Bilateral seal scalds device of cotta pattern for tailoring
Technical Field
The invention relates to the field of garment production, in particular to a short sleeve pattern double-edge printing and ironing device for garment processing.
Background
The clothes are indispensable articles in daily life, the clothes are various, short sleeves are common in summer, patterns are usually required to be printed on the surfaces of the short sleeves in the production process of the short sleeves, an ideal decoration effect can be achieved by printing on the short sleeves, and at present, in the production of the short sleeves, the common printing processes mainly comprise pigment printing, digital printing, transfer printing and the like.
The short sleeves are provided with front and back surfaces, the front and back surfaces of some short sleeves are required to be printed and ironed, most of the printing and ironing devices can only print and irone one surface at a time at present, and when the other surface is required to be printed and ironed, the short sleeves are required to be turned over; a small part of the printing and ironing devices have the function of performing double-sided printing and ironing on the short sleeves, but most of the existing double-sided printing and ironing devices do not have the function of propping open the short sleeves, so that the short sleeves are difficult to be in a tight state in the printing and ironing process, when the front and the back of the short sleeves are printed and ironed simultaneously, the back of the short sleeves may droop downwards due to tightness, the back of the short sleeves is uneven, and the patterns printed on the back of the short sleeves can deviate when the back of the short sleeves is printed and ironed.
Disclosure of Invention
The short-sleeve pattern double-side printing and ironing device for garment processing is designed to achieve the effects that the front side and the back side of a short sleeve can be printed and ironed at the same time, the short sleeve can be stretched so as to be convenient for ensuring that the short sleeve is in a tight state, and the pattern printed on the back side of the short sleeve cannot deviate.
In view of the above, the invention provides a double-side printing and ironing device for short sleeve patterns for garment processing, which comprises a base, a supporting plate, a servo motor, a moving assembly, an internal side opening assembly, a top lifting assembly and a moving printing and ironing assembly, wherein the supporting plate is arranged on the base;
the top of the base is fixedly connected with a supporting plate;
the top of the supporting plate is fixedly provided with a servo motor;
the base is provided with a moving component and is connected with the servo motor;
the inner side edge opening component is arranged on the moving component and used for performing side edge opening on the short sleeves;
the top lifting assembly is arranged on the moving assembly and is connected with the internal side edge propping assembly, and the top lifting assembly is used for propping the short sleeves upwards and downwards;
the movable printing and ironing component is arranged on the base and used for printing and ironing the front side and the back side of the short sleeve simultaneously.
Furthermore, the moving component comprises a power shaft, a power gear, an installation groove plate, a fixed U-shaped frame, a hollow sleeve plate, a moving rack plate, a fixed guide rod, a wave rack plate and a compression spring, the power shaft is fixedly connected to an output shaft of the servo motor, the power gear is arranged on the power shaft, the installation groove plate is fixedly connected to the top of the base, the fixed U-shaped frame is fixedly connected to the upper portion of the left side of the installation groove plate, the hollow sleeve plate is fixedly connected to the inner side of the fixed U-shaped frame, the moving rack plate is connected to the upper portion of the installation groove plate in a sliding mode, the moving rack plate is connected to the fixed U-shaped frame in a sliding mode, 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 fixing guide rods are fixedly connected to the movable rack plate and symmetrically arranged, the fixed guide rods are connected with the wave rack plate in a sliding mode, and compression springs are connected between the wave rack plate and the fixing guide rods.
Further, inside side struts the subassembly including the activity frame of strutting, the activity flange, the extrusion spring, buffer spring and rubber strip pole, sliding type connection has two activities to strut the frame on the hollow lagging, the activity struts the frame and is the symmetry setting, the inboard sliding type of activity strut frame is connected with the activity flange, the contact of activity flange and removal rack board, be connected with two extrusion springs between activity strut frame and the hollow lagging, be connected with two buffer spring between activity flange and the activity strut frame, activity strut frame outside rigid coupling has rubber strip pole, rubber strip pole is located hollow lagging outside.
Further, top lifting unit is including the rotation axis, a fixed base, the lifting rack, the swing pinion, horizontal rack, drive gear, top distraction board and bottom distraction board, the inboard rotary type of hollow lagging is connected with four rotation axes, the inboard rigid coupling of hollow lagging has four fixing bases, sliding connection has the lifting rack on the fixing base, the lifting rack that is located the right side is connected with hollow lagging slidable, the rigid coupling has the swing pinion on the rotation axis, activity distraction frame bottom rigid coupling has two horizontal racks, horizontal rack and swing pinion meshing, the rigid coupling has drive gear on the rotation axis, drive gear and lifting rack meshing, common rigid coupling has top distraction board between the lifting rack top surface, sliding connection has bottom distraction board on the hollow lagging, bottom distraction board is located top distraction board below, bottom distraction board and removal rack board sliding connection.
Further, remove seal boiling hot subassembly including removing the gear, remove the ratch, the lifting groove pole, remove the push rod, first seal scalds the board, supporting spring and carousel, the epaxial rigid coupling of power has the removal gear, base upper portion has passed and has removed the ratch, remove ratch and removal gear engagement, base upper portion sliding connection has the lifting groove pole, lifting groove pole upper portion sliding connection has the removal push rod, it has first seal to scald the board to remove push rod left end rigid coupling, first seal scalds board and removes ratch sliding connection, be connected with supporting spring between lifting groove pole and the base, the epaxial rigid coupling of power has the carousel, the carousel is located removal gear the place ahead, carousel and lifting groove pole contact simultaneously.
Further, the bottom printing and ironing device comprises a bottom printing and ironing assembly, the bottom printing and ironing assembly is arranged on the movable toothed bar and is connected with the base in a sliding manner, the bottom printing and ironing assembly comprises a movable special-shaped rack, a second printing and ironing plate, a fixed rack, a bottom movable bar, a toothed bar gear and a lifting groove toothed seat, the right part of the movable toothed bar is fixedly connected with the movable special-shaped rack, the movable special-shaped rack penetrates through the base and is connected with the mounting groove plate in a sliding manner, the left part of the movable special-shaped rack is connected with the second printing and ironing plate in a sliding manner, the second printing and ironing plate is symmetrically arranged with the first printing and ironing plate and is positioned below the first printing and ironing plate, the left part of the lifting groove toothed rod is fixedly connected with the fixed rack, the right side of the lower part of the second printing and ironing plate is fixedly connected with the bottom movable bar, the bottom movable bar penetrates through the mounting groove plate, the base is rotatably connected with a toothed bar gear, the toothed bar gear is meshed with the fixed rack, the lifting groove toothed seat is slidably connected on the base, the lifting groove tooth holder is connected with the bottom moving rod in a sliding mode, the lifting groove tooth holder is meshed with the gear with the rod, and the gear with the rod is located between the lifting groove tooth holder and the fixed rack.
The invention has the following beneficial effects:
1. through the cooperation of buffer spring and rubber strip pole and device above that, the side struts can be carried out to the rubber strip pole in the cotta for the surface of cotta is propped into tight state, and the device suitable position is printed on the cotta with the pattern follow-up accurately of being convenient for, and the device of being convenient for carries out two-sided seal to the cotta and scalds, prevents that the back of cotta from drooping and influencing follow-up seal and scald, takes place the skew in the pattern on cotta surface in order to avoid seal to scald.
2. Through the cooperation of top spreader plate and bottom spreader plate, the top spreader plate can upwards prop from the cotta is inside, and the bottom spreader plate can downwards prop from the inside of cotta, has further guaranteed the roughness on cotta surface, has further made things convenient for the device follow-up to carry out two-sided seal to the cotta.
3. Through the cooperation of the device internals, first seal scalds the board and carries out the seal scald in the front of cotta, and the second seal scalds the board and carries out the seal scald at the back of cotta, and the seal scald of first seal scalds board and second seal scalds the board and goes on simultaneously, is convenient for carry out the seal scald to the front and the back of cotta simultaneously, has reached the effect that can be simultaneously with the front and the back seal scald of cotta.
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 partial perspective view of the moving assembly of the present invention.
Fig. 4 is a partial perspective view of the moving assembly of the present invention.
Fig. 5 is a perspective view of the internal side spreader 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 the mobile printing and ironing assembly of the present invention.
Fig. 8 is a schematic perspective view of a portion of the bottom printing and ironing assembly of the present invention.
Fig. 9 is a schematic perspective view of the bottom printing and ironing assembly of the present invention.
Reference numerals: 1_ base, 2_ pallet, 3_ servomotor, 4_ moving assembly, 41_ power shaft, 42_ power gear, 43_ mounting slot plate, 44_ stationary clevis, 45_ hollow nest plate, 46_ moving rack plate, 47_ stationary guide, 48_ wave rack plate, 49_ compression spring, 5_ internal side spreader assembly, 51_ movable spreader, 52_ movable boss plate, 53_ pressing spring, 54_ buffer spring, 55_ rubber bar, 6_ top lifter assembly, 61_ rotation shaft, 62_ fixed seat, 63_ lifter rack, 64_ rotation gear, 65_ transverse rack, 66_ pinion, 67_ top spreader plate, 68_ bottom spreader plate, 7_ moving platen assembly, 71_ moving gear, 72_ moving pinion, 73_ lifter slot bar, 74_ moving pusher, 75_ first platen, 76_ support spring, 77_ turntable, 8_ bottom printing and ironing component, 81_ moving profiled rack, 82_ second printing and ironing plate, 83_ fixed rack, 84_ bottom moving rod, 85_ toothed bar, 86_ lifting groove toothholder.
Detailed Description
The standard parts used in the invention can be purchased from the market, the special-shaped parts can be customized according to the description and the description of the attached drawings, and the specific connection mode of each part adopts the conventional means of mature bolts, rivets, welding, sticking and the like in the prior art, and the detailed description is not repeated.
Example 1
A bilateral seal ironing device for short sleeve patterns for clothing processing is shown in figures 1, 2, 3, 4, 5, 6 and 7, and comprises a base 1, layer board 2, servo motor 3, removal subassembly 4, inside side struts subassembly 5, top lifting unit 6 and removal seal scald subassembly 7, 1 top rigid coupling of base has layer board 2, 2 top fixed mounting on layer board have servo motor 3, be equipped with on the base 1 and remove subassembly 4 and be connected with servo motor 3, it struts subassembly 5 to be equipped with inside side on the removal subassembly 4, inside side struts subassembly 5 and is used for carrying out the side to the cotta and struts, be equipped with top lifting unit 6 on the removal subassembly 4 and strut subassembly 5 with inside side and be connected, top lifting unit 6 is used for upwards strutting and strut downwards the cotta simultaneously, be equipped with removal seal scald subassembly 7 on the base 1, removal seal scald subassembly 7 is used for scalding the front and the back of cotta simultaneously.
The moving component 4 comprises a power shaft 41, a power gear 42, an installation 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 wave rack plate 48 and a compression spring 49, the power shaft 41 is fixedly connected on an output shaft of the servo motor 3, the power gear 42 is connected on the power shaft 41 in a welding mode, the installation groove plate 43 is fixedly connected on the top of the base 1, the fixed U-shaped frame 44 is fixedly welded on the upper portion of the left side of the installation groove plate 43, the hollow sleeve plate 45 is connected on the inner side of the fixed U-shaped frame 44 through a rivet, the moving rack plate 46 is slidably connected on the upper portion of the installation groove plate 43, the moving rack plate 46 is slidably connected with the fixed U-shaped frame 44, the moving rack plate 46 is slidably connected with the hollow sleeve plate 45 at the same time, the moving rack plate 46 is meshed with the power gear 42, the moving rack plate 46 is positioned below the power gear 42, and a zigzag chute is opened on the inner side of the moving rack plate 46, two fixed guide rods 47 are fixedly welded on the movable rack plate 46, the fixed guide rods 47 are symmetrically arranged, a wave rack plate 48 is connected between the fixed guide rods 47 in a sliding mode, and a compression spring 49 is connected between the wave rack plate 48 and the fixed guide rods 47.
The internal side opening component 5 comprises a movable opening frame 51 and a movable convex plate 52, extrusion spring 53, buffer spring 54 and rubber bar 55, hollow lagging 45 is the slip connection and is had two activities to strut frame 51, activity struts frame 51 is the symmetry setting, activity struts frame 51 inboard slip connection has movable flange 52, movable flange 52 and the contact of removal rack plate 46, can promote movable flange 52 towards the direction motion of keeping away from each other when removing rack plate 46 and moving right, be connected with two extrusion springs 53 that are used for restoring to the throne between activity struts frame 51 and the hollow lagging 45, be connected with two buffer spring 54 between activity flange 52 and the activity struts frame 51, buffer spring 54 plays the effect of buffering, activity struts frame 51 outside rigid coupling has rubber bar 55, rubber bar 55 is located hollow lagging 45 outsidely, the cotta can overlap between rubber bar 55, rubber bar 55 can strut the cotta to the side.
The top lifting component 6 comprises a rotating shaft 61, a fixed seat 62, a lifting rack 63, a rotating gear 64, a transverse rack 65, a transmission gear 66, a top opening plate 67 and a bottom opening plate 68, wherein the inner side of the hollow sleeve plate 45 is rotatably connected with the four rotating shafts 61, the inner side of the hollow sleeve plate 45 is connected with the four fixed seats 62 in a welding mode, the fixed seat 62 is slidably connected with the lifting rack 63, the lifting rack 63 positioned at the right side is slidably connected with the hollow sleeve plate 45, the rotating gear 64 is fixedly welded on the rotating shaft 61, the bottom of the movable opening frame 51 is fixedly connected with the two transverse racks 65, the transverse racks 65 are meshed with the rotating gear 64, the rotating shaft 61 is connected with the transmission gear 66 in a welding mode, the transmission gear 66 is meshed with the lifting rack 63, the top opening plate 67 is fixedly connected between the top surfaces of the lifting rack 63, and the top opening plate 67 is used for upwards opening the short sleeves, the hollow sleeve plate 45 is connected with a bottom opening plate 68 in a sliding mode, the bottom opening plate 68 is used for opening the short sleeves downwards, the bottom opening plate 68 is located below the top opening plate 67, and the bottom opening plate 68 is connected with the movable rack plate 46 in a sliding mode.
The movable stamping component 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, the movable gear 71 is fixedly connected to the power shaft 41, the movable toothed bar 72 penetrates 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 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 side of the short sleeves, the first stamping plate 75 is slidably connected with the movable toothed bar 72, the supporting spring 76 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, a cylindrical bar is arranged on the front side of the rotary table 77, and the rotary table 77 is positioned in front of the movable gear 71, while the cylindrical rod on the turntable 77 is in contact with the lifting groove rod 73.
Firstly, the short sleeve is sleeved between two rubber bar rods 55 through other equipment, the front side of the short sleeve is upward, a worker manually controls the servo motor 3 to reverse three quarters of a turn, the servo motor 3 drives the power shaft 41 and the device on the power shaft to reverse three quarters of a turn, in the process, the power gear 42 drives the movable rack plate 46 to move rightwards for a certain distance, then the power gear 42 contacts the fluctuation rack plate 48, through the power gear 42, the fluctuation rack plate 48 and the compression spring 49 in a matched mode, the power gear 42 drives the fluctuation rack plate 48 to make the fluctuation rack plate 48 reciprocate leftwards and rightwards, in the process that the movable rack plate 46 moves rightwards, the movable rack plate 46 pushes the movable convex plate 52 to move towards the direction away from each other, and the movable convex plate 52 drives the movable opening frame 51 and the rubber bar rods 55 to move towards the direction away from each other through the buffer spring 54, extrusion spring 53 can be compressed thereupon, because the cotta cover is between two rubber strip poles 55 this moment, rubber strip pole 55 can strut the cotta side, when rubber strip pole 55 propped the cotta into tight state, buffer spring 54 can be compressed thereupon, can realize the function of strutting the cotta side, make the surface of cotta more level and more smooth, be convenient for follow-up the device carry out two-sided seal on the cotta and scald, buffer spring 54 can play the effect of buffering simultaneously, avoid the cotta to be propped up badly by rubber strip pole 55.
In the process that the movable unfolding frame 51 and the upper device of the movable unfolding frame move towards the direction away from each other, the movable unfolding frame 51 can drive the transverse rack 65 to move towards the direction away from each other, the transverse rack 65 can drive the rotary gear 64 and the upper device of the rotary gear 64 to rotate, the rotary gear 64 can drive the lifting rack 63 and the top unfolding plate 67 to move upwards, the top unfolding plate 67 upwards unfolds the short sleeves, meanwhile, the movable rack plate 46 moves towards the right to drive the bottom unfolding plate 68 to move downwards, the bottom unfolding plate 68 downwards unfolds the short sleeves, the flatness of the surfaces of the short sleeves is further enhanced, the device is further convenient to conduct double-sided printing on the short sleeves, the phenomenon that the back of the short sleeves droop to influence the follow-up printing and ironing is prevented, and the pattern printed and ironed on the surfaces of the short sleeves cannot deviate.
When the power shaft 41 and the devices thereon are reversed, the movable gear 71 is reversed to drive the movable rack bar 72 and the devices thereon to move leftwards, so that the first stamping plate 75 moves leftwards to a proper position, then the turntable 77 pushes the lifting groove rod 73 to move downwards, the supporting spring 76 is compressed, the lifting groove rod 73 drives the movable push rod 74 and the first stamping plate 75 to move downwards, the first stamping plate 75 is in contact with the short sleeves 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 the patterns on the front surfaces of the short sleeves, and the function of stamping the front surfaces of the short sleeves is realized.
Example 2
On the basis of embodiment 1, as shown in fig. 8 and 9, the short-sleeve shirt printing and ironing system further comprises a bottom printing and ironing assembly 8, the bottom printing and ironing assembly 8 is arranged on a movable rack 72 and is slidably connected with the base 1, the bottom printing and ironing assembly 8 is used for printing and ironing the back of the short sleeves, the bottom printing and ironing assembly 8 comprises a movable special-shaped rack 81, a second printing and ironing plate 82, a fixed rack 83, a bottom moving rod 84, a rod-equipped gear 85 and a lifting groove rack 86, the right part of the movable rack 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 slidably connected with the mounting groove plate 43, the left part of the movable special-shaped rack 81 is slidably connected with the second printing and ironing plate 82, the second printing and ironing plate 82 is used for printing and ironing patterns on the back of the short sleeves, the second printing and ironing plate 82 is symmetrically arranged with the first printing and ironing plate 75, and the second printing and ironing plate 82 is located below the first printing and ironing plate 75, fixed rack 83 is welded to the left portion of lifting groove rod 73, bottom movable rod 84 is welded to the right side of the lower portion of second stamping plate 82, bottom movable rod 84 penetrates installation groove plate 43, a belt rod gear 85 is connected to base 1 in a rotating mode, belt rod gear 85 is meshed with fixed rack 83, lifting groove tooth holder 86 is connected to base 1 in a sliding mode, lifting groove tooth holder 86 is connected with bottom movable rod 84 in a sliding mode, bottom movable rod 84 penetrates lifting groove tooth holder 86, lifting groove tooth holder 86 is meshed with belt rod gear 85, and belt rod gear 85 is located between lifting groove tooth holder 86 and fixed rack 83.
When the movable rack 72 and the devices thereon move leftwards, the movable rack 72 can drive the movable special-shaped rack 81 and the devices thereon to move leftwards, meanwhile, the movable special-shaped rack 81 can drive the second stamping plate 82 to move leftwards, the second stamping plate 82 and the first stamping plate 75 can simultaneously move leftwards, when the first stamping plate 75 and the devices thereon move leftwards to proper positions, the second stamping plate 82 and the devices thereon can also move leftwards to proper positions, the lifting groove rod 73 moves downwards to drive the fixed rack 83 to move downwards, the fixed rack 83 can drive the belt rod gear 85 to rotate, the belt rod gear 85 can drive the lifting groove tooth holder 86 and the devices thereon to move upwards, so that the second stamping plate 82 stamps on the back of the short sleeves, and the function of synchronously stamping patterns on the front and the back of the short sleeves is realized.
When the printing is finished, the servo motor 3 rotates clockwise, the power gear 42 drives the movable rack plate 46 and the device thereon 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 device thereon reset, so that the rubber strip rod 55 does not expand the short sleeves any more, meanwhile, the top expanding plate 67 and the bottom expanding plate 68 are reset, the top expanding plate 67 and the bottom expanding plate 68 also do not expand the short sleeves, the moving gear 71 drives the moving rack bar 72 and the devices thereon to reset rightwards, the turntable 77 does not push the lifting groove bar 73, the supporting spring 76 resets accordingly and drives the lifting groove bar 73 and the devices thereon to reset upwards, the fixed rack 83 drives the lifting groove rack 86 and the devices thereon to reset downwards through the belt rod gear 85, and then the printed short sleeves on the hollow sleeve plates 45 are taken down through other equipment, and the operation is repeated, so that the device can be used for continuously carrying out double-sided printing and ironing on the short sleeves.
The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.