CN112277441A - Automatic water transfer printing equipment for slippers for decoration - Google Patents

Abstract

The invention relates to water transfer printing equipment, in particular to automatic water transfer printing equipment for a pair of decorative slippers. The invention provides the automatic water transfer printing equipment for the decorative slippers, which has the advantages of diversified printing styles, time saving and working efficiency improvement. An automatic water transfer printing equipment of slippers for decoration comprises: the bottom plate is provided with a workbench; the motor is arranged on the bottom plate; the bottom plate is provided with two water tanks; the bottom plate of the manual discharging mechanism is provided with the manual discharging mechanism, the manual discharging mechanism is connected with the workbench, and the manual discharging mechanism is matched with the water tank. The automatic water transfer printing machine is provided with a manual blanking mechanism, an automatic blanking mechanism, a spray printing mechanism, a shaking mechanism and other mechanisms, wherein the manual blanking mechanism is used for fixing the slippers, the spray printing mechanism is used for spraying pigment in water, the automatic blanking mechanism drives the manual blanking mechanism to move to print a watermark on the slippers, and the shaking mechanism is convenient for the manual blanking mechanism to better print the watermark on the slippers, so that the automatic water transfer printing effect of the slippers is achieved.

Description

Automatic water transfer printing equipment for slippers for decoration

Technical Field

The invention relates to water transfer printing equipment, in particular to automatic water transfer printing equipment for a pair of decorative slippers.

Background

The water transfer printing is a printing for transferring the picture and text of transfer printing paper or transfer printing film with color patterns by using water as a dissolving medium; along with the improvement of the requirements of people on product packaging and decoration, the water transfer printing has wider and wider application, and the slippers are more beautiful by the water transfer printing on the slippers.

An authorized notice number is CN203105842U, an authorized notice date is 2013.08.07, and a slipper printing semi-automatic production device is disclosed, which is characterized in that: the slipper printing machine comprises a conveyor for conveying slipper blanks, wherein a plurality of slipper printing machines and printing drying machines are arranged on the conveyor at intervals; according to the working principle of the slipper printing semi-automatic production equipment, slipper blanks are placed on a conveyor, and due to the fact that the plurality of slipper printing machines and the printing dryers are arranged at intervals, multicolor patterns can be printed on the slipper blanks through the plurality of slipper printing machines, printing drying can be conducted through the plurality of printing dryers arranged at intervals, printing styles of the equipment are single, and certain time is consumed for drying after printing.

Therefore, the automatic water transfer printing equipment for the decorative slippers is required to be developed, wherein the printing styles are various, drying is not required, the time is saved, and the working efficiency is improved.

Disclosure of Invention

In order to overcome the defects that the printing style of the existing slipper printing semi-automatic production equipment is single, and certain time is consumed for drying after printing, the invention has the technical problems that: the automatic water transfer printing equipment for the decorative slippers is diversified in printing style, saves time and improves working efficiency.

The technical implementation scheme of the invention is as follows: an automatic water transfer printing equipment of slippers for decoration comprises:

the bottom plate is provided with a workbench;

the motor is arranged on the bottom plate;

the bottom plate is provided with two water tanks;

the bottom plate of the manual discharging mechanism is provided with the manual discharging mechanism, the manual discharging mechanism is connected with the workbench, and the manual discharging mechanism is matched with the water tank.

As a further preferable scheme, the manual blanking mechanism comprises:

the number of the first bearing columns is two, and the first bearing columns are arranged on the bottom plate;

the upper parts of the two first bearing columns are rotatably connected with the first rotating shaft;

the first rotating shaft is connected with a rotating rod;

the workbench is provided with two second bearing columns;

the upper parts of the two second bearing columns are respectively provided with a connecting rod;

two guide wheels are rotatably arranged on the two connecting rods;

the first rotating shaft is wound with two pull ropes, and the pull ropes are connected with the first rotating shaft;

the two pull ropes are wound around the two guide wheels and are connected with the fixed bracket;

the bottoms of the two fixed brackets are connected with the first fixed plate;

the sucking disc, two first fixed plate bottoms evenly are equipped with four sucking discs.

As a further preferable embodiment, the method further comprises:

and the bottom plate of the automatic blanking mechanism is provided with an automatic blanking mechanism, and the automatic blanking mechanism is connected with the first rotating shaft.

As a further preferable scheme, the automatic blanking mechanism comprises:

the number of the third bearing columns is two, and the bottom plate is provided with the third bearing columns;

the upper parts of the two third bearing columns are rotatably connected with the second rotating shaft;

the transmission assembly is connected between the middle part of the second rotating shaft and the output shaft of the motor;

two first straight gears are arranged on the second rotating shaft;

the bottom plate is provided with two sliding rails;

the first racks are arranged on the two sliding rails in a sliding manner and are meshed with the first straight gear;

the middle parts of the outer sides of the two first racks are respectively provided with a second rack;

and the first rotating shaft is provided with two second straight gears which are meshed with the second rack.

As a further preferable embodiment, the method further comprises:

the spray printing mechanism is arranged on the bottom plate.

As a further preferable mode, the jet printing mechanism includes:

two second fixing plates are arranged on the bottom plate;

the upper parts of the two second fixing plates are uniformly provided with a flow guide pipe;

the number of the paint spraying pumps is two, the paint spraying pumps are arranged on the bottom plate and are connected with the flow guide pipe;

the bottom plate is provided with two fixing columns;

the two fixing columns are respectively and rotatably provided with a third rotating shaft;

the two third rotating shafts are provided with a bevel gear assembly;

the two third rotating shafts are provided with rotating plates;

the rotary plate is uniformly provided with jet printing pipes which are connected with the flow guide pipe;

the two third rotating shafts are wound with torsion springs, and the torsion springs are connected with the bevel gear assembly and the rotating plate;

the bottom plate is provided with two fourth bearing columns, and the fourth bearing columns are positioned on the outer side of the third rotating shaft;

the upper parts of the two fourth bearing columns are respectively provided with a fourth rotating shaft in a rotating mode, and the fourth rotating shafts are connected with the bevel gear assembly;

the two fourth rotating shafts are provided with one-way gears;

and the outer sides of the two first racks are provided with third racks, and the third racks are meshed with the one-way gear.

As a further preferable embodiment, the method further comprises:

and the shaking mechanism is arranged on the workbench and is connected with the second rack, and the shaking mechanism is matched with the fixed support.

As a further preferable mode, the shaking mechanism includes:

the fifth bearing columns are arranged on the two second racks;

the upper parts of the two fifth bearing columns are both provided with a first convex block in a sliding manner;

the first convex block is wound with the telescopic assemblies, and the telescopic assemblies are connected with the fifth bearing column and the first convex block;

the number of the sixth bearing columns is four, and the workbench is provided with the sixth bearing columns;

the upper parts of the sixth bearing columns are connected with push rods in a sliding manner;

the two push rods are wound with the linear springs, and the linear springs are connected with the sixth bearing column and the push rods;

the baffle is arranged on the workbench and matched with the push rod;

the two push rods are provided with second convex blocks which are matched with the first convex blocks.

The invention has the beneficial effects that:

according to the automatic water transfer printing machine, the manual blanking mechanism, the automatic blanking mechanism, the spray printing mechanism, the shaking mechanism and other mechanisms are arranged, the manual blanking mechanism is used for fixing the slippers, the spray printing mechanism is used for spraying pigment in water, the automatic blanking mechanism drives the manual blanking mechanism to move to print a watermark on the slippers, the shaking mechanism is convenient for the manual blanking mechanism to better print the watermark on the slippers, the automatic water transfer printing effect of the slippers is achieved, manpower is saved, and the working efficiency is improved.

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 manual blanking mechanism of the present invention.

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

Fig. 4 is a schematic perspective view of the automatic blanking mechanism of the present invention.

Fig. 5 is a schematic perspective view of the inkjet printing mechanism of the present invention.

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

Fig. 7 is a schematic perspective view of a shaking mechanism according to the present invention.

Wherein: 1-base plate, 2-workbench, 3-motor, 4-water tank, 5-manual blanking mechanism, 51-first bearing column, 52-second bearing column, 53-first rotating shaft, 54-rotating rod, 55-connecting rod, 56-guide wheel, 57-pull rope, 58-fixed support, 59-first fixed plate, 510-suction cup, 6-automatic blanking mechanism, 61-third bearing column, 62-second rotating shaft, 63-transmission component, 64-first straight gear, 65-slide rail, 66-first rack, 67-second rack, 68-second straight gear, 7-jet printing mechanism, 71-second fixed plate, 72-spray painting pump, 73-guide pipe, 74-jet printing pipe, 75-fixed column, 76-a fourth bearing column, 77-a third rotating shaft, 78-a bevel gear assembly, 79-a torsion spring, 710-a rotating plate, 711-a fourth rotating shaft, 712-a one-way gear, 713-a third rack, 8-a shaking mechanism, 81-a fifth bearing column, 82-a telescopic assembly, 83-a first bump, 84-a sixth bearing column, 85-a baffle, 86-a push rod, 87-a linear spring and 88-a second bump.

Detailed Description

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Example 1

The utility model provides an automatic water transfer printing equipment of slippers for decoration, as shown in figure 1, figure 2, figure 4, figure 5 and figure 7, including bottom plate 1, workstation 2, motor 3, water tank 4 and manual unloading mechanism 5, left side middle part is equipped with workstation 2 on bottom plate 1, motor 3 is installed to the medial side on bottom plate 1, the medial side is equipped with two water tanks 4 on bottom plate 1, the left side is equipped with manual unloading mechanism 5 on bottom plate 1, manual unloading mechanism 5 is connected with workstation 2, manual unloading mechanism 5 and the cooperation of water tank 4.

When the slipper watermarking device is used, water is firstly added into the water tank 4, the watermarking pigment is added into the water, the slipper is fixed on the manual blanking mechanism 5, the manual blanking mechanism 5 moves downwards, the manual blanking mechanism 5 drives the slipper to move towards the water tank 4 to perform watermarking on the slipper, after the slipper is printed, the manual blanking mechanism 5 moves upwards to leave the water tank 4, the watermarked slipper is taken down, excess water on the slipper is thrown away, if the slipper needs to be watermarked again, the operations are repeated, and the watermarking on the slipper is facilitated.

Example 2

In addition to embodiment 1, as shown in fig. 2, 3, 4 and 7, the manual blanking mechanism 5 includes a first bearing column 51, a second bearing column 52, a first rotating shaft 53, a rotating rod 54, a connecting rod 55, a guide wheel 56, a pulling rope 57, a fixed bracket 58, a first fixed plate 59 and a suction cup 510, the first bearing column 51 is symmetrically arranged on the left side of the bottom plate 1 at the front and back, the first rotating shaft 53 is rotatably connected to the upper portion of the first bearing column 51 at the front and back sides, the rotating rod 54 is connected to the front side of the first rotating shaft 53, two second bearing columns 52 are arranged on the top of the working platform 2, the connecting rod 55 is arranged on the upper portion of each of the two second bearing columns 52, the guide wheels 56 are rotatably arranged on the front and back portions of the two connecting rods 55, the pulling rope 57 is wound on the front and back sides of the first rotating shaft 53, the pulling rope 57 is connected to the first rotating shaft 53, the two pulling, the bottom of the fixed support 58 on the front side and the rear side is connected with a first fixed plate 59, and four suckers 510 are uniformly arranged at the bottom of the first fixed plate 59.

Firstly, water is added into a water tank 4, water printing pigment is added into the water, a slipper is fixed by using a sucker 510, then a rotating rod 54 is manually rotated by people, the rotating rod 54 drives a first rotating shaft 53 to rotate, the first rotating shaft 53 rotates to discharge a pull rope 57, under the action of gravity, a first fixing plate 59 drives a fixing bracket 58 to move downwards, the fixing bracket 58 drives the pull rope 57 to move, the pull rope 57 drives a guide wheel 56 to rotate, the first fixing plate 59 drives the sucker 510 to move downwards, the sucker 510 drives the slipper to move towards the water tank 4 to watermark the slipper, when the slipper is immersed in water, the people manually stir the pull rope 57 to swing, the pull rope 57 drives the fixing bracket 58 to swing left and right, the fixing bracket 58 drives the first fixing plate 59 to swing left and right, the first fixing plate 59 drives the sucker 510 to swing left and right, the sucker 510 drives the slipper to swing on the pigment, after the slipper is printed, the rotating rod 54 is reversely rotated, the rotating rod 54, the first rotating shaft 53 rotates to withdraw the pull rope 57, the pull rope 57 drives the guide wheel 56 to rotate reversely, the pull rope 57 drives the fixing support 58 to move upwards, the fixing support 58 drives the first fixing plate 59 to move upwards, the first fixing plate 59 drives the sucker 510 to move upwards, the sucker 510 drives the slippers to move upwards to leave the water tank 4, the watermarked slippers are taken down, redundant water on the slippers is thrown away, if the slippers need to be watermarked again, the operations are repeated, and the watermarking of the slippers is facilitated.

Example 3

On the basis of the embodiment 2, as shown in fig. 1, 4, 5, 6 and 7, the automatic blanking device 6 is further included, the automatic blanking device 6 is disposed on the right side of the bottom plate 1, the automatic blanking device 6 is connected to the first rotating shaft 53, the automatic blanking device 6 includes a third bearing column 61, a second rotating shaft 62, a transmission assembly 63, a first straight gear 64, a sliding rail 65, a first rack 66, a second rack 67 and a second straight gear 68, the third bearing column 61 is symmetrically disposed on the front and rear sides of the right side of the bottom plate 1, the second rotating shaft 62 is rotatably connected to the upper portion of the third bearing column 61 on the front and rear sides, the transmission assembly 63 is connected between the middle portion of the second rotating shaft 62 and the output shaft of the motor 3, the first straight gear 64 is disposed on the front and rear portions of the second rotating shaft 62, the sliding rail 65 is symmetrically disposed on the front and rear sides of the right portion of the bottom plate 1, the first rack 66, the first rack 66 is engaged with the first straight gear 64, the middle part of the outer side of the first rack 66 at the front side and the rear side is provided with a second rack 67, the front part and the rear part of the first rotating shaft 53 are provided with second straight gears 68, and the second straight gears 68 are engaged with the second racks 67.

Firstly adding water into a water tank 4, adding water mark pigment into the water, fixing the slippers by using a sucker 510, then starting a motor 3, driving a transmission component 63 to move by an output shaft of the motor 3, driving a second rotating shaft 62 to rotate by the transmission component 63, driving first straight gears 64 on the front side and the rear side to move by the second rotating shaft 62, driving a first rack 66 to move leftwards by the first straight gear 64 because the first rack 66 is meshed with the first rack, driving a second rack 67 to move leftwards by the first rack 66 because the second rack 67 is meshed with the second straight gear 68, driving a second straight gear 68 to move by the second rack 67, driving a first rotating shaft 53 to rotate by the second straight gear 68, after printing the slippers, closing the motor 3, reversely rotating a rotating rod 54, driving the first rotating shaft 53 to reversely rotate, driving the second straight gear 68 to reversely rotate by the first rotating shaft 53 because the second rack 67 is meshed with the second straight gear 68, the second straight gear 68 drives the second rack 67 to move rightwards, the second rack 67 drives the first rack 66 to move rightwards to return to the original position, the slipper with the watermark is taken down, redundant water on the slipper is thrown away, if the slipper needs to be watermarked again, the operation is repeated, the watermark of the slipper is convenient, and manpower is saved.

The printing machine further comprises a printing mechanism 7, the printing mechanism 7 is arranged on the middle side of the bottom plate 1, the printing mechanism 7 comprises a second fixing plate 71, a paint spraying pump 72, a guide pipe 73, a printing pipe 74, fixing columns 75, a fourth bearing column 76, a third rotating shaft 77, a bevel gear assembly 78, a torsion spring 79, a rotating plate 710, a fourth rotating shaft 711, a one-way gear 712 and a third rack 713, the second fixing plate 71 is symmetrically arranged on the front side and the rear side of the middle of the bottom plate 1, the guide pipes 73 are uniformly arranged on the upper portions of the two second fixing plates 71, the paint spraying pumps 72 are symmetrically arranged on the front side and the rear side of the middle of the bottom plate 1, the paint spraying pumps 72 are connected with the lower portions of the outer sides of the guide pipes 73, the two fixing columns 75 are arranged on the middle of the bottom plate 1 in a rotating mode, the third rotating shafts 77 are respectively arranged on the left sides of the upper portions of the two fixing columns 75, the bevel, the jet printing pipe 74 is connected with the lower part of the inner side of the guide pipe 73, torsion springs 79 are wound on the two third rotating shafts 77, the torsion springs 79 are connected with the bevel gear assembly 78 and the rotating plate 710, two fourth bearing columns 76 are arranged on the middle side of the bottom plate 1, the fourth bearing columns 76 are located on the outer sides of the third rotating shafts 77, fourth rotating shafts 711 are rotatably arranged on the upper parts of the two fourth bearing columns 76, the fourth rotating shafts 711 are connected with the bevel gear assembly 78, one-way gears 712 are arranged on the two fourth rotating shafts 711, third racks 713 are arranged on the outer sides of the first racks 66 on the front side and the rear side, and the third racks 713 are meshed with the one-way gears 712.

Firstly adding water into a water tank 4, adding water marking pigment into a paint spraying pump 72, starting the paint spraying pump 72, spraying the water marking pigment into the water from a paint spraying pipe 74 through a guide pipe 73, then closing the paint spraying pump 72, then starting a motor 3, when a first rack 66 moves leftwards, the first rack 66 drives a third rack 713 to move leftwards, because the third rack 713 is meshed with a one-way gear 712, the third rack 713 drives the one-way gear 712 to move, the one-way gear 712 drives a fourth rotating shaft 711 to rotate, the fourth rotating shaft 711 drives a bevel gear assembly 78 to move, the bevel gear assembly 78 drives a third rotating shaft 77 to rotate, the third rotating shaft 77 drives a rotating plate 710 to rotate away from the water tank 4, at the moment, a torsion spring 79 becomes a compressed state, the rotating plate 710 drives the paint spraying pipe 74 to move away from the water tank 4, a slipper is printed by the slipper by the sucker 510, the slipper 510 drives the slipper to move upwards to leave the water tank 4, the first rack 66 moves rightwards, the first rack 66 drives the third rack 713 to move rightwards, because the third rack 713 is meshed with the one-way gear 712, the third rack 713 drives the one-way gear 712 to idle, the torsion spring 79 returns to the initial state, the torsion spring 79 drives the rotating plate 710 to rotate to return to the original position, the rotating plate 710 drives the spray printing pipe 74 to be close to the water tank 4, the watermarked slippers are taken down, excess water on the slippers is thrown away, if the slippers need to be watermarked again, the operations are repeated, and the watermarking of the slippers is facilitated.

The shaking mechanism 8 is arranged at the top of the workbench 2, the shaking mechanism 8 is connected with the second rack 67, the second rack 67 is matched with the fixed support 58, the shaking mechanism 8 comprises a fifth bearing column 81, a telescopic assembly 82, a first lug 83, a sixth bearing column 84, a baffle 85, a push rod 86, a linear spring 87 and a second lug 88, the fifth bearing column 81 is arranged on the left side of the top of each second rack 67, the first lug 83 is arranged on the upper portion of each fifth bearing column 81 in a sliding manner, the telescopic assembly 82 is wound on each first lug 83, the telescopic assembly 82 is connected with the fifth bearing column 81 and the first lug 83, the two sixth bearing columns 84 are symmetrically arranged on the front and back of the top of the workbench 2, the push rods 86 are connected on the upper portions of the sixth bearing columns 84 on the left side and the right side in a sliding manner, the linear springs 87 are wound on the left portions of the two push rods 86, the linear springs 87 are connected with the sixth bearing columns 84 and the push rods 86, the right side of the top of the workbench 2 is provided with a baffle 85, the baffle 85 is matched with the push rods 86, the outer sides of the left parts of the two push rods 86 are provided with second convex blocks 88, and the second convex blocks 88 are matched with the first convex blocks 83.

When the first rack 66 moves leftwards, the first rack 66 drives the second rack 67 to move leftwards, the second rack 67 drives the fifth bearing column 81 to move leftwards, the fifth bearing column 81 drives the telescopic component 82 and the first lug 83 to move leftwards, after the second rack 67 is meshed with the second straight gear 68, the second rack 67 drives the second straight gear 68 to move, so that the first rotating shaft 53 rotates, the sucker 510 drives the slipper to move towards the water tank 4, the second rack 67 continues to move leftwards, the second rack 67 drives the fifth bearing column 81 to move leftwards, the fifth bearing column 81 drives the telescopic component 82 and the first lug 83 to move leftwards, when the first lug 83 moves to be in contact with the second lug 88 and drives the second lug 88 to move leftwards, at the moment, the telescopic component 82 becomes a compression state, the linear spring 87 becomes a tension state, when the slipper is immersed in water, the front part of the right side of the second lug 88 contacts the pull rope 57, the pulling rope 57 shakes, the pulling rope 57 drives the fixing bracket 58 to shake left and right, the fixing bracket 58 drives the first fixing plate 59 to shake left and right, the first fixing plate 59 drives the sucker 510 to shake left and right, the sucker 510 drives the slipper to shake on the pigment, after the slipper is printed, the first rack 66 moves right, the first rack 66 drives the second rack 67 to move right, the second rack 67 drives the fifth bearing post 81 to move right, the fifth bearing post 81 drives the telescopic component 82 and the first lug 83 to move right, the first lug 83 is not in contact with the second lug 88 any more, the telescopic component 82 and the linear spring 87 are restored to the initial state, the linear spring 87 drives the push rod 86 to move right, the front part of the right side of the push rod 86 is not in contact with the pulling rope 57 any more, the push rod 86 moves right to contact with the baffle 85 to stop moving, people take off the slipper with the watermarked, throw off excessive water on the slipper, if watermarking needs to be carried out, the operations are repeated, and the water mark of the slippers is convenient.

The embodiments described above are provided to enable persons skilled in the art to make or use the invention and that modifications or variations can be made to the embodiments described above by persons skilled in the art without departing from the inventive concept of the present invention, so that the scope of protection of the present invention is not limited by the embodiments described above but should be accorded the widest scope consistent with the innovative features set forth in the claims.

Claims (8)

1. The utility model provides a decorate with automatic water transfer printing equipment of slippers, characterized by, including:

the device comprises a bottom plate (1), wherein a workbench (2) is arranged on the bottom plate (1);

the motor (3) is arranged on the bottom plate (1);

the water tank (4), two water tanks (4) are arranged on the bottom plate (1);

the automatic feeding device comprises a manual feeding mechanism (5), wherein the bottom plate (1) is provided with the manual feeding mechanism (5), the manual feeding mechanism (5) is connected with a workbench (2), and the manual feeding mechanism (5) is matched with a water tank (4).

2. The automatic water transfer printing equipment for slippers for decoration according to claim 1, wherein the manual feeding mechanism (5) comprises:

the number of the first bearing columns (51) is two, and the first bearing columns (51) are arranged on the bottom plate (1);

the upper parts of the two first bearing columns (51) are rotatably connected with the first rotating shaft (53);

the rotating rod (54) is connected to the first rotating shaft (53);

two second bearing columns (52) are arranged on the workbench (2);

the upper parts of the two second bearing columns (52) are respectively provided with a connecting rod (55);

two guide wheels (56) are rotatably arranged on the two connecting rods (55);

the pull rope (57), two pull ropes (57) are wound on the first rotating shaft (53), and the pull rope (57) is connected with the first rotating shaft (53);

the two pull ropes (57) are wound around the two guide wheels (56) and are connected with the fixed support (58);

the bottoms of the two fixing brackets (58) are connected with the first fixing plate (59);

the bottom parts of the two first fixing plates (59) are uniformly provided with four suckers (510).

3. The automatic water transfer printing equipment for slippers for decoration according to claim 2, further comprising:

the automatic blanking mechanism (6) is arranged on the bottom plate (1), and the automatic blanking mechanism (6) is connected with the first rotating shaft (53).

4. The automatic water transfer printing equipment for slippers for decoration according to claim 3, wherein the automatic blanking mechanism (6) comprises:

the number of the third bearing columns (61) is two, and the third bearing columns (61) are arranged on the bottom plate (1);

the upper parts of the two third bearing columns (61) are rotatably connected with the second rotating shaft (62);

the transmission component (63) is connected between the middle part of the second rotating shaft (62) and the output shaft of the motor (3);

the first straight gear (64) and the second rotating shaft (62) are provided with two first straight gears (64);

the bottom plate (1) is provided with two sliding rails (65);

the two sliding rails (65) are both provided with a first rack (66) in a sliding manner, and the first rack (66) is meshed with the first straight gear (64);

the middle parts of the outer sides of the two first racks (66) are respectively provided with a second rack (67);

two second straight gears (68) are arranged on the first rotating shaft (53), and the second straight gears (68) are meshed with the second rack (67).

5. The automatic water transfer printing equipment for slippers for decoration according to claim 4, further comprising:

the jet printing mechanism (7) is arranged on the bottom plate (1).

6. The automatic water transfer printing equipment for slippers for decoration according to claim 5, wherein the spray printing mechanism (7) comprises:

two second fixing plates (71) are arranged on the bottom plate (1);

the upper parts of the two second fixing plates (71) are uniformly provided with the guide pipes (73);

the number of the paint spraying pumps (72) is two, the paint spraying pumps (72) are arranged on the base plate (1), and the paint spraying pumps (72) are connected with the flow guide pipe (73);

the fixing columns (75) are arranged, and the bottom plate (1) is provided with two fixing columns (75);

the third rotating shaft (77) is rotatably arranged on the two fixing columns (75);

the two third rotating shafts (77) are provided with a bevel gear assembly (78);

the rotating plates (710) are arranged on the two third rotating shafts (77);

the jet printing pipes (74) are uniformly arranged on the rotating plate (710), and the jet printing pipes (74) are connected with the guide pipe (73);

the two third rotating shafts (77) are wound with the torsion springs (79), and the torsion springs (79) are connected with the bevel gear assembly (78) and the rotating plate (710);

the bottom plate (1) is provided with two fourth bearing columns (76), and the fourth bearing columns (76) are positioned on the outer side of the third rotating shaft (77);

the upper parts of the two fourth bearing columns (76) are respectively and rotatably provided with a fourth rotating shaft (711), and the fourth rotating shafts (711) are connected with the conical gear assembly (78);

the two fourth rotating shafts (711) are provided with one-way gears (712);

and the outer sides of the two first racks (66) are respectively provided with a third rack (713), and the third racks (713) are meshed with the one-way gear (712).

7. The automatic water transfer printing equipment for slippers for decoration according to claim 6, further comprising:

the shaking mechanism (8) is arranged on the workbench (2), the shaking mechanism (8) is connected with the second rack (67), and the shaking mechanism (8) is matched with the fixed support (58).

8. An automatic water transfer printing device for ornamental slippers as claimed in claim 7, wherein the shaking means (8) comprises:

the fifth bearing columns (81) are arranged on the two second racks (67);

the upper parts of the two fifth bearing columns (81) are both provided with a first bump (83) in a sliding manner;

the telescopic assemblies (82) are wound on the first convex blocks (83), and the telescopic assemblies (82) are connected with the fifth bearing column (81) and the first convex blocks (83);

the number of the sixth bearing columns (84) is four, and the workbench (2) is provided with the sixth bearing columns (84);

the upper parts of the push rods (86) and the sixth bearing columns (84) are connected with the push rods (86) in a sliding manner;

the two push rods (86) are wound with the linear springs (87), and the linear springs (87) are connected with the sixth bearing column (84) and the push rods (86);

the baffle (85) is arranged on the workbench (2), and the baffle (85) is matched with the push rod (86);

the two push rods (86) are respectively provided with a second lug (88), and the second lugs (88) are matched with the first lugs (83).

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