CN113954520A

CN113954520A - Multi-process positioning and processing device for gold stamping transfer printing

Info

Publication number: CN113954520A
Application number: CN202111325717.XA
Authority: CN
Inventors: 汪维佳; 沈俊杰
Original assignee: Zhejiang Emf Cosplay Culture Industry Co ltd
Current assignee: Zhejiang Emf Cosplay Culture Industry Co ltd
Priority date: 2021-11-10
Filing date: 2021-11-10
Publication date: 2022-01-21

Abstract

The invention relates to the technical field of processing devices, in particular to a multi-process positioning processing device for gold stamping transfer printing, which proposes the following scheme, the base is included, the fixedly connected with bracing piece on the base, the first board of top surface fixedly connected with of bracing piece, be equipped with two movable blocks between first board and the base, the equal fixedly connected with second pole of top surface of movable block, the second spout has been seted up on the first board, the one end of second pole all passes second spout and fixedly connected with third pole, threaded connection has first screw thread post between two second poles, two second poles are passed respectively at the both ends of first screw thread post, first recess has all been seted up to the bottom surface of movable block, the equal sliding connection in both sides of first recess has the slider, equal fixedly connected with second screw thread post between two sliders, the equal threaded connection in outside of second screw thread post has two gyro wheels, the gyro wheel all rotates the connection ejector pad. The invention solves the problem that the spreading tightness is inconsistent because of different manual spreading forces.

Description

Multi-process positioning and processing device for gold stamping transfer printing

Technical Field

The invention relates to the field of processing devices, in particular to a multi-process positioning processing device for gold stamping transfer printing.

Background

The cloth gold stamping technology is developed fast in China, the gold stamping technology is to transfer an aluminum layer in the electrochemical aluminum to the surface of a printing stock by utilizing the principle of hot-pressing transfer to form a special metal effect, the main material used for gold stamping is the electrochemical aluminum foil, so the gold stamping is also called the electrochemical aluminum hot stamping, the electrochemical aluminum foil is usually formed by multiple layers of materials, the base material is usually PE, and then a separation coating, a color coating, a metal coating (aluminum plating) and a glue coating are formed;

the basic gold stamping process is that under a pressure state, namely a state that the alumite is pressed by a hot stamping plate and a printing stock, the alumite is heated to melt a hot-melt organic silicon resin layer and an adhesive on the alumite, the viscosity of the organic silicon resin melted by heating is reduced, the viscosity of the special heat-sensitive adhesive is increased after being melted by heating, and the aluminum layer and the alumite film are peeled off and simultaneously transferred to the printing stock. With the removal of the pressure, the adhesive is rapidly cooled and solidified, and the aluminum layer is firmly attached to the printing stock to complete a hot stamping process;

when the cloth, the scroll or the fabric is subjected to gold stamping, the cloth, the scroll or the fabric has certain elasticity, the spreading tightness is inconsistent due to different manual spreading forces in the manual spreading process, and the printing is irregular due to the shrinkage of the cloth, the scroll or the fabric after the hot stamping.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a multi-process positioning and processing device for gold stamping transfer printing.

In order to achieve the purpose, the invention adopts the following technical scheme:

a multi-process positioning processing device for gold stamping transfer printing comprises a base, wherein a supporting rod is fixedly connected onto the base, a first plate is fixedly connected onto the top surface of the supporting rod, two moving blocks are arranged between the first plate and the base, second rods are fixedly connected onto the top surfaces of the moving blocks, a second sliding groove is formed in the first plate, one end of each second rod penetrates through the second sliding groove and is fixedly connected with a third rod, the second rods are movably connected with the second sliding groove, a first threaded column is connected between the two second rods in a threaded manner, two ends of the first threaded column penetrate through the two second rods respectively, a first groove is formed in the bottom surface of the moving block, sliding blocks are slidably connected onto two sides of the first groove, a second threaded column is fixedly connected between the two sliding blocks, and two idler wheels are connected onto the outer portion of the second threaded column in a threaded manner, the idler wheel is rotatably connected with a push block, the push block is slidably connected with a second threaded column, first sliding grooves are formed in two sides of a second groove, a seventh column is arranged in the first groove, two ends of the seventh column extend into the first sliding grooves respectively, the seventh column is slidably connected with the first sliding grooves, the push block is slidably connected with the seventh column, a sixth column is fixedly connected to the top surface of the sliding block, the top end of the sixth column extends to the top surface of the moving block and is fixedly connected with a fourth blocking piece, the sixth column is slidably connected with the moving block, a fourth spring is sleeved outside the sixth column, the fourth spring is located between the sliding block and the top surface of the first groove, and the first threaded column is connected with a driving mechanism in a transmission mode.

Further, actuating mechanism includes the outside first gear of fixed connection at first screw thread post, first gear engagement has first rack, first rack and first board sliding connection, the first post of top surface fixedly connected with of first rack, the top surface fixedly connected with cylinder of first board, the extension end fixedly connected with fourth rod of cylinder, the top of first post is passed fourth rod and the first separation blade of fixedly connected with, the outside cover of first post is equipped with first spring, first spring is located between fourth rod and the first rack.

Further, the top of base is equipped with the carriage, the top of carriage is equipped with the thermoprint board, the top of thermoprint board is equipped with the connecting rod, two fourth posts of fixedly connected with on the base, connecting rod and fourth post sliding connection, thermoprint board fixedly connected with L shape pole, L shape pole and connecting rod sliding connection, carriage fixedly connected with sixth pole, two fifth posts of top surface fixedly connected with of sixth pole, two L shape pole and fixedly connected with third fender piece are all passed on the top of fifth post, and the fifth post all with L shape pole sliding connection, the outside cover of fifth post is equipped with the third spring, and the third spring is located between sixth pole and the L shape pole, L shape pole is connected with fourth rod drive.

Furthermore, one side of the L-shaped rod is fixedly connected with a fixed plate, the bottom surface of the connecting rod is fixedly connected with a third rack, one side of the L-shaped rod, which is close to the third rack, is rotatably connected with a third gear, one side of the third gear, which is far away from the L-shaped rod, is rotatably connected with a second gear through a ratchet mechanism, the second gear is meshed with the third rack, the third gear is meshed with the second rack, the top end of the second rack penetrates through the fixed plate, the second rack is slidably connected with the fixed plate, one side of the second rack is fixedly connected with a connecting plate, the bottom surface of the connecting plate is fixedly connected with a third column, the bottom end of the third column penetrates through the fixed plate and is fixedly connected with a fifth blocking piece, the third column is slidably connected with the fixed plate, a second spring is sleeved outside the third column, the second spring is positioned between the connecting plate and the fixed plate, and the top surface of the connecting plate is fixedly connected with a second column, the one end fixedly connected with fifth pole of fourth pole, first logical groove has been seted up on the fifth pole, first logical groove and fixedly connected with second flap are passed to the one end of second post, second post and first logical groove swing joint.

Further, the ratchet mechanism comprises a circular groove arranged on one side of the second gear, a plurality of ratchets are arranged on the side wall of the circular groove, a rotary disc is arranged in the circular groove and is rotatably connected with the bottom surface of the circular groove, an elastic sheet and a pawl are connected to the rotary disc, the pawl is matched with the ratchets, the elastic sheet is matched with the pawl, a rotary column is fixedly connected with the rotary disc, and the rotary column is fixedly connected with the third gear.

Furthermore, one side of the L-shaped rod, which is close to the third rack, is fixedly connected with a sliding rod, a third sliding groove is formed in one side of the connecting rod, and one end of the sliding rod is located in the third sliding groove and is in sliding connection with the third sliding groove.

Furthermore, a placing groove is formed in the top surface of the base, and the moving blocks are located right above the placing groove.

Furthermore, fourth chutes are formed in two sides of the first groove, and each sliding block is located in each fourth chute and is connected with the fourth chute in a sliding mode.

The invention has the beneficial effects that:

1. the retracting cylinder, the fourth rod pushes the first spring, the first spring pushes the first rack, the first rack interacts with the first gear, the first gear rotates to drive the first threaded column to rotate, the first threaded column rotates to enable the two second rods to be away from each other, the two second rods are away from each other to enable the two moving blocks to be away from each other, synchronously, friction force exists between the roller and the scroll, the roller rotates, the two rollers in the same moving block interact with the second threaded column to enable the two rollers to be away from each other, the motion track direction of the push block is the resultant force direction of two forces which are perpendicular to each other, and the push block is equivalent to the fact that the scroll extends from the middle to four corners in the diagonal direction and is pushed flat, therefore, the purposes of flattening the scroll and keeping the pressing force constant are achieved, and the problem that the degree of tightness of the unfolded scroll is inconsistent due to different manual flattening forces is solved;

2. the third spring is compressed by downward movement of the L-shaped rod, the hot stamping plate gradually approaches and presses the electrochemical aluminum foil, and the electrochemical aluminum foil performs a gold stamping process under the action of the hot stamping plate, so that the purpose of gold stamping is achieved;

3. after the gold stamping is finished, the cylinder is extended, the fourth rod and the fifth rod move upwards, the third spring restores the original length first, the hot stamping plate leaves the support frame, the third blocking piece is in contact with the L-shaped rod, then the second spring starts to restore the original length gradually, the second rack moves upwards, the second rack interacts with the third gear, the third gear rotates to drive the rotating column to rotate, the rotating column drives the rotating disc to rotate, the rotating disc is opposite to the previous rotating direction, the pawl pushes the ratchet to drive the second gear to rotate, the second gear interacts with the third rack to drive the second gear to move, so that the hot stamping plate and the support frame are moved away from the original hot stamping place and are transferred to another place to be stamped on the scroll, in the process, the positions of the two moving blocks are kept unchanged, the electrochemical aluminum foil to be stamped is placed on the support frame again, then the cylinder is retracted, and all the components move in the same motion mode as before, the process is repeated, so that the purposes that the scroll is subjected to multi-position gold stamping and the gold stamping position intervals are the same are achieved, the scroll is always kept in an initial tensioning state due to the fact that the positions of the two moving blocks are kept unchanged, and the problem that due to the fact that the scroll is paved for multiple times due to multiple times of gold stamping, the spreading tightness of the scroll is inconsistent due to different paving force degrees is solved.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a front view of the drive mechanism of the present invention;

figure 3 is a front view of the moving mass of the present invention;

FIG. 4 is a side view of a portion of the structure of the present invention;

FIG. 5 is a front view of the ratchet mechanism of the present invention.

Reference numbers in the figures: 1 a first threaded column, 3 a second rod, 4 a first plate, 5 a third rod, 6 a cylinder, 7 a first rack, 8 a first spring, 9 a first column, 10 a first baffle, 11 a fourth rod, 12 a first gear, 14 a second gear, 15 a second rack, 16 a second baffle, 17 a fifth rod, 18 a second column, 19 a third column, 20 a third rack, 21 a second spring, 22 a third gear, 23 a fourth column, 24L-shaped rods, 25 a third baffle, 26 a third spring, 27 a fifth column, 28 a base, 29 a sixth rod, 30 a hot stamping plate, 31 a supporting frame, 33 a moving block, 34 a pushing block, 35 a second threaded column, 36 a supporting rod, 37 a fourth baffle, 38 a sixth column, 39 a sliding block, 40 a fourth spring, a roller 41, 42 a first sliding groove, 43 a seventh column, 44 a rotating column, 45 a fifth baffle, 46 a fixing plate, 48 a spring plate, 49 and 50 a pawl.

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.

Referring to fig. 1-5, a multi-process positioning and processing device for gold stamping transfer printing comprises a base 28, wherein a support rod 36 is fixedly connected to the base 28, a first plate 4 is fixedly connected to the top surface of the support rod 36, two moving blocks 33 are arranged between the first plate 4 and the base 28, second rods 3 are fixedly connected to the top surfaces of the moving blocks 33, a second sliding groove is formed in the first plate 4, one end of each second rod 3 penetrates through the second sliding groove and is fixedly connected with a third rod 5, the second rods 3 are movably connected with the second sliding groove, a first threaded post 1 is in threaded connection between the two second rods 3, and two ends of the first threaded post 1 penetrate through the two second rods 3 respectively;

the top surface of base 28 has seted up the standing groove, moving block 33 all is located the standing groove directly over, first recess has all been seted up to the bottom surface of moving block 33, the equal sliding connection in both sides of first recess has slider 39, and sliding connection's mode is: the two sides of the first groove are both provided with fourth sliding grooves, and each sliding block 39 is positioned in each fourth sliding groove and is in sliding connection with the fourth sliding groove;

a second threaded column 35 is fixedly connected between the two sliding blocks 39, two idler wheels 41 are in threaded connection with the outside of the second threaded column 35, the idler wheels 41 are rotatably connected with a push block 34, the push block 34 is in sliding connection with the second threaded column 35, vertical first sliding grooves 42 are formed in two sides of the second groove, a seventh column 43 is arranged in the first groove, two ends of the seventh column 43 extend into the first sliding grooves 42, the seventh column 43 is in sliding connection with the first sliding grooves 42, and the push block 34 is in sliding connection with the seventh column 43;

the top surfaces of the sliding blocks 39 are fixedly connected with sixth columns 38, the top ends of the sixth columns 38 extend to the top surface of the moving block 33 and are fixedly connected with fourth retaining pieces 37, the sixth columns 38 are slidably connected with the moving block 33, fourth springs 40 are sleeved outside the sixth columns 38, the fourth springs 40 are located between the sliding blocks 39 and the top surfaces of the first grooves, and the first threaded columns 1 are in transmission connection with driving mechanisms;

the driving mechanism comprises a first gear 12 fixedly connected to the outer portion of the first threaded column 1, the first gear 12 is meshed with a first rack 7, the first rack 7 is in sliding connection with the first plate 4, the top surface of the first rack 7 is fixedly connected with a first column 9, the top surface of the first plate 4 is fixedly connected with an air cylinder 6, the extending end of the air cylinder 6 is fixedly connected with a fourth rod 11, the top end of the first column 9 penetrates through the fourth rod 11 and is fixedly connected with a first blocking piece 10, the first column 9 is in sliding connection with the fourth rod 11, a first spring 8 is sleeved on the outer portion of the first column 9, and the first spring 8 is located between the fourth rod 11 and the first rack 7;

the top of base 28 is equipped with carriage 31, the top of carriage 31 is equipped with thermoprint 30, thermoprint 30's top is equipped with the connecting rod, two fourth posts 23 of fixedly connected with on the base 28, connecting rod and fourth post 23 sliding connection, thermoprint 30 fixedly connected with L shape pole 24, L shape pole 24 and connecting rod sliding connection, sliding connection's mode is: a sliding rod is fixedly connected to one side of the L-shaped rod 24 close to the third rack 20, a third sliding groove is formed in one side of the connecting rod, and one end of the sliding rod is located in the third sliding groove and is in sliding connection with the third sliding groove;

the supporting frame 31 is fixedly connected with a sixth rod 29, the top surface of the sixth rod 29 is fixedly connected with two fifth columns 27, the top ends of the two fifth columns 27 penetrate through the L-shaped rod 24 and are fixedly connected with a third baffle 25, the fifth columns 27 are slidably connected with the L-shaped rod 24, a third spring 26 is sleeved outside one of the fifth columns 27, the third spring 26 is located between the sixth rod 29 and the L-shaped rod 24, and the L-shaped rod 24 is in transmission connection with the fourth rod 11;

the elastic force generated by the maximum deformation amount of the second spring 21 is smaller than the elastic force of the third spring 26 by any deformation amount;

one side of the L-shaped rod 24 is fixedly connected with a fixing plate 46, the bottom surface of the connecting rod is fixedly connected with a third rack 20, one side of the L-shaped rod 24 close to the third rack 20 is rotatably connected with a third gear 22, one side of the third gear 22 far away from the L-shaped rod 24 is rotatably connected with a second gear 14 through a ratchet mechanism, the ratchet mechanism comprises a circular groove arranged on one side of the second gear 14, the side wall of the circular groove is provided with a plurality of ratchets, a rotary disc 50 is arranged in the circular groove, the rotary disc 50 is rotatably connected with the bottom surface of the circular groove, the rotary disc 50 is connected with a spring plate 48 and a ratchet pawl 49, the ratchet pawl 49 is matched with the pawl 49, the spring plate 48 is matched with the pawl 49, the rotary disc 50 is fixedly connected with a rotary column 44, and the rotary column 44 is fixedly connected with the third gear 22;

the second gear 14 is engaged with the third rack 20, the third gear 22 is engaged with the second rack 15, the top end of the second rack 15 passes through the fixing plate 46, the second rack 15 is slidably connected with the fixing plate 46, one side of the second rack 15 is fixedly connected with the connecting plate, the bottom surface of the connecting plate is fixedly connected with the third column 19, the bottom end of the third column 19 passes through the fixing plate 46 and is fixedly connected with the fifth baffle 45, the third column 19 is slidably connected with the fixing plate 46, the outer part of the third column 19 is sleeved with the second spring 21, the second spring 21 is positioned between the connecting plate and the fixing plate 46, the top surface of the connecting plate is fixedly connected with the second column 18, one end of the fourth rod 11 is fixedly connected with the fifth rod 17, the fifth rod 17 is provided with the first through groove, one end of the second column 18 passes through the first through groove and is fixedly connected with the second baffle 16, the second column 18 is movably connected with the first through groove;

the range of motion of the articulating mechanism of the present invention includes movement in both the vertical and horizontal directions.

The working principle is as follows: in an initial state, the extending end of the cylinder 6 extends, the roller 41 is located above the placing groove, the two moving blocks 33 are close to and contact with each other, the two pushing blocks 34 are close to and contact with each other, and the first blocking piece 10 is in contact with the fourth rod 11;

putting the bearing scroll in the placing groove, putting the electrochemical aluminum foil in the supporting frame 31, starting the air cylinder 6, contracting the air cylinder 6, moving the fourth rod 11 downwards, stopping the downward movement of the second rod 3 when the third rod 5 is contacted with the first plate 4, contacting the roller 41 and the push block 34 with the scroll, slightly lowering the lowest point of the roller 41 below the bottom surface of the push block 34, compressing the fourth spring 40 in the moving block 33, and having a buffer space as the fourth spring 40, so that the roller 41 is suitable for the scroll with different thicknesses, and the over-tight pressure of the roller 41 on the scroll is avoided;

continuing to retract the cylinder 6, the fourth rod 11 pushes the first spring 8, the first spring 8 pushes the first rack 7, the first rack 7 interacts with the first gear 12, the first gear 12 is rotated, the first gear 12 rotates to drive the first threaded column 1 to rotate, the first threaded column 1 rotates to enable the two second rods 3 to be away from each other, the two second rods 3 are away from each other to enable the two moving blocks 33 to be away from each other, synchronously, friction force exists between the roller 41 and the banner, the roller 41 rotates, the two rollers 41 in the same moving block 33 interact with the second threaded column 35 to enable the two rollers 41 to be away from each other, the motion track direction of the push block 34 is the resultant force direction of two forces which are perpendicular to each other, which is equivalent to extending and flattening the banner from the middle to four corners in the diagonal direction, therefore, the purposes of flattening the scroll and keeping the pressing force constant are achieved, and the problem that the degree of tightness of the unfolded scroll is inconsistent due to different manual flattening forces is solved;

when the two moving blocks 33 are far away from each other to the maximum distance, the first rack 7 keeps a certain position and continues to contract the cylinder 6, the first spring 8 is gradually compressed, and the fifth rod 17, the connecting rod and the supporting frame 31 move downwards along with the downward movement of the fourth rod 11;

after the supporting frame 31 is contacted with the scroll, the cylinder 6 is continuously contracted, the fifth rod 17 is contacted with the connecting plate on one side of the second rack 15 and pushes the connecting plate to move downwards, the second rack 15 moves downwards along with the connecting plate, the second blocking piece 16 is gradually far away from the fifth rod 17, the second rack 15 is interacted with the third gear 22, the third gear 22 rotates and drives the rotating column 44 to rotate, the rotating column 44 rotates and drives the rotating disc 50 to rotate, at the moment, the pawl 49 slides with the ratchet, the second gear 14 does not rotate, and the second spring 21 is compressed;

continuing to contract the air cylinder 6, moving the L-shaped rod 24 downwards, compressing the third spring 26, gradually approaching the hot stamping 30 and pressing the electrochemical aluminum foil, and carrying out a hot stamping process under the action of the hot stamping 30 so as to achieve the purpose of hot stamping;

after the gold stamping is finished, the cylinder 6 is extended, the fourth rod 11 and the fifth rod 17 move upwards, the third spring 26 recovers the original length, the hot stamping 30 leaves the supporting frame 31, the third baffle 25 is in contact with the L-shaped rod 24, then the second spring 21 starts to gradually recover the original length, the second rack 15 moves upwards, the second rack 15 interacts with the third gear 22, the third gear 22 rotates to drive the rotating column 44 to rotate, the rotating column 44 drives the rotating disc 50 to rotate, the rotating disc 50 rotates in the direction opposite to the previous rotating direction, the pawl 49 pushes the ratchet to rotate the second gear 14, the second gear 14 interacts with the third rack 20 to move the second gear 14, the supporting frame 31 and the hot stamping 30 are moved away from the original hot stamping place and are moved to another place to be hot stamped on the web, in the process, the positions of the two moving blocks 33 are kept unchanged, the electrochemical aluminum foil to be hot stamped is placed on the supporting frame 31 again, and then the cylinder 6 is contracted, each part carries out gold stamping according to the same movement mode as before, and the process is repeated, so that the aims of carrying out multiple gold stamping on the scroll and keeping the same gold stamping position interval are fulfilled, the scroll is always kept in an initial tensioning state due to the fact that the positions of the two moving blocks 33 are kept unchanged, and the problem that the scroll is spread out in different degrees of tightness due to different spreading force caused by multiple times of spreading due to multiple times of gold stamping is solved.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second", "third", "fourth", "fifth", "sixth", "seventh", "eighth", "ninth", "tenth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides a multiple operation location processingequipment for gilt transfer printing which characterized in that: the device comprises a base (28), a support rod (36) is fixedly connected to the base (28), a first plate (4) is fixedly connected to the top surface of the support rod (36), two moving blocks (33) are arranged between the first plate (4) and the base (28), second rods (3) are fixedly connected to the top surfaces of the moving blocks (33), a second sliding groove is formed in the first plate (4), one end of each second rod (3) penetrates through the second sliding groove and is fixedly connected with a third rod (5), the second rods (3) are movably connected with the second sliding groove, a first threaded column (1) is connected between the two second rods (3) in a threaded mode, two ends of the first threaded column (1) penetrate through the two second rods (3) respectively, a first groove is formed in the bottom surface of the moving block (33), sliding blocks (39) are connected to two sides of the first groove in a sliding mode, a second threaded column (35) is fixedly connected between the two sliding blocks (39), two idler wheels (41) are in threaded connection with the outer portion of the second threaded column (35), the idler wheels (41) are rotatably connected with a push block (34), the push block (34) is in sliding connection with the second threaded column (35), first sliding grooves (42) are formed in two sides of each second groove, seventh columns (43) are arranged in the first grooves, two ends of each seventh column (43) respectively extend into the first sliding grooves (42), the seventh columns (43) are in sliding connection with the first sliding grooves (42), the push blocks (34) are in sliding connection with the seventh columns (43), sixth columns (38) are fixedly connected to the top surfaces of the sliding blocks (39), top ends of the sixth columns (38) extend to the top surface of the moving block (33) and are fixedly connected with fourth blocking pieces (37), the sixth columns (38) are connected with the moving block (33) in a sliding mode, fourth springs (40) are sleeved outside the sixth columns (38), the fourth springs (40) are located between the sliding blocks (39) and the top face of the first groove, and the first threaded columns (1) are connected with a driving mechanism in a transmission mode.

2. The multi-process positioning and processing device for the gold stamping transfer printing according to claim 1, characterized in that the driving mechanism comprises a first gear (12) fixedly connected to the outside of the first threaded column (1), the first gear (12) is engaged with a first rack (7), the first rack (7) is connected with the first plate (4) in a sliding way, the top surface of the first rack (7) is fixedly connected with a first column (9), the top surface of the first plate (4) is fixedly connected with a cylinder (6), the extending end of the cylinder (6) is fixedly connected with a fourth rod (11), the top end of the first column (9) passes through the fourth rod (11) and is fixedly connected with a first baffle plate (10), the outside cover of first post (9) is equipped with first spring (8), first spring (8) are located between fourth rod (11) and first rack (7).

3. The multi-process positioning and processing device for the gold stamping transfer printing is characterized in that a supporting frame (31) is arranged above the base (28), a hot stamping (30) is arranged above the supporting frame (31), a connecting rod is arranged above the hot stamping (30), two fourth columns (23) are fixedly connected to the base (28), the connecting rod is slidably connected with the fourth columns (23), an L-shaped rod (24) is fixedly connected to the hot stamping (30), the L-shaped rod (24) is slidably connected with the connecting rod, a sixth rod (29) is fixedly connected to the supporting frame (31), two fifth columns (27) are fixedly connected to the top surface of the sixth rod (29), the top ends of the two fifth columns (27) penetrate through the L-shaped rod (24) and are fixedly connected with a third baffle plate (25), and the fifth columns (27) are slidably connected with the L-shaped rod (24), the outer portion of the fifth column (27) is sleeved with a third spring (26), the third spring (26) is located between the sixth rod (29) and the L-shaped rod (24), and the L-shaped rod (24) is in transmission connection with the fourth rod (11).

4. The multi-process positioning and processing device for the gold stamping transfer printing is characterized in that one side of the L-shaped rod (24) is fixedly connected with a fixing plate (46), the bottom surface of the connecting rod is fixedly connected with a third rack (20), one side of the L-shaped rod (24) close to the third rack (20) is rotatably connected with a third gear (22), one side of the third gear (22) far away from the L-shaped rod (24) is rotatably connected with a second gear (14) through a ratchet mechanism, the second gear (14) is meshed with the third rack (20), the third gear (22) is meshed with a second rack (15), the top end of the second rack (15) penetrates through the fixing plate (46), the second rack (15) is slidably connected with the fixing plate (46), one side of the second rack (15) is fixedly connected with a connecting plate, and the bottom surface of the connecting plate is fixedly connected with a third column (19), the bottom of third post (19) passes fixed plate (46) and fixedly connected with fifth separation blade (45), third post (19) and fixed plate (46) sliding connection, the outside cover of third post (19) is equipped with second spring (21), second spring (21) are located between connecting plate and fixed plate (46), the top surface fixedly connected with second post (18) of connecting plate, the one end fixedly connected with fifth pole (17) of fourth pole (11), first logical groove has been seted up on fifth pole (17), first logical groove and fixedly connected with second separation blade (16) are passed to the one end of second post (18), second post (18) and first logical groove swing joint.

5. The multi-process positioning and processing device for the gold stamping transfer printing is characterized in that the ratchet mechanism comprises a circular groove formed in one side of the second gear (14), a plurality of ratchets are formed in the side wall of the circular groove, a rotary disc (50) is arranged in the circular groove, the rotary disc (50) is rotatably connected with the bottom surface of the circular groove, an elastic sheet (48) and a pawl (49) are connected onto the rotary disc (50), the pawl (49) is matched with the ratchets, the elastic sheet (48) is matched with the pawl (49), a rotary column (44) is fixedly connected onto the rotary disc (50), and the rotary column (44) is fixedly connected with the third gear (22).

6. The multi-process positioning and processing device for the gold stamping transfer printing is characterized in that a sliding rod is fixedly connected to one side, close to the third rack (20), of the L-shaped rod (24), a third sliding groove is formed in one side of the connecting rod, and one end of the sliding rod is located in the third sliding groove and is in sliding connection with the third sliding groove.

7. The multi-process positioning and processing device for the gold stamping transfer printing is characterized in that a placing groove is formed in the top surface of the base (28), and the moving blocks (33) are located right above the placing groove.

8. The multi-process positioning and processing device for the gold stamping transfer printing according to claim 7, wherein fourth sliding grooves are formed in two sides of the first groove, and each sliding block (39) is located in each fourth sliding groove and is in sliding connection with the fourth sliding groove.