CN111501247A

CN111501247A - Garment materials printing and dyeing's device

Info

Publication number: CN111501247A
Application number: CN202010552401.3A
Authority: CN
Inventors: 周干
Original assignee: Hangzhou Luosong Trading Co ltd
Current assignee: Hangzhou Luosong Trading Co ltd
Priority date: 2020-06-17
Filing date: 2020-06-17
Publication date: 2020-08-07

Abstract

The invention discloses a garment material printing and dyeing device, which relates to the field of garment materials and comprises a main supporting frame, wherein two side edges of the main supporting frame are symmetrically butted with a turnover box body, two side edges of the turnover box body are symmetrically spliced with splicing rods, the side edge of the turnover box body is uniformly and horizontally provided with a sliding groove, the inner side edge of the sliding groove is clamped with a sliding block, the inner side edge of the sliding block is fixedly clamped with a fixed bearing, the inner side edge of the fixed bearing is horizontally spliced with a bearing rod, the inner side edge of the sliding groove is fixedly clamped with a supporting spring, the top surface of the turnover box body is connected with a handle through a bolt, and the outer side edge of the turnover box body is horizontally clamped with a colloid box. The device provided by the invention is integrated in design, simple in structure, convenient and quick to operate, small in size and convenient to mount, transport and move due to the adoption of a vertical transmission design, more comprehensive due to the adoption of multiple printing functions, and more convenient to replace and add materials due to the fact that accessories can be detached.

Description

Garment materials printing and dyeing's device

Technical Field

The invention relates to the technical field of garment fabric printing and dyeing, in particular to a garment fabric printing and dyeing device.

Background

The printing technique originates from China, originates from the unique seal culture of Chinese people, is synthesized by gradually developing two methods of rubbing and stamping, is formed by accumulating the experiences of many people after a long time, and is the crystal of human intelligence. The earliest literature and earliest real objects of Chinese engraving existed in 600 gongs, the early period of Tang dynasty. The traditional Chinese printing industry develops rapidly, but has the problems of deformity, low profit, serious information asymmetry, unsmooth buying and selling communication, acquaintance transaction and the like. The electronic book and the periodical are printed, the cheap wind is used for pressing, the package is printed, the digital printing occupies personalized printing, the traditional printing industry has surplus capacity, the national average start time is only 50%, and the difference between the south and the north is huge. It is anticipated that the Internet of the printing industry, and even manufacturing industry, will be a trend! The network channel is more convenient and fast, saves resources, protects the environment and saves manpower.

When the traditional clothing fabric is printed, the single-sided printing is adopted, so that the printing efficiency is low and the printing effect is poor, the traditional printing machine adopts a horizontal design, so that the traditional printing machine has larger volume, is inconvenient to carry and move, brings certain troublesome influence of installation when in use, when the existing printing machine is used for printing, the material is troublesome to fill, and the replacement of the compression roller brings certain complexity, so that the work of replacing the compression roller greatly delays time, meanwhile, the single press roller is used for printing, so that the printing is not comprehensive enough, the poor printing effect is caused, the fabric is directly printed in a printing and dyeing mode, so that the printing material falls off to influence the use when the fabric is used in the later period, meanwhile, the printed fabric can be hardened after being dried, and the fabric is directly collected, so that the trouble in later use can be caused.

Disclosure of Invention

The invention aims to provide a garment material printing and dyeing device, which solves the problems that when the traditional garment material is printed, the single-sided printing is adopted, so that the printing efficiency is low and the printing effect is poor, the traditional printing machines are designed horizontally, so that the size is large, the carrying and moving are inconvenient, certain troublesome effects of installation are brought when the traditional printing machines are used, the traditional printing machines are troublesome when materials are filled during printing, certain complexity is brought when compression rollers are replaced, the work of replacing the compression rollers is greatly delayed, meanwhile, the single compression roller is used for printing, so that the printing effect is poor, when the fabric is directly printed, the printing material falls when the fabric is used in the later period, and the use is affected, meanwhile, the printed fabric can be hardened after being dried, and the fabric is directly collected, so that the problem of trouble in later use can be caused.

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

a garment material printing and dyeing device comprises a main supporting frame, wherein two side edges of the main supporting frame are symmetrically butted with a turnover box body, two side edges of the turnover box body are symmetrically inserted with insertion rods, the side edge of the turnover box body is uniformly and horizontally provided with a sliding groove, the inner side edge of the sliding groove is clamped with a sliding block, the inner side edge of the sliding block is fixedly clamped with a fixed bearing, the inner side edge of the fixed bearing is horizontally inserted with a bearing rod, the inner side edge of the sliding groove is fixedly clamped with a supporting spring, the top surface of the turnover box body is connected with a handle through a bolt, the outer side edge of the turnover box body is horizontally clamped with a colloid box, the outer side edge of the turnover box body is uniformly and fixedly clamped with a dyeing box, the side edges of the colloid box and the dyeing box are embedded with observation windows, one end of the colloid box and one end of the dyeing box are horizontally welded with a feeding pipe, and the, the bottom surface of the main supporting frame is vertically welded downwards with a supporting vertical rod, the side edge between the supporting vertical rods is horizontally inserted with a shaping rolling shaft, the side edge of the supporting vertical rod is horizontally welded with a supporting horizontal rod, an adjusting shaft is horizontally clamped between the supporting horizontal rods, the outer side edge of the adjusting shaft is fixedly welded with a stirring sheet, the side edge between the supporting vertical rods is horizontally inserted with a transmission roller, the top surface of the main supporting frame is vertically welded upwards with a top vertical plate, the top end of the top vertical plate is horizontally welded with a drying box, the bottom surface of the drying box is horizontally provided with a transmission groove, the inner side edge of the transmission groove is fixedly clamped with a sealing film, the inner side edge of the drying box is horizontally welded with a supporting rod, the supporting rod is fixedly clamped with a heating pipe at one end far away from the drying box, the top surface of the drying box is vertically upwards bolted with, the automatic feeding device is characterized in that a feeding brush is horizontally clamped at one side edge close to a material transmission groove of the softening box, a feeding roller is horizontally arranged at one side edge close to the material transmission groove of the softening box, a liquid injection pipe is inserted into the side edge of the softening box, a supporting roller is horizontally arranged between the side supporting plates, a transmission groove is horizontally arranged at the top surface and the bottom surface of the main supporting frame, a material receiving box is horizontally bolted at the bottom surface of the inner side of the main supporting frame, fixed inserting rods are symmetrically inserted into the two side edges of the main supporting frame, an extracting pump is evenly bolted at the inner side edge of the turnover box body and fixedly connected with a brushing sponge at one end far away from the turnover box body, an extruding roller is horizontally welded at the middle end of the bearing rods, a printing layer is fixedly connected at the outer side edge of the extruding roller, an inserting head is inserted into the outer side edge of the, the inserting groove has been seted up to a side of upset box body, the spacing groove has evenly been seted up on the outside limit of upset box body, colloid box and dyeing box have seted up the lock hole at a side central point that is close to the upset box body, the inboard fixed joint in lock hole has the sealed gluey piece, colloid box and dyeing box have seted up the cover and have connect the groove at a side symmetry that is close to the upset box body, the inboard side grafting in cover connects the groove has the card strip, the inboard fixed joint in cover connect the groove has the top to connect the spring, a side of card strip is fixed to be pegged graft and is pressed the piece.

As a preferred embodiment of the present invention: the number of upset box body is two, and two upset box bodies are vertical to the symmetrical lock joint setting in the both sides open end position of main tributary carriage, and the inside of two upset box bodies keeps leading to the setting with the inside of main tributary carriage, and peg graft respectively horizontal symmetry and peg graft the base angular position that is close to the main tributary carriage in the both sides limit of upset box body, and the outside limit that the peg graft pole runs through the upset box body extends to the inboard side of inserting groove, and the extension end is pegged graft in the inboard side position of one end of fixed peg.

As a preferred embodiment of the present invention: the number of sliding tray is a plurality of, and a plurality of sliding trays are parallel to each other the stack formula arrange in the both sides limit position of upset box body, the inboard edge symmetry of sliding tray has been seted up draw-in groove and inside and the inside of upset box body keeps leading to and connects the setting, the number of sliding block keeps unanimous with the number of sliding tray, and the one-to-one is vertical to the joint setting, the number of bearing bar keeps unanimous with the number of sliding block, and two liang of inboard edges that run through fixing bearing of bearing bar difference extend to the inboard position of upset box body.

As a preferred embodiment of the present invention: the fixed side position of keeping away from main carriage of supporting spring setting between sliding tray and sliding block, the corner position of main carriage is kept away from at the top surface of upset box body to the fixed setting respectively of handle, the number of colloid box is two, and two colloid boxes horizontal symmetry setting of difference is close to the bottom position at the outside limit of upset box body, the number of dyeing box is a plurality of, and a plurality of dyeing boxes parallel stack formula each other arrange the top surface position at the outside limit colloid box of upset box body, the one end threaded connection of dog-house keeping away from colloid box and dyeing box has the sealing cap.

As a preferred embodiment of the present invention: the lock joint piece is fixed respectively and is set up the side butt joint that overturns box body and main tributary carriage and be close to the top surface position, the number that supports the pole setting is two, and two support pole settings are parallel symmetry respectively and set up perpendicularly downwards and be close to both sides limit position in the bottom surface of main tributary carriage, the number of plastic roller bearing is two, and the mutual horizontal parallel arrangement of two plastic roller bearings puts between two support pole settings, the both ends of two plastic roller bearings are pegged graft perpendicularly and are being close to the top position at the inboard edge that supports the pole setting, support the fixed side central point that sets up in the support pole setting of horizontal pole symmetry, the both ends level of adjustment shaft is pegged graft and is kept away.

As a preferred embodiment of the present invention: the stirring piece forms symmetrical fixed setting with the center of adjusting shaft respectively, the side is close to the bottom position between the pole setting is supported in the transmission roller level setting, and the transmission roller, adjusting shaft and plastic roller bearing parallel arrangement each other, the number of top board is two, and two top boards parallel vertical setting are close to both sides limit central point respectively at main carriage top surface, the bottom surface central point that passes the silo horizontal plane and establish at the stoving case puts, and pass the silo and the top surface of transmission groove is the setting of arranging of stack formula, the fixed joint of sealed film is in the inboard side position of the top surface conveying groove of stoving case, the number of bracing piece is a plurality of, and the bracing piece is symmetrical horizontal setting respectively in the inboard both sides limit position of stoving case, the heating pipe is the one end position of S form joint at the bracing piece, and the heating pipe is vertical symmetry respectively and sets up the both sides limit position at the conveying groove.

As a preferred embodiment of the present invention: the utility model discloses a side support board, including side backup pad, softening box, material loading brush, transmission groove, brush sponge, brush material, side backup pad symmetry parallel arrangement, the top surface both sides limit position of stoving case, softening box horizontal symmetry sets up the both sides limit position that is close to the material transmission groove at the top surface of stoving case, the inside of material loading brush keeps leading to the setting with the inside of softening box, and the outside limit of the first butt joint of brush of material loading brush in the material loading roller, the mutual butt joint of a side of material loading brush keeping away from the material loading roller, the top surface and the bottom surface central point that the transmission groove horizontal plane was established at main carriage put, and the inside of transmission groove and main carriage keeps leading to the setting, the side of fixed inserted bar symmetry level grafting at main carriage is close to the bottom surface position, and keep away from the inboard side limit position of main carriage horizontal grafting at the inserting groove, the extraction pump keeps leading to the inside of inserting head through leading to.

As a preferred embodiment of the present invention: the number of squeeze roll is a plurality of, and many squeeze rolls parallel arrangement each other are in the inboard side position of upset box body, the inboard side butt joint setting that the outside limit of many squeeze rolls extends to main carriage, the fixed side central line position of pegging graft at the upset box body of bayonet joint, and the number of bayonet joint keeps unanimous with the number of colloid box and dyeing box, the bayonet joint runs through the inboard side position that lock hole and sealed glue block extended to colloid box and dyeing box perpendicularly in the one end of keeping away from the upset box body, the rubberizing brush is in the outside limit position of a side butt joint at the squeeze roll of keeping away from the extraction pump.

As a preferred embodiment of the present invention: the inserting groove level is seted up at one side of upset box body that is close to main carriage and is close to base angular position, the number of spacing groove is a plurality of, and the card strip one-to-one is pegged graft at the inboard side of spacing groove, cup joint the groove symmetry and set up the side at colloid box and dyeing box and be close to border position, the one end of card strip runs through the open end of cup jointing the groove and extends to the outside limit, press a piece vertical fixation to set up the side of keeping away from the top at the card strip and connect the spring, and press the side that the piece runs through the cup jointing groove and extend to the outside limit position of colloid box and dyeing box.

Compared with the prior art, the invention has the beneficial effects that:

1. the whole fabric is cleaner and tidier by designing multiple transmission effects, a better effect is brought to later-stage printing, the fabric is arranged under the action of the poking piece, the arranged fabric enters the position between the shaping rolling shafts to be further extruded and shaped, the shaped fabric is stretched from the transmission groove at the bottom surface of the main supporting frame and is pulled out to the transmission groove at the top surface, the sliding block slides in the sliding groove under the support of the supporting spring, the extrusion roller is driven to extrude from the turnover box body to the inside of the main supporting frame, meanwhile, materials in the colloid box and the dyeing box are extracted by the extraction pump and enter the brushing sponge and the gluing brush, the brushing effect is carried out on the extrusion roller and the printing layer under the action of the brushing sponge and the gluing brush, and the extrusion roller at the bottom end brushes the glue entering the two side edges of the fabric, then the printing effect of carrying out a lot of times is made to the surface fabric two-sided under the roll of printing layer for printing adhesive force is stronger and the printing of later stage surface fabric is difficult to the condition of dropping.

2. Meanwhile, the drying integration is designed to enable the fabric to be more comprehensively treated, the dried fabric is transmitted from a sealing film at the top end and extends to a position between softening boxes, softening liquid in the softening boxes is coated on the surfaces of the feeding rollers under the brushing of the feeding brush 2, the processed fabric is transmitted from the supporting rollers and finally collected, so that the fabric cannot form a hard state after being dried and is not beneficial to later use, the colloid boxes and the dyeing boxes can be taken down when the clamping strips are far away from the limiting grooves for conveniently filling materials, the turnover box body is turned over and unfolded towards two side edges under the rotation of the inserting rod, then a printing layer on the surface of the extrusion roller can be replaced, the device is more rapid and convenient, the device is integrated, has a simple structure and convenient operation, and is small in size and convenient to install, carry and move due to the adoption of the vertical transmission design, meanwhile, multiple printing functions are adopted, so that the printing machine is more comprehensive, and accessories can be detached to enable the replacement and the addition of materials to be more convenient.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic perspective view of a device for printing and dyeing a garment material;

FIG. 2 is a schematic structural diagram of a main support frame of the apparatus for printing and dyeing clothing fabric with connection details in section;

FIG. 3 is a schematic view of a cross-sectional connection detail of a flip case of an apparatus for printing and dyeing a garment material;

FIG. 4 is a schematic structural view of a cross-sectional connection detail of a dyeing box of the device for printing and dyeing clothing fabric;

FIG. 5 is a schematic structural view showing a sectional connection detail of a sliding groove of the apparatus for printing and dyeing a garment material;

FIG. 6 is a schematic structural view of a section connection detail of a drying box of the device for printing and dyeing clothing fabric;

fig. 7 is a structural schematic diagram of material transmission details of an adjusting shaft of a device for printing and dyeing clothing fabric.

In the figure: 1-main support frame; 2-turning the box body; 3-inserting a rod; 4-a sliding groove; 5-a sliding block; 6-fixing the bearing; 7-a bearing rod; 8-a support spring; 9-a handle; 10-a gel box; 11-a staining kit; 12-a viewing window; 13-feeding pipe; 14-a fastening block; 15-supporting vertical rods; 16-a shaping roller; 17-a support rail; 18-an adjustment shaft; 19-a toggle sheet; 20-a transfer roller; 21-a top vertical plate; 22-drying box; 221-material conveying groove; 222-sealing film; 223-support bars; 224-heating tube; 23-side support plates; 24-softening the box; 241-a feeding brush; 242-a feeding roller; 25-liquid injection pipe; 26-supporting rolls; 27-a transfer slot; 28-a receiving box; 29-fixed inserted link; 30-a suction pump; 31-brushing sponge; 32-squeeze rolls; 33-printing layer; 34-a plug-in connector; 35-a glue brush; 36-a plug groove; 37-a limiting groove; 38-snap-fit hole; 39-sealing rubber block; 40-a sleeving groove; 41-clamping strip; 42-top connection spring; 43-pressing block.

Detailed Description

Referring to fig. 1 and 7, in the embodiment of the present invention, a device for printing and dyeing clothing fabric includes a main supporting frame 1, two turnover box bodies 2 are symmetrically butted on two side edges of the main supporting frame 1, two insertion rods 3 are symmetrically inserted on two side edges of the turnover box body 2, the number of the turnover box bodies 2 is two, the two turnover box bodies 2 are vertically and symmetrically fastened and arranged at two side opening ends of the main supporting frame 1, the insides of the two turnover box bodies 2 are communicated with the inside of the main supporting frame 1, the insertion rods 3 are respectively and symmetrically inserted at two side edges of the turnover box body 2 close to the bottom edge angle position of the main supporting frame 1, the insertion rods 3 extend to the inner side edge of an insertion groove 36 through the outer side edge of the turnover box body 2, the extension ends are inserted at the inner side edge position of one end of a fixed insertion rod 29, the side edge of the turnover box body 2 is uniformly and horizontally provided with sliding grooves 4, the sliding blocks 5 are, the number of the sliding grooves 4 is a plurality of sliding grooves 4, the sliding grooves 4 are arranged at the two side positions of the turnover box body 2 in a mutually parallel and overlapped mode, the inner side edges of the sliding grooves 4 are symmetrically provided with clamping grooves, the inner parts of the sliding grooves are communicated with the inner part of the turnover box body 2, the number of the sliding blocks 5 is consistent with that of the sliding grooves 4, and the sliding blocks are vertically clamped and connected one by one, the inner side edges of the sliding blocks 5 are fixedly clamped with fixed bearings 6, the inner side edges of the fixed bearings 6 are horizontally inserted with bearing rods 7, the number of the bearing rods 7 is consistent with that of the sliding blocks 5, the bearing rods 7 respectively penetrate through the inner side edges of the fixed bearings 6 in a group in pairs and extend to the inner side position of the turnover box body 2, the inner side edges of the sliding grooves 4 are fixedly clamped with supporting springs 8, the top surface bolt of the turnover box body 2 is connected, the support spring 8 is fixedly arranged at a position of one side edge far away from the main support frame 1 between the sliding groove 4 and the sliding block 5, the handle 9 is respectively fixedly arranged at a corner position far away from the main support frame 1 on the top surface of the turnover box body 2, the number of the colloid boxes 10 is two, the two colloid boxes 10 are respectively horizontally and transversely symmetrically arranged at positions close to the bottom end of the outer side edge of the turnover box body 2, the dyeing boxes 11 are uniformly and fixedly clamped at the outer side edge of the turnover box body 2, the observation windows 12 are inlaid at the side edges of the colloid boxes 10 and the dyeing boxes 11, the feeding pipes 13 are horizontally welded at one ends of the colloid boxes 10 and the dyeing boxes 11, the number of the dyeing boxes 11 is a plurality, the plurality of dyeing boxes 11 are arranged at the top surface position of the colloid boxes 10 at the outer side edge of the turnover box body 2 in a parallel and superposed manner, the sealing caps are connected at one ends of the feeding pipes 13 far away from the colloid boxes 10 and the dyeing boxes, the bottom surface of the main supporting frame 1 is vertically welded downwards with supporting upright posts 15, the side edges between the supporting upright posts 15 are horizontally inserted with shaping rolling shafts 16, buckling blocks 14 are respectively and fixedly arranged at the positions, close to the top surface, of the butt joint of the side edges of the turnover box body 2 and the main supporting frame 1, the number of the supporting upright posts 15 is two, the two supporting upright posts 15 are respectively, symmetrically, vertically and downwards arranged at the positions, close to the two side edges, of the bottom surface of the main supporting frame 1 in parallel, the number of the shaping rolling shafts 16 is two, the two shaping rolling shafts 16 are mutually, horizontally and parallelly arranged between the two supporting upright posts 15, the two ends of each shaping rolling shaft 16 are vertically inserted at the positions, close to the top ends, of the inner side edges of the supporting upright posts 15, supporting cross rods 17 are horizontally welded at the side edges of the supporting upright posts 15, the supporting cross rods 17 are symmetrically and fixedly arranged at, the adjusting shafts 18 are horizontally clamped between the supporting cross rods 17, the outer side edges of the adjusting shafts 18 are fixedly welded with the poking pieces 19, the side edges between the supporting vertical rods 15 are horizontally inserted with the transmission rollers 20, the top surface of the main supporting frame 1 is vertically upwards welded with the top vertical plates 21, the poking pieces 19 are symmetrically and fixedly arranged with the centers of the adjusting shafts 18 respectively, the transmission rollers 20 are horizontally arranged between the supporting vertical rods 17 at the positions of the side edges close to the bottom end, the transmission rollers 20, the adjusting shafts 18 and the shaping rolling shafts 16 are arranged in parallel, the number of the top vertical plates 21 is two, the two top vertical plates 21 are respectively and vertically arranged at the positions of the top surface of the main supporting frame 1 close to the centers of the two side edges, and the top ends of the top vertical;

referring to fig. 6, in the embodiment of the present invention, a clothing fabric printing and dyeing apparatus is provided, wherein a bottom surface of a drying box 22 is horizontally provided with a material conveying groove 221, an inner side edge of one material conveying groove 221 is fixedly clamped with a sealing film 222, an inner side edge of the drying box 22 is horizontally welded with a support rod 223, one end of the support rod 223 far away from the drying box 22 is fixedly clamped with a heating pipe 224, the material conveying groove 221 is horizontally arranged at a center position of the bottom surface of the drying box 22, the material conveying groove 221 and a top surface of the conveying groove 27 are arranged in a stacked manner, the sealing film 222 is fixedly clamped at an inner side edge position of the material conveying groove 221 at a top surface of the drying box 22, the number of the support rods 223 is multiple, the support rods 223 are respectively and symmetrically and horizontally arranged at two side edges of the inner side of the drying box 22, the heating pipe 224 is S-shaped clamped at one end position of the support rod, the top surface of the drying box 22 is vertically upwards bolted with a side support plate 23, the top surface of the drying box 22 is bolted with a softening box 24, the softening box 24 is horizontally clamped with a feeding brush 241 at one side close to the transmission groove 221, the softening box 24 is horizontally provided with a feeding roller 242 at one side close to the transmission groove 221, the side support plates 23 are symmetrically arranged at two side edges of the top surface of the drying box 22 in parallel, the softening box 24 is horizontally and symmetrically arranged at two side edges of the top surface of the drying box 22 close to the transmission groove 221, the interior of the feeding brush 241 is communicated with the interior of the softening box 24, the brush head end of the feeding brush 241 is connected with the outer side edge of the feeding roller 242, the feeding brushes 241 are mutually connected at one side edge far from the feeding roller 242, the side edge of the softening box 24 is connected with a liquid injection pipe 25 in an inserting manner, and a support roller 26 is;

referring to fig. 2-3 and 5, in the embodiment of the present invention, a device for printing and dyeing clothing fabric is provided, wherein a transmission groove 27 is horizontally formed on the top surface and the bottom surface of a main support frame 1, a material receiving box 28 is horizontally bolted on the bottom surface of the inner side of the main support frame 1, fixed insertion rods 29 are symmetrically inserted into two side edges of the main support frame 1, the transmission groove 27 is horizontally formed in the center positions of the top surface and the bottom surface of the main support frame 1, the interior of the transmission groove 27 is in communication with the interior of the main support frame 1, the fixed insertion rods 29 are symmetrically and horizontally inserted into the side edges of the main support frame 1 near the bottom surface, one end far away from the main support frame 1 is horizontally inserted into the inner side edge of an insertion groove 36, the inner side edge of an overturn box body 2 is uniformly bolted with an extraction pump 30, the end far away from the overturn box body 2 is connected with a brushing sponge 31, the extraction pump 30 is in communication with the, the brush material sponge 31 is butt-jointed at the outer side edge position of the printing layer 33 at one side edge far away from the extracting pump 30, the horizontal welding of the middle end of the bearing rod 7 is provided with a plurality of extruding rollers 32, the outer side edge of the extruding rollers 32 is fixedly sleeved with the printing layer 33, the outer side edge of the turning box body 2 is spliced with a splicing head 34, the output end of the extracting pump 30 is fixedly sleeved with a gluing brush 35, the number of the extruding rollers 32 is a plurality, the extruding rollers 32 are mutually and parallelly arranged at the inner side edge position of the turning box body 2, the outer side edges of the extruding rollers 32 extend to the inner side edge of the main supporting frame 1 and are oppositely butted, the splicing head 34 is fixedly spliced at the side center line position of the turning box body 2, the number of the splicing head 34 is consistent with the number of the colloid boxes 10 and the dyeing boxes 11, one end of the splicing head 34 far away from the turning box body 2 vertically penetrates through the buckling hole 38 and, the gluing brush 35 is butted at the outer side edge of the extrusion roller 32 at one side edge far away from the extraction pump 30, an inserting groove 36 is formed in one side edge of the turnover box body 2, limit grooves 37 are uniformly formed in the outer side edge of the turnover box body 2, the inserting groove 36 is horizontally formed in the position, close to the bottom edge angle, of one side edge, close to the main support frame 1, of the turnover box body 2, the number of the limit grooves 37 is multiple, and the clamping strips 41 are correspondingly inserted into the inner side edges of the limit grooves 37 one by one;

referring to fig. 4, in the embodiment of the present invention, a device for printing and dyeing clothing fabric, wherein a center of one side of a colloid box 10 and a dyeing box 11 close to a turnover box body 2 is provided with a fastening hole 38, an inner side of the fastening hole 38 is fixedly fastened with a sealing rubber block 39, one side of the colloid box 10 and the dyeing box 11 close to the turnover box body 2 is symmetrically provided with a sleeving groove 40, an inner side of the sleeving groove 40 is inserted with a clamping strip 41, the sleeving groove 40 is symmetrically arranged at a position close to an edge of the side of the colloid box 10 and the dyeing box 11, one end of the clamping strip 41 penetrates through an opening end of the sleeving groove 40 and extends to an outer side, an inner side of the sleeving groove 40 is fixedly fastened with a butting spring 42, one side of the clamping strip 41 is fixedly inserted with a pressing block 43, the pressing block 43 is vertically and fixedly arranged at one side of the clamping strip 41 far from, and the pressing block 43 penetrates the side edge of the sleeving groove 40 and extends to the outer side edge position of the colloid box 10 and the dyeing box 11.

The components are standard parts in general or known to those skilled in the art, and their structure and principle are known to those skilled in the art through technical manuals or through routine experimentation.

The working principle of the invention is as follows:

the fabric is stretched to the outer side of the adjusting shaft 18 from the conveying roller 20 between the supporting upright rods 15, the fabric is subjected to a finishing action under the action of the poking sheet 19, the finished fabric enters the position between the shaping rollers 16 for further extrusion shaping action, the shaped fabric is stretched from the conveying groove 27 on the bottom surface of the main supporting frame 1 and is pulled out to the top surface conveying groove 27, the sliding block 5 slides in the sliding groove 4 under the support of the supporting spring 8, the extrusion roller 32 is driven to perform extrusion action from the turnover box body 2 to the inside of the main supporting frame 1, the fabric at the middle position is subjected to extrusion rolling action, meanwhile, the materials in the colloid box 10 and the dyeing box 11 are extracted by the extraction pump 30 and enter the interiors of the sponge material brush 31 and the upper rubber brush 35, and the extrusion roller 32 and the printing layer 33 are subjected to a brushing action under the actions of the sponge material brush 31 and the upper rubber brush 35, the squeezing rollers 32 at the bottom end brush the glue entering the two side edges of the fabric for the first time, then the printing effect on the two sides of the fabric is performed for multiple times under the rolling of the printing layer 33, the printed fabric moves upwards and enters the inner side of the drying box 22 from the material conveying groove 221, the fabric at the middle position is dried under the heating of the heating pipe 224, the dried fabric is conveyed out from the sealing rubber sheet 222 at the top end and extends to the position between the softening boxes 24, the softening liquid in the softening boxes 24 is coated on the surface of the loading roller 242 under the brushing action of the loading brush 241, the loading roller 242 performs the rolling effect on the fabric at the middle position, the processed fabric is conveyed out from the supporting roller 26 for final collection, the colloid box 10 and the dyeing box 11 can be taken down when the clamping strip 41 is far away from the limiting groove 37 for convenient material filling, and the handle 9 is pulled after the clamping block 14 is opened, the turnover box body 2 is turned over and unfolded towards two side edges under the rotation of the insertion rod 3, and then the printing layer 33 on the surface of the extrusion roller 32 can be replaced, so that the turnover box body is more rapid, convenient and simpler.

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

Claims

1. A garment material printing and dyeing device comprises a main supporting frame (1) and is characterized in that two side edges of the main supporting frame (1) are symmetrically butted with a turnover box body (2), two side edges of the turnover box body (2) are symmetrically spliced with splicing rods (3), a sliding groove (4) is uniformly and horizontally formed in the side edge of the turnover box body (2), a sliding block (5) is clamped and connected to the inner side edge of the sliding groove (4), a fixed bearing (6) is fixedly clamped and connected to the inner side edge of the sliding block (5), a bearing rod (7) is horizontally spliced and connected to the inner side edge of the fixed bearing (6), a supporting spring (8) is fixedly clamped and connected to the inner side edge of the sliding groove (4), a handle (9) is bolted to the top surface of the turnover box body (2), a colloid box (10) is horizontally clamped and connected to the outer side edge of the turnover box body (2), and a dyeing box (11) is uniformly and fixedly clamped and connected to the outer, the side edge of the colloid box (10) and the dyeing box (11) is inlaid with an observation window (12), one end of the colloid box (10) and the dyeing box (11) is horizontally welded with a feeding pipe (13), the side edge of the turnover box body (2) and the main supporting frame (1) is connected with a buckling block (14) through a bolt, the bottom surface of the main supporting frame (1) is vertically welded downwards with a supporting vertical rod (15), a shaping rolling shaft (16) is horizontally inserted between the supporting vertical rods (15), a supporting cross rod (17) is horizontally welded between the supporting vertical rods (15), an adjusting shaft (18) is horizontally clamped between the supporting cross rods (17), a poking sheet (19) is fixedly welded on the outer side edge of the adjusting shaft (18), a transmission roller (20) is horizontally inserted between the supporting vertical rods (15), and a top vertical plate (21) is vertically welded upwards on the top surface of the main supporting frame (1), the top end of the top vertical plate (21) is horizontally welded with a drying box (22), the bottom surface of the drying box (22) is horizontally provided with a material conveying groove (221), one material conveying groove (221) is fixedly clamped with a sealing rubber sheet (222) at the inner side edge of the material conveying groove (221), a support rod (223) is horizontally welded at the inner side edge of the drying box (22), one end of the support rod (223) far away from the drying box (22) is fixedly clamped with a heating pipe (224), the top surface of the drying box (22) is vertically upwards bolted with a side support plate (23), the top surface of the drying box (22) is bolted with a softening box (24), the softening box (24) is horizontally clamped with a feeding brush (241) at one side edge close to the material conveying groove (221), the softening box (24) is horizontally provided with a feeding roller (242) at one side edge close to the material conveying groove (221), and the side edge of the softening box, the supporting roll (26) is horizontally arranged between the side supporting plates (23), a transmission groove (27) is horizontally formed in the top surface and the bottom surface of the main supporting frame (1), a material receiving box (28) is connected to the horizontal bolt of the inner bottom surface of the main supporting frame (1), fixed inserting rods (29) are symmetrically inserted into the two side edges of the main supporting frame (1), an extraction pump (30) is connected to the inner side edge of the turnover box body (2) through uniform bolts, a brushing sponge (31) is fixedly sleeved at one end, far away from the turnover box body (2), of the extraction pump (30), an extrusion roller (32) is horizontally welded at the middle end of the bearing rod (7), a printing layer (33) is fixedly sleeved at the outer side edge of the extrusion roller (32), an inserting head (34) is inserted into the outer side edge of the turnover box body (2), and a gluing brush (35) is sleeved at the output end of the extraction pump, inserting groove (36) have been seted up to a side of upset box body (2), spacing groove (37) have evenly been seted up to the outside limit of upset box body (2), a side central point that is close to upset box body (2) has seted up lock hole (38) colloid box (10) and dyeing box (11), the inboard fixed joint of lock hole (38) has sealed gluey piece (39), cover and connect groove (40) have been seted up in a side symmetry that is close to upset box body (2) colloid box (10) and dyeing box (11), the inboard side grafting of cover and connect groove (40) has card strip (41), the inboard side fixed joint of cover and connect groove (40) has top spring (42), a side of card strip (41) is fixed to be pegged graft and is pressed piece (43).

2. The device for printing and dyeing garment materials according to claim 1, wherein the number of the turnover box bodies (2) is two, the two turnover box bodies (2) are vertically and symmetrically buckled and arranged at the open ends of the two sides of the main support frame (1), the insides of the two turnover box bodies (2) and the insides of the main support frame (1) are communicated and arranged, the insertion rods (3) are horizontally and symmetrically inserted at the positions, close to the bottom corner positions of the main support frame (1), of the two sides of the turnover box body (2), respectively, the insertion rods (3) penetrate through the outer side edges of the turnover box body (2) and extend to the inner side edge of the insertion groove (36), and the extension ends are inserted at the positions of the inner side edges of one ends of the fixed insertion rods (29).

3. The garment material printing and dyeing device according to claim 1, characterized in that the number of the sliding grooves (4) is several, the sliding grooves (4) are arranged in the positions of the two side edges of the turnover box body (2) in a mutually parallel and overlapped mode, the inner side edges of the sliding grooves (4) are symmetrically provided with clamping grooves, the inner parts of the sliding grooves are communicated with the inner part of the turnover box body (2), the number of the sliding blocks (5) is consistent with that of the sliding grooves (4), the sliding grooves are vertically clamped in a one-to-one correspondence mode, the number of the bearing rods (7) is consistent with that of the sliding blocks (5), and the bearing rods (7) respectively penetrate through the inner side edges of the fixed bearings (6) in a group two by two to extend to the inner side position of the turnover box body (2).

4. The garment material printing and dyeing device according to claim 1, characterized in that the supporting spring (8) is fixedly arranged between the sliding groove (4) and the sliding block (5) at a side edge position far away from the main supporting frame (1), the handle (9) is respectively fixedly arranged at a corner position far away from the main supporting frame (1) on the top surface of the turnover box body (2), the number of the colloid boxes (10) is two, the two colloid boxes (10) are respectively horizontally and transversely symmetrically arranged at the outer side edge of the turnover box body (2) near the bottom end position, the number of the dyeing boxes (11) is several, the plurality of dyeing boxes (11) are mutually arranged at the top surface position of the colloid box (10) at the outer side edge of the turnover box body (2) in a parallel and superposed manner, and the feeding pipe (13) is connected with a sealing cap at one end far away from the colloid box (10) and the dyeing boxes (11) through threads.

5. The device for printing and dyeing the garment material according to claim 1, characterized in that the fastening blocks (14) are respectively fixed on the side edges of the turnover box body (2) and the main supporting frame (1) in butt joint with each other near the top surface, the number of the supporting upright rods (15) is two, and two supporting upright stanchions (15) are respectively, symmetrically, parallelly, vertically and downwards arranged at the positions of the bottom surface of the main supporting frame (1) close to the two side edges, the number of the shaping rolling shafts (16) is two, and two shaping rollers (16) are horizontally arranged between the two supporting vertical rods (15) in parallel, two ends of the two shaping rollers (16) are vertically inserted into the positions, close to the top ends, of the inner side edges of the supporting vertical rods (15), the supporting cross rods (17) are symmetrically and fixedly arranged at the center positions of the side edges of the supporting vertical rods (15), and two ends of the adjusting shaft (18) are horizontally inserted into the positions, far away from one ends of the supporting vertical rods (15), of the supporting cross rods (17).

6. The garment material printing and dyeing device according to claim 1, characterized in that the poking pieces (19) are respectively and symmetrically and fixedly arranged at the center of the adjusting shaft (18), the transmission rollers (20) are horizontally arranged between the supporting vertical rods (17) and are close to the bottom end, the transmission rollers (20), the adjusting shaft (18) and the shaping roller (16) are mutually and parallelly arranged, the number of the top vertical plates (21) is two, the two top vertical plates (21) are respectively and vertically arranged at the top surface of the main supporting frame (1) and are close to the center of the two side edges, the material conveying groove (221) is horizontally arranged at the center of the bottom surface of the drying box (22), the material conveying groove (221) and the top surface of the transmission groove (27) are arranged in a superposed manner, the sealing rubber sheets (222) are fixedly clamped at the inner side edge of the material conveying groove (221) at the top surface of the drying box (22), and the number of the supporting rods (223) is several, and the support rods (223) are symmetrically and horizontally arranged at the two side edges of the inner side of the drying box (22) respectively, the heating pipes (224) are clamped at one end of the support rods (223) in an S shape, and the heating pipes (224) are vertically and symmetrically arranged at the two side edges of the material conveying groove (221) respectively.

7. The device for printing and dyeing the garment materials according to claim 1, characterized in that the side supporting plates (23) are symmetrically arranged at two side edges of the top surface of the drying box (22) in parallel, the softening box (24) is horizontally and symmetrically arranged at two side edges of the top surface of the drying box (22) close to the conveying groove (221), the interior of the feeding brush (241) is in through connection with the interior of the softening box (24), the brush head end of the feeding brush (241) is in end connection with the outer side edge of the feeding roller (242), the feeding brushes (241) are in mutual end connection with one side edge far away from the feeding roller (242), the conveying groove (27) is horizontally arranged at the center position of the top surface and the bottom surface of the main supporting frame (1), the interior of the conveying groove (27) is in through connection with the interior of the main supporting frame (1), the fixing insertion rods (29) are symmetrically and horizontally inserted at the side edge of the main supporting frame (1) close to the bottom surface, and one end far away from the main supporting frame (1) is horizontally inserted and connected at the inner side position of the insertion groove (36), the extraction pump (30) is communicated and connected with the inside of the insertion head (34) through the through groove, and the brushing sponge (31) is butted at the outer side position of the printing layer (33) at one side far away from the extraction pump (30).

8. The device for printing and dyeing clothing material according to claim 1, characterized in that the number of said squeeze rollers (32) is several, the plurality of squeezing rollers (32) are arranged at the inner side edge of the turnover box body (2) in parallel, the outer side edges of the plurality of squeezing rollers (32) extend to the inner side edge of the main supporting frame (1) and are oppositely butted, the plug-in connector (34) is fixedly plugged at the position of the center line of the side edge of the turnover box body (2), and the number of the plug-in connectors (34) is consistent with that of the colloid boxes (10) and the dyeing boxes (11), one end of each plug-in connector (34) far away from the turnover box body (2) vertically penetrates through the buckling hole (38) and the sealing rubber block (39) and extends to the inner side positions of the colloid boxes (10) and the dyeing boxes (11), and one side edge of each sealing rubber brush (35) far away from the extraction pump (30) is butted at the outer side edge position of the extrusion roller (32).

9. The garment material printing and dyeing device according to claim 1, characterized in that the insertion grooves (36) are horizontally formed in the position, close to the bottom corner, of one side edge of the turnover box body (2) close to the main support frame (1), the number of the limiting grooves (37) is several, the clamping strips (41) are correspondingly inserted into the inner side edges of the limiting grooves (37) one by one, the sleeving grooves (40) are symmetrically formed in the positions, close to the edges, of the side edges of the colloid box (10) and the dyeing box (11), one ends of the clamping strips (41) penetrate through the opening ends of the sleeving grooves (40) and extend to the outer side edges, the pressing blocks (43) are vertically and fixedly arranged on one side edge of the clamping strips (41) far away from the abutting springs (42), and the pressing blocks (43) penetrate through the side edges of the sleeving grooves (40) and extend to the positions of the outer side edges of the colloid box (10) and the dyeing box (11).