shaft fixing bolt installed on the rotating shaft pressing sheet, the transfer die rotating shaft is inserted in the hollow cavity of the rotating shaft fixing seat and clamped by the side wall of the hollow cavity and the rotating shaft pressing sheet, the rotating shaft fixing bolt is in threaded connection with the rotating shaft fixing seat, and the rotating shaft fixing bolt can drive the rotating shaft pressing sheet to move towards the side wall of the hollow cavity so as to clamp the transfer die rotating shaft;

the transfer printing die (10) is arranged on the transfer printing die mounting disc, and the rotating shaft fixing assembly is arranged on the transfer printing die longitudinal adjusting assembly.

2. A transfer machine according to claim 1, characterized in that: the transfer printing die longitudinal adjusting assembly comprises an adjusting transition block (136) matched with the transfer printing die transverse adjusting assembly, a transfer printing die longitudinal adjusting seat (137) in sliding fit with the adjusting transition block, and a longitudinal fixing assembly arranged on the adjusting transition block, wherein the longitudinal fixing assembly can fix the transfer printing die longitudinal adjusting seat on the adjusting transition block;

the side wall of the transition block for adjustment is provided with a mounting groove (1360), and the longitudinal adjusting seat of the transfer die is provided with a longitudinal adjusting sliding groove matched with the transition block for adjustment;

the longitudinal fixing assembly comprises a tightening block (138), a driving block (139) and a tightening bolt (140), the tightening bolt is screwed on the transition block for adjustment and extends into the mounting groove, the driving block is in sliding fit in the mounting groove and is mounted at the end part of the tightening bolt, the tightening block is in sliding fit in the mounting groove and can protrude outwards from the mounting groove, and the tightening block protruding outwards from the mounting groove can be pressed against the side wall of the sliding groove for longitudinal adjustment; the tensioning block is provided with a first inclined surface (1380), the driving block is provided with a second inclined surface (1390), the tensioning block is perpendicular to the driving block, and the first inclined surface is matched with the second inclined surface;

the rotating shaft fixing component is arranged on the transfer printing die longitudinal adjusting seat.

3. A transfer machine according to claim 2, characterized in that: the transfer printing mold transverse adjusting assembly comprises a transfer printing mold transverse guide rail (141) arranged on the transfer printing mold lifting mechanism (11) and a pair of guide rail clamping blocks (142) matched on the transfer printing mold transverse guide rail;

the adjusting transition block (136) is provided with a transverse adjusting sliding groove (1361) and a pair of guide rail clamping block mounting grooves (1362), and the pair of guide rail clamping block mounting grooves are positioned on two sides of the transverse adjusting sliding groove; the transfer die transverse guide rail is matched in the transverse adjusting sliding groove, the pair of guide rail clamping blocks is matched in the pair of guide rail clamping block mounting grooves, a screw rod for connecting the clamping blocks is connected with the pair of guide rail clamping blocks, and the screw rod for connecting the clamping blocks penetrates through the adjusting transition block.

4. A transfer machine according to claim 3, characterized in that: the screwing end part of the rotating shaft fixing bolt, the screwing end part of the tightening bolt and the screwing end part of the screw rod for connecting the clamping blocks face the front.

5. A transfer machine according to claim 1, characterized in that: at least one pair of matrix fastening bolts (51) are screwed on a pair of opposite side walls of the pigment groove (50), and the matrix (40) is clamped by the at least one pair of matrix fastening bolts in opposite directions.

6. A transfer machine according to claim 1, characterized in that: a product carrying platform mechanism is arranged below the transfer die (10);

the product carrier mechanism comprises a carrier lifting guide rail (61), a carrier lifting seat (62) in sliding fit with the carrier lifting guide rail, a carrier longitudinal moving seat (63) in sliding fit with the carrier lifting seat, a carrier transverse moving seat (64) in sliding fit with the carrier longitudinal moving seat, and a carrier (60) arranged on the carrier transverse moving seat;

the bottom of the carrier lifting guide rail is provided with a first threaded seat, the first threaded seat is screwed with a first screw (610), and the first screw is connected with the carrier lifting seat;

the carrying platform lifting seat is provided with a second threaded seat, a second screw (620) is screwed on the second threaded seat, and the second screw is connected with the carrying platform longitudinal moving seat;

the longitudinal moving seat of the carrying platform is provided with a third threaded seat, the third threaded seat is in threaded connection with a third screw (630), and the third screw is connected with the transverse moving seat of the carrying platform.

7. A transfer machine according to claim 6, characterized in that: the carrying platform transverse moving seat (64) is provided with a limiting edge and a locking screw (640), the limiting edge and the locking screw are arranged oppositely, and the carrying platform (60) is tightly jacked on the limiting edge by the locking screw.

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