CN114670538B

CN114670538B - Short sleeve pattern bilateral stamping device for clothing processing

Info

Publication number: CN114670538B
Application number: CN202210394881.4A
Authority: CN
Inventors: 雷创
Original assignee: Shenzhen Weiyan Clothing Co ltd
Current assignee: Shenzhen Weiyan Clothing Co ltd
Priority date: 2022-04-15
Filing date: 2022-04-15
Publication date: 2024-05-03
Anticipated expiration: 2042-04-15
Also published as: CN114670538A

Abstract

The invention relates to the field of clothing production, in particular to a short sleeve pattern double-side stamping device for clothing processing, which comprises a base, a supporting plate, a servo motor, a moving assembly, an inner side edge opening assembly and the like; the base top rigid coupling has the layer board, and layer board top fixed mounting has servo motor, is equipped with on the base and removes the subassembly and be connected with servo motor, is equipped with inside side on the removal subassembly and struts the subassembly. The rubber strip rods are used for stretching the side edges of the short sleeve, so that the surface of the short sleeve is stretched, the top stretching plate can be used for stretching the inside of the short sleeve upwards, the bottom stretching plate can be used for stretching the inside of the short sleeve downwards, double-sided printing and scalding of the short sleeve are facilitated, the influence on subsequent printing and scalding caused by sagging of the back surface of the short sleeve is prevented, and the patterns printed and scalded on the surface of the short sleeve are prevented from shifting; the first stamping plate and the second stamping plate can simultaneously stamp and heat the front side and the back side of the short sleeve, so that the effect of simultaneously stamping and ironing the front side and the back side of the short sleeve is achieved.

Description

Short sleeve pattern bilateral stamping device for clothing processing

Technical Field

The invention relates to the field of clothing production, in particular to a short sleeve pattern double-side stamping device for clothing processing.

Background

Clothing is an indispensable article in daily life, the clothing is various, the short sleeve is common in summer, patterns are usually printed on the surface of the short sleeve in the production process of the short sleeve, the ideal decorative effect can be achieved through printing on the short sleeve, and at present, common printing processes in the short sleeve production mainly comprise pigment printing, digital printing, transfer printing and the like.

The front side and the back side of the short sleeve are required to be printed and scalded, most of the conventional printing and scalding devices only print and scald one side at one time, and when the other side is required to be printed and scalded, the short sleeve is required to be turned over; the short sleeve is characterized in that a small part of the printing and ironing device has the function of carrying out double-sided printing and ironing on the short sleeve, but most of the existing double-sided printing and ironing devices have no function of expanding the short sleeve, the short sleeve is difficult to ensure to be in a tight state in the printing and ironing process, the back of the short sleeve can drop downwards due to loose tension when the front and the back of the short sleeve are printed and ironed simultaneously, the back of the short sleeve is uneven, and patterns printed on the back of the short sleeve can deviate when the back of the short sleeve is printed and ironed.

Disclosure of Invention

The double-side stamping device for the patterns of the short sleeve for clothing processing is designed, so that the effect that the front side and the back side of the short sleeve can be stamped simultaneously, the short sleeve can be unfolded so as to ensure that the short sleeve is in a tight state, and the patterns printed on the back side of the short sleeve can be prevented from being deviated is achieved.

In view of the above, the invention provides a short sleeve pattern double-side stamping device for clothing processing, which comprises a base, a supporting plate, a servo motor, a moving assembly, an inner side opening assembly, a top lifting assembly and a moving stamping assembly;

the top of the base is fixedly connected with a supporting plate;

The servo motor is fixedly arranged at the top of the supporting plate;

The base is provided with a moving assembly and is connected with the servo motor;

the inner side opening assembly is arranged on the moving assembly and used for opening the side of the short sleeve;

the top lifting assembly is arranged on the moving assembly and connected with the internal side opening assembly, and is used for simultaneously opening the short sleeve upwards and downwards;

The movable stamping component is arranged on the base and used for stamping the front face and the back face of the short sleeve.

Further, the movable assembly comprises a power shaft, a power gear, a mounting groove plate, a fixed U-shaped frame, a hollow sleeve plate, a movable rack plate, fixed guide rods, fluctuation rack plates and compression springs, wherein the power shaft is fixedly connected to an output shaft of the servo motor, the power gear is arranged on the power shaft, the mounting groove plate is fixedly connected to the top of the base, the fixed U-shaped frame is fixedly connected to the upper left side of the mounting groove plate, the hollow sleeve plate is fixedly connected to the inner side of the fixed U-shaped frame, the movable rack plate is connected with the movable rack plate in a sliding mode, meanwhile, the movable rack plate is connected with the hollow sleeve plate in a sliding mode, the movable rack plate is meshed with the power gear, the movable rack plate is located below the power gear, two fixed guide rods are fixedly connected to the movable rack plate, the fixed guide rods are symmetrically arranged, the fluctuation rack plates are connected between the fixed guide rods in a sliding mode, and the compression springs are connected between the fluctuation rack plate and the fixed guide rods.

Further, inside side struts subassembly including activity strut, movable flange, extrusion spring, buffer spring and rubber strip pole, sliding connection has two activity struts on the hollow sleeve board, and the activity strut is the symmetry setting, and activity strut inboard sliding connection has the activity flange, and activity flange and removal rack board contact are connected with two extrusion springs between activity strut and the hollow sleeve board, are connected with two buffer springs between activity flange and the activity strut, and activity strut outside rigid coupling has the rubber strip pole, and the rubber strip pole is located hollow sleeve board outside.

Further, the top lifting assembly comprises a rotating shaft, a fixing seat, lifting racks, rotating gears, transverse racks, transmission gears, a top opening plate and a bottom opening plate, wherein four rotating shafts are connected to the inner side of the hollow sleeve plate in a rotating mode, four fixing seats are fixedly connected to the inner side of the hollow sleeve plate, lifting racks are connected to the fixing seat in a sliding mode, lifting racks located on the right are connected with the hollow sleeve plate in a sliding mode, the rotating gears are fixedly connected to the rotating shafts, two transverse racks are fixedly connected to the bottoms of the movable opening frames, the transverse racks are meshed with the rotating gears, the transmission gears are fixedly connected to the rotating shafts, the transmission gears are meshed with the lifting racks, a top opening plate is fixedly connected between the top surfaces of the lifting racks, a bottom opening plate is connected to the hollow sleeve plate in a sliding mode, and the bottom opening plate is located below the top opening plate and is connected with the movable rack plate in a sliding mode.

Further, remove and print and scald the subassembly including removal gear, remove the ratch, the lift groove pole, remove the push rod, first print scalds board, supporting spring and carousel, the rigid coupling has the removal gear on the power shaft, it has the removal ratch to pass on base upper portion, remove ratch and remove gear engagement, base upper portion slidingtype is connected with the lift groove pole, lift groove pole upper portion slidingtype is connected with the removal push rod, it scalds the board to remove the push rod left end rigid coupling, first print scalds board and removes the ratch slidingtype and is connected, be connected with supporting spring between lift groove pole and the base, the rigid coupling has the carousel on the power shaft, the carousel is located the removal gear the place ahead, carousel and lift groove pole contact simultaneously.

Further, the bottom surface stamping and ironing assembly is arranged on the movable toothed bar and is connected with the base in a sliding mode, the bottom surface stamping and ironing assembly comprises a movable special-shaped rack, a second stamping and ironing plate, a fixed rack, a bottom movable bar, a bar gear and a lifting groove toothed seat, the movable special-shaped rack is fixedly connected with the right part of the movable toothed bar, the movable special-shaped rack penetrates through the base, the movable special-shaped rack is connected with the mounting groove plate in a sliding mode, the second stamping and ironing plate is symmetrically arranged on the left part of the movable special-shaped rack, the second stamping and ironing plate is arranged below the first stamping and ironing plate, the lifting groove bar is fixedly connected with the fixed rack on the left part of the lifting groove bar, the right side of the lower part of the second stamping and ironing plate is fixedly connected with the bottom movable bar, the bottom movable bar passes through the mounting groove plate, the lifting groove toothed seat is rotatably connected with the lifting groove toothed seat on the base, the lifting groove toothed seat is meshed with the bar gear, and the bar gear is arranged between the lifting groove toothed seat and the fixed rack.

The invention has the following beneficial effects:

1. through the cooperation of buffer spring and rubber strip pole and device on it, the rubber strip pole can be in the cotta side struts for the surface of cotta is propped into the state of tightening, and the device of being convenient for is printed the pattern on the cotta suitable position accurately follow-up, and the device of being convenient for carries out two-sided printing to the cotta and scalds, prevents that the back of cotta from falling down and influencing follow-up printing and scalding, in order to avoid the printing to scald the pattern on cotta surface and take place the skew.

2. Through the cooperation of top struts board and bottom struts board, the top struts board can upwards prop from the short-sleeved shirt inside, and the bottom struts board can downwards prop from the inside of short-sleeved shirt, has further guaranteed the roughness on short-sleeved shirt surface, has further made things convenient for the device to follow-up carry out double-sided printing to the short-sleeved shirt and scalds.

3. Through the cooperation of the device internals, first seal scalds the board and carries out the seal and scalds in the front of short-sleeved shirt, and the second seal scalds the board and carries out the seal and scalds simultaneously of board at the back of short-sleeved shirt, and the effect that can print the front and the back of short-sleeved shirt simultaneously has been reached in the front of being convenient for carry out the seal and scald simultaneously to the front and the back of short-sleeved shirt.

Drawings

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

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic view of a part of a moving assembly according to the present invention.

Fig. 4 is a schematic view of a part of a moving assembly according to the present invention.

Fig. 5 is a schematic perspective view of the internal side opening assembly of the present invention.

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

Fig. 7 is a schematic perspective view of a mobile stamping assembly according to the present invention.

Fig. 8 is a schematic view of a part of a perspective structure of the bottom surface stamping assembly of the present invention.

Fig. 9 is a schematic perspective view of a bottom surface stamping assembly according to the present invention.

Reference numerals: the device comprises a 1-base, a 2-pallet, a 3-servo motor, a 4-movable assembly, a 41-power shaft, a 42-power gear, a 43-mounted slot plate, a 44-fixed U-shaped frame, a 45-hollow sleeve, a 46-movable rack plate, a 47-fixed guide rod, a 48-wave rack plate, a 49-compression spring, a 5-internal side opening assembly, a 51-movable support frame, a 52-movable convex plate, a 53-compression spring, a 54-buffer spring, a 55-rubber rod, a 6-top lifting assembly, a 61-rotating shaft, a 62-fixed seat, a 63-lifting rack, a 64-rotating gear, a 65-transverse rack, a 66-driving gear, a 67-top opening assembly, a 68-bottom opening assembly, a 7-movable stamping assembly, a 71-movable gear, a 72-movable rack rod, a 73-lifting slot rod, a 74-movable push rod, a 75-first stamping plate, a 76-supporting spring, a 77-turntable, a 8-bottom stamping assembly, a 81-movable special-shaped rack, a 82-second stamping plate, a 83-fixed rack, a 84-movable rack, a 86-lifting rack bar, and a 86-lifting gear.

Detailed Description

Standard parts used in the invention can be purchased from the market, special-shaped parts can be customized according to the description of the specification and the drawings, and the specific connection modes of the parts adopt conventional means such as mature bolts, rivets, welding, pasting and the like in the prior art, and the detailed description is omitted.

Example 1

The utility model provides a bilateral seal of short-sleeved pattern scalds device for clothing processing, as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6 and fig. 7, including base 1, layer board 2, servo motor 3, remove the subassembly 4, inside side struts subassembly 5, top lift subassembly 6 and remove seal and scalds subassembly 7, base 1 top rigid coupling has layer board 2, layer board 2 top fixed mounting has servo motor 3, be equipped with on base 1 and remove subassembly 4 and be connected with servo motor 3, be equipped with inside side struts subassembly 5 on the removal subassembly 4, inside side struts subassembly 5 is used for carrying out the side to the short-sleeved shirt and struts, be equipped with top lift subassembly 6 on the removal subassembly 4 and be connected with inside side struts subassembly 5, top lift subassembly 6 is used for upwards strut simultaneously with strut downwards, be equipped with removal seal and scald subassembly 7 on base 1, remove seal and scald subassembly 7 and be used for carrying out the front and the back seal of short-sleeved shirt simultaneously.

The moving assembly 4 comprises a power shaft 41, a power gear 42, a mounting groove plate 43, a fixed U-shaped frame 44, a hollow sleeve plate 45, a moving rack plate 46, a fixed guide rod 47, a fluctuation rack plate 46 and a compression spring 49, wherein the power shaft 41 is fixedly connected to an output shaft of the servo motor 3, the power shaft 41 is connected with the power gear 42 in a welding mode, the mounting groove plate 43 is fixedly connected to the top of the base 1, the fixed U-shaped frame 44 is fixedly welded to the upper left part of the mounting groove plate 43, the hollow sleeve plate 45 is connected to the inner side of the fixed U-shaped frame 44 through rivets, the moving rack plate 46 is connected to the hollow sleeve plate 45 in a sliding mode, the moving rack plate 46 is meshed with the power gear 42, the moving rack plate 46 is positioned below the power gear 42, a fold line-shaped sliding groove is formed in the inner side of the moving rack plate 46, two fixed guide rods 47 are fixedly welded to the moving rack plate 46, the fixed guide rods 47 are symmetrically arranged, the fluctuation rack plate 48 is connected to the inner side of the fixed rack plate 46 in a sliding mode through rivets, the sliding guide rods 48 are connected to the fixed guide rods 49.

The inner side edge opening assembly 5 comprises a movable opening frame 51, a movable convex plate 52, extrusion springs 53, buffer springs 54 and rubber strip rods 55, wherein two movable opening frames 51 are connected to the hollow sleeve plate 45 in a sliding mode, the movable opening frames 51 are symmetrically arranged, the movable convex plate 52 is connected to the inner side of the movable opening frame 51 in a sliding mode, the movable convex plate 52 is in contact with the movable rack plate 46, the movable convex plate 52 can be pushed to move in the direction away from each other when the movable rack plate 46 moves rightwards, two extrusion springs 53 used for resetting are connected between the movable opening frames 51 and the hollow sleeve plate 45, two buffer springs 54 are connected between the movable convex plate 52 and the movable opening frames 51, the buffer springs 54 play a role of buffering, the rubber strip rods 55 are fixedly connected to the outer side of the movable opening frames 51, the rubber strip rods 55 are located outside the hollow sleeve plate 45, the short sleeve can be sleeved between the rubber strip rods 55, and the rubber strip rods 55 can open the short sleeve plate towards the side edges.

The top lifting assembly 6 comprises a rotating shaft 61, a fixed seat 62, lifting racks 63, rotating gears 64, transverse racks 65, transmission gears 66, top opening plates 67 and bottom opening plates 68, wherein the inner side of a hollow sleeve plate 45 is rotationally connected with four rotating shafts 61, the inner side of the hollow sleeve plate 45 is connected with four fixed seats 62 in a welding mode, the lifting racks 63 positioned on the right are connected with the lifting racks 63 in a sliding mode, the rotating shafts 61 are fixedly welded with the rotating gears 64, the bottoms of the movable opening frames 51 are fixedly connected with two transverse racks 65, the transverse racks 65 are meshed with the rotating gears 64, the rotating shafts 61 are connected with the transmission gears 66 in a welding mode, the transmission gears 66 are meshed with the lifting racks 63, the top opening plates 67 are fixedly connected between the top surfaces of the lifting racks 63, the top opening plates 67 are used for opening upwards, the hollow sleeve plate 45 is connected with the bottom opening plates 68 in a sliding mode, the bottom opening plates 68 are used for opening downwards, the bottom opening plates 68 are positioned below the top opening plates 67, and the bottom opening plates 68 are connected with the movable racks 46 in a sliding mode.

The movable stamping assembly 7 comprises a movable gear 71, a movable toothed bar 72, a lifting groove bar 73, a movable push rod 74, a first stamping plate 75, a supporting spring 76 and a rotary table 77, wherein the movable gear 71 is fixedly connected to the power shaft 41, the upper portion of the base 1 is penetrated by the movable toothed bar 72, the movable toothed bar 72 is meshed with the movable gear 71, the lifting groove bar 73 is slidably connected to the upper portion of the base 1, the movable push rod 74 is slidably connected to the upper portion of the lifting groove bar 73, the movable push rod 74 penetrates through the lifting groove bar 73, the first stamping plate 75 is fixedly connected to the left end of the movable push rod 74, the first stamping plate 75 is used for stamping on the front surface of the short sleeve, the first stamping plate 75 is slidably connected with the movable toothed bar 72, the supporting spring 76 used for resetting is connected between the lifting groove bar 73 and the base 1, the rotary table 77 is fixedly connected to the power shaft 41, the rotary table 77 is provided with a circular column bar on the front side, and the rotary table 77 is positioned in front of the movable gear 71, and meanwhile the circular column bar on the rotary table 77 is contacted with the lifting groove bar 73.

The short sleeve is firstly sleeved between two rubber strip rods 55 through other equipment, the right side of the short sleeve is upward, a worker manually controls a servo motor 3 to reverse three-quarter turn, the servo motor 3 drives a power shaft 41 and a device on the power shaft to reverse three-quarter turn through an output shaft, in the process, a power gear 42 drives a movable rack plate 46 to move rightwards for a certain distance, then the power gear 42 is contacted with a fluctuation rack plate 48, the fluctuation rack plate 48 is stirred by the power gear 42 and the compression spring 49 through the cooperation of the fluctuation rack plate 48, the fluctuation rack plate 48 reciprocates left and right, the movable rack plate 46 drives a movable convex plate 52 to move in a direction away from each other in the process of moving the short sleeve right through a buffer spring 54, the movable convex plate 52 drives a movable spreading frame 51 and the rubber strip rod 55 to move in a direction away from each other, the extrusion spring 53 is compressed accordingly, the short sleeve is sleeved between the two rubber strip rods 55, the fluctuation rack plate 48 is contacted with the fluctuation rack plate 48, the fluctuation rack plate 48 is pushed left and right through the power gear 42, the fluctuation rack plate 48 reciprocates left and right through the fluctuation rack plate 48, the buffer spring 54 moves along with the compression spring, the fluctuation rack plate 55 can move away from each other in a direction away from each other, the direction of the short sleeve can be more conveniently compressed, and the situation can be prevented from being broken, and the surface of the long sleeve can be more flat, and the long sleeve can be more conveniently printed on the surface by the buffer device can be more conveniently, and the buffer device can be realized.

In the process that the movable supporting frame 51 and the upper device of the movable supporting frame move in the directions away from each other, the movable supporting frame 51 can drive the transverse racks 65 to move in the directions away from each other, the transverse racks 65 can drive the rotary gear 64 and the upper device of the rotary gear to rotate, the rotary gear 64 can drive the lifting racks 63 and the top supporting plates 67 to move upwards, the top supporting plates 67 can support the short sleeve upwards, meanwhile, the movable rack plates 46 can drive the bottom supporting plates 68 to move downwards when moving rightwards, the bottom supporting plates 68 support the short sleeve downwards, the flatness of the surface of the short sleeve is further enhanced, the device is further convenient for carrying out double-sided printing and scalding on the short sleeve subsequently, the back of the short sleeve is prevented from falling down to affect subsequent printing and scalding, and patterns on the surface of the short sleeve are ensured not to deviate.

When the power shaft 41 and the upper device thereof are reversed, the movable gear 71 is reversed to drive the movable toothed bar 72 and the upper device thereof to move leftwards, so that the first stamping plate 75 moves leftwards to a proper position, then the turntable 77 can push the lifting groove bar 73 to move downwards, the supporting spring 76 can be compressed, the lifting groove bar 73 can drive the movable push rod 74 and the first stamping plate 75 to move downwards, so that the first stamping plate 75 is contacted with the short sleeve sleeved on the hollow sleeve plate 45, the first stamping plate 75 is controlled to operate through external equipment, the first stamping plate 75 can stamp patterns on the front surface of the short sleeve, and the function of stamping on the front surface of the short sleeve is realized.

Example 2

On the basis of the embodiment 1, as shown in fig. 8 and 9, the bottom surface stamping and ironing assembly 8 is further included, the bottom surface stamping and ironing assembly 8 is arranged on the movable toothed bar 72 and is connected with the base 1 in a sliding manner, the bottom surface stamping and ironing assembly 8 is used for stamping and ironing the back surface of the short sleeve, the bottom surface stamping and ironing assembly 8 comprises a movable special-shaped rack 81, a second stamping and ironing plate 82, a fixed rack 83, a bottom movable bar 84, a toothed bar gear 85 and a lifting groove tooth seat 86, the right part of the movable toothed bar 72 is connected with the movable special-shaped rack 81 in a welding manner, the movable special-shaped rack 81 penetrates through the base 1, the movable special-shaped rack 81 is connected with the mounting groove plate 43 in a sliding manner, the left part of the movable special-shaped rack 81 is connected with the second stamping and ironing plate 82, the second stamping and ironing plate 82 is used for stamping patterns on the back surface of the short sleeve, the second stamping plate 82 and the first stamping plate 75 are symmetrically arranged, the second stamping plate 82 is located below the first stamping plate 75, a fixed rack 83 is fixedly welded to the left portion of the lifting groove rod 73, a bottom moving rod 84 is fixedly welded to the right side of the lower portion of the second stamping plate 82, the bottom moving rod 84 penetrates through the mounting groove plate 43, a toothed bar gear 85 is rotatably connected to the base 1, the toothed bar gear 85 is meshed with the fixed rack 83, a lifting groove tooth seat 86 is slidably connected to the base 1, the lifting groove tooth seat 86 is slidably connected with the bottom moving rod 84, the bottom moving rod 84 penetrates through the lifting groove tooth seat 86, the lifting groove tooth seat 86 is meshed with the toothed bar gear 85, and the toothed bar gear 85 is located between the lifting groove tooth seat 86 and the fixed rack 83.

When the movable toothed bar 72 and the upper device thereof move leftwards, the movable toothed bar 72 drives the movable special-shaped toothed bar 81 and the upper device thereof to move leftwards, and meanwhile, the movable special-shaped toothed bar 81 drives the second stamping plate 82 to move leftwards, the second stamping plate 82 and the first stamping plate 75 simultaneously move leftwards, when the first stamping plate 75 and the upper device thereof move leftwards to a proper position, the second stamping plate 82 and the upper device thereof also move leftwards to a proper position, the lifting groove bar 73 moves downwards and drives the fixed toothed bar 83 to move downwards, the fixed toothed bar 83 drives the toothed bar gear 85 to rotate, and the toothed bar gear 85 drives the lifting groove toothed seat 86 and the upper device thereof to move upwards, so that the second stamping plate 82 can stamp on the back of the short sleeve, and the function of synchronously stamping patterns on the front surface and the back of the short sleeve is realized.

When stamping is completed, the servo motor 3 rotates forward, the power gear 42 drives the movable rack plate 46 and the upper device thereof to reset rightwards, the movable rack plate 46 does not push the movable convex plate 52 any more, the movable convex plate 52 and the upper device thereof are reset, the rubber bar 55 is not spread any more, the top spreading plate 67 and the bottom spreading plate 68 are reset, the top spreading plate 67 and the bottom spreading plate 68 are also not spread any more, the movable gear 71 drives the movable rack 72 and the upper device thereof to reset rightwards, the turntable 77 does not push the lifting groove rod 73, the supporting spring 76 is reset thereupon and drives the lifting groove rod 73 and the upper device thereof to reset upwards, the fixed short sleeve rack 83 drives the lifting groove rack seat 86 and the upper device thereof to reset downwards through the belt gear 85, and then the stamped steel is taken down from the hollow sleeve plate 45 through other devices, and the double-sided stamping is continuously carried out by repeating the operations.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The double-side stamping device for the short sleeve pattern for clothing processing is characterized by comprising a base (1), a supporting plate (2), a servo motor (3), a moving assembly (4), an inner side opening assembly (5), a top lifting assembly (6) and a moving stamping assembly (7);

the top of the base (1) is fixedly connected with the supporting plate (2);

a servo motor (3), wherein the servo motor (3) is fixedly arranged at the top of the supporting plate (2);

the base (1) is provided with the moving assembly (4) and is connected with the servo motor (3);

the inner side opening assembly (5) is arranged on the moving assembly (4), and the inner side opening assembly (5) is used for opening the side of the short sleeve;

the top lifting assembly (6) is arranged on the moving assembly (4), the top lifting assembly (6) is connected with the inner side opening assembly (5), and the top lifting assembly (6) is used for simultaneously opening the short sleeve upwards and downwards;

The movable stamping component (7) is arranged on the base (1), and the movable stamping component (7) is used for stamping the front surface and the back surface of the short sleeve;

the moving component (4) comprises a power shaft (41), a power gear (42), a mounting groove plate (43), a fixed U-shaped frame (44), a hollow sleeve plate (45), a moving rack plate (46), a fixed guide rod (47), a fluctuation rack plate (48) and a compression spring (49), wherein the power shaft (41) is fixedly connected to an output shaft of the servo motor (3), the power gear (42) is arranged on the power shaft (41), the mounting groove plate (43) is fixedly connected to the top of the base (1), the fixed U-shaped frame (44) is fixedly connected to the left upper part of the mounting groove plate (43), the hollow sleeve plate (45) is fixedly connected to the inner side of the fixed U-shaped frame (44), the upper part of the mounting groove plate (43) is slidably connected with the moving rack plate (46), the moving rack plate (46) is slidably connected with the fixed U-shaped frame (44), the moving rack plate (46) is meshed with the power gear (42), the moving rack plate (46) is positioned below the power gear (42), two fixed guide rods (47) are fixedly connected to the moving rack plate (46), the fixed guide rods (47) are symmetrically arranged between the fixed guide rods (48) in a sliding mode, a compression spring (49) is connected between the fluctuation gear plate (48) and the fixed guide rod (47);

The inner side edge opening assembly (5) comprises a movable opening frame (51), a movable convex plate (52), extrusion springs (53), buffer springs (54) and rubber strip rods (55), wherein the hollow sleeve plate (45) is connected with the two movable opening frames (51) in a sliding mode, the movable opening frames (51) are symmetrically arranged, the movable convex plate (52) is connected to the inner side of the movable opening frame (51) in a sliding mode, the movable convex plate (52) is in contact with the movable rack plate (46), two extrusion springs (53) are connected between the movable opening frames (51) and the hollow sleeve plate (45), the two buffer springs (54) are connected between the movable convex plate (52) and the movable opening frames (51), the rubber strip rods (55) are fixedly connected to the outer sides of the movable opening frames (51), and the rubber strip rods (55) are located outside the hollow sleeve plate (45);

The top lifting assembly (6) comprises a rotating shaft (61), a fixed seat (62), lifting racks (63), rotating gears (64), transverse racks (65), a transmission gear (66), a top opening plate (67) and a bottom opening plate (68), wherein four rotating shafts (61) are rotatably connected to the inner side of the hollow sleeve plate (45), four fixed seats (62) are fixedly connected to the inner side of the hollow sleeve plate (45), lifting racks (63) are slidably connected to the fixed seat (62), lifting racks (63) located on the right are slidably connected with the hollow sleeve plate (45), rotating gears (64) are fixedly connected to the rotating shaft (61), two transverse racks (65) are fixedly connected to the bottoms of the movable opening frames (51), the transverse racks (65) are meshed with the rotating gears (64), the transmission gear (66) is meshed with the lifting racks (63), top opening plates (67) are fixedly connected between the top surfaces of the lifting racks (63), bottom opening plates (68) are slidably connected to the hollow sleeve plate (45), and the bottom opening plates (68) are located below the top opening plates (67), and the bottom opening plates (46) are slidably connected to the movable opening plates (46).

The movable stamping assembly (7) comprises a movable gear (71), a movable toothed bar (72), a lifting groove bar (73), a movable push rod (74), a first stamping plate (75), a supporting spring (76) and a rotary table (77), wherein the movable gear (71) is fixedly connected to a power shaft (41), the movable toothed bar (72) is penetrated through the upper portion of the base (1), the movable toothed bar (72) is meshed with the movable gear (71), the lifting groove bar (73) is connected to the upper portion of the base (1) in a sliding mode, the movable push rod (74) is connected to the upper portion of the lifting groove bar (73) in a sliding mode, the first stamping plate (75) is connected to the movable toothed bar (72) in a sliding mode, the supporting spring (76) is connected between the lifting groove bar (73) and the base (1), the rotary table (77) is fixedly connected to the power shaft (41), and the rotary table (77) is located in front of the movable gear (71) while the rotary table (77) is in contact with the lifting groove bar (73).

2. The short sleeve pattern double-side stamping device for clothing processing according to claim 1, further comprising a bottom surface stamping component (8), wherein the bottom surface stamping component (8) is arranged on the movable toothed bar (72) and is connected with the base (1) in a sliding mode, the bottom surface stamping component (8) comprises a movable special-shaped rack (81), a second stamping plate (82), a fixed rack (83), a bottom movable bar (84), a toothed bar gear (85) and a lifting groove tooth seat (86), the right part of the movable toothed bar (72) is fixedly connected with the movable special-shaped rack (81), the movable special-shaped rack (81) penetrates through the base (1), the movable special-shaped rack (81) is connected with the mounting groove plate (43) in a sliding mode, the left part of the movable special-shaped rack (81) is connected with the second stamping plate (82), the second stamping plate (82) is symmetrically arranged with the first stamping plate (75), the second stamping plate (82) is arranged below the first stamping plate (75), the left part of the lifting groove bar (73) is fixedly connected with the fixed rack (83), the right part of the second stamping plate (82) penetrates through the toothed bar (84), the right part of the movable rack (84) and is meshed with the fixed rack (84) and is meshed with the toothed bar (85), the base (1) is connected with a lifting groove tooth holder (86) in a sliding mode, the lifting groove tooth holder (86) is connected with a bottom moving rod (84) in a sliding mode, the lifting groove tooth holder (86) is meshed with a rod gear (85), and the rod gear (85) is located between the lifting groove tooth holder (86) and a fixed rack (83).