CN116607310B - Water-free transfer printing equipment for textile printing and dyeing - Google Patents

Abstract

The invention discloses anhydrous transfer printing equipment for textile printing and dyeing, and particularly relates to the technical field of textile, which comprises a protective shell, a fixed block and two driving rollers, wherein the protective shell is fixedly connected with the fixed block, a synchronizing device is arranged at the upper part of the front end of the fixed block, the synchronizing device penetrates through the protective shell, an installation cavity is arranged in the protective shell, a placing block is arranged at the front part of the installation cavity, the two driving rollers are both rotatably connected with the protective shell, and an adjusting component is arranged at the right part of the installation cavity. According to the anhydrous transfer printing equipment for textile printing and dyeing, impurities on cloth with different thicknesses can be scraped through the arranged adjusting component, the influence of the impurities on the coloring effect of the cloth is prevented, the cloth can be intermittently driven by the arranged synchronizing device, so that the cloth can be intermittently printed, meanwhile, the printed cloth can be dried back and forth, and the three are synchronously realized, so that the time is saved, and the working efficiency of the equipment is improved.

Description

Water-free transfer printing equipment for textile printing and dyeing

Technical Field

The invention relates to the technical field of textiles, in particular to anhydrous transfer printing equipment for textile printing and dyeing.

Background

The traditional dyeing process takes water as a carrier, about 80-100L of water is consumed for dyeing 1Kg of fabric, the crisis of global water resources and the environmental awareness are enhanced, and how to dye with little water and no water is an important direction of dyeing and finishing research.

In the dynamic printing and dyeing mode, cloth is driven to rotate through a roller, but uneven dyeing can occur in the moving process of the cloth, so that the cloth is uniformly dyed, the dyeing effect can be improved, and the working efficiency of the device is improved.

The Chinese patent document CN216338398U discloses a uniform anhydrous printing and dyeing device, which comprises a conveying leveling mechanism and a bearing printing and dyeing mechanism, wherein the bottom end of the conveying leveling mechanism is provided with the bearing printing and dyeing mechanism, the conveying leveling mechanism comprises a support frame rod, a steam generator arranged on the outer wall of one side of the support frame rod, a reciprocating cylinder fixedly arranged on the outer side of the support frame rod and a leveling elastic component movably arranged on the inner side of the support frame rod, the bottom end of the support frame rod is provided with the bearing printing and dyeing mechanism, during printing and dyeing, the leveling elastic component can be used for leveling and uniformly coloring the surface of fabric, the phenomenon that folds or uneven distribution are difficult to occur on the surface of fabric during printing and dyeing is also improved, when a leveling roller is used for leveling and uniformly coloring, a reciprocating cylinder can be started to drive a reciprocating push rod and a steam roller and the leveling roller to synchronously reciprocate up and down on the fabric by using a frame rod, the range of leveling and uniform coloring is enlarged, and the color fixing effect is also improved;

when the dyeing device is in actual use, although dyeing can be more uniform, after the dye liquor is immersed into the cloth, the dyed cloth cannot be dried, and long time is required to be completely adhered to the cloth, so that a large amount of time is wasted, and finally the working efficiency of the device is reduced.

Disclosure of Invention

The invention mainly aims to provide a water-free transfer printing device for textile printing and dyeing, which can effectively solve the problem that cloth cannot be dried.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

the waterless transfer printing equipment for textile printing and dyeing comprises a protective shell, a fixed block and two driving rollers, wherein the protective shell is fixedly connected with the fixed block, a synchronizing device is arranged at the upper part of the front end of the fixed block, the synchronizing device penetrates through the protective shell, an installation cavity is formed in the protective shell, a placing block is arranged at the front part of the installation cavity, the two driving rollers are both rotationally connected with the protective shell, and an adjusting component is arranged at the right part of the installation cavity and fixedly connected with the protective shell;

the synchronous device comprises an intermittent device and a linkage assembly, wherein a driven device is arranged at the right part of the front end of the intermittent device, the linkage assembly is meshed with the intermittent device, the driven device and the linkage assembly penetrate through a protective shell, and a swinging device is arranged at the upper end of the linkage assembly.

Preferably, the adjusting part comprises a fixed rod, fixed rod and protective housing fixed connection, the fixed rod middle part is equipped with the threaded rod, the threaded rod upper end is equipped with the commentaries on classics board, the fixed rod lower extreme front and back portion all is equipped with the regulation post, the threaded rod lower extreme is equipped with the lifter plate, lifter plate and two regulation post sliding connection, the lifter plate lower extreme front and back portion all is equipped with the installation piece, two the installation piece lower extreme is equipped with the scraper blade jointly.

Preferably, the intermittent device comprises a motor and an intermittent plate, the motor is fixedly connected with a fixed block, a main shaft is arranged at the output end of the motor, a driving plate is arranged at the rear part of the outer surface of the main shaft, a bearing plate is arranged in the middle of the front end of the driving plate, a sliding column is arranged at the lower part of the rear end of the bearing plate, a first gear is arranged at the front part of the outer surface of the main shaft, the intermittent plate is in sliding connection with the driving plate, a plurality of sliding grooves are formed in the outer surface of the intermittent plate, the sliding grooves are all in sliding connection with the sliding column, and the intermittent plate is fixedly connected with a driven device.

Preferably, the driven device comprises a placing roller and a second belt pulley, the placing roller is fixedly connected with the intermittent plate, a first belt pulley is arranged at the rear part of the outer surface of the placing roller, the second belt pulley is connected with the first belt pulley in a winding manner, a winding roller is arranged in the middle of the second belt pulley, and the winding roller is rotationally connected with the placing roller and the protective shell.

Preferably, the linkage assembly comprises a second gear, a fourth belt pulley and a third belt pulley, the second gear is meshed with the first gear, a driven shaft is arranged in the middle of the front end of the second gear, the driven shaft penetrates through the protective shell, first convex plates are arranged at the front and rear parts of the outer surface of the driven shaft, the third belt pulley is fixedly connected with the driven shaft, the fourth belt pulley is connected with the third belt pulley in a winding manner, a driving shaft is arranged in the middle of the fourth belt pulley, two second convex plates are arranged at the front and rear parts of the outer surface of the driving shaft, and the two second convex plates are identical to the first convex plates in shape and size.

Preferably, the swinging device comprises two driven components, the two driven components are in sliding connection with a first convex plate and a second convex plate on the same side, the right part of one end, which is close to each other, of each driven component is provided with a printing and dyeing component, the left part of the lower end of each swinging component is provided with a swinging component, and the swinging components are fixedly connected with a protective shell.

Preferably, the printing and dyeing assembly comprises a printing and dyeing shell, the printing and dyeing shell is fixedly connected with the driven assembly, a plurality of discharging holes are formed in the lower end of the printing and dyeing shell, and the printing and dyeing pad is detachably arranged at the lower end of the printing and dyeing shell.

Preferably, the driven component comprises a driven rod, the driven rod is in sliding connection with the first convex plate and the second convex plate, driven columns are arranged at the left and right parts of the upper end of the driven rod, compression springs are arranged at the lower parts of the outer surfaces of the driven columns, bearing blocks are arranged at the middle parts of the driven columns, and the bearing blocks are fixedly connected with the protective shell.

Preferably, the swing assembly comprises a connecting block, the connecting block is fixedly connected with the protective shell, two moving grooves are formed in the left end of the connecting block, the inner surfaces of the moving grooves are provided with moving assemblies, the upper ends of the moving assemblies are provided with supporting plates, and the upper ends of the supporting plates are fixedly connected with driven rods on the same side.

Preferably, the movable assembly comprises a sliding block and a stretching plate, the inner surface of the sliding block is provided with a pulley, the sliding block is in sliding connection with the movable groove, the left part of the outer surface of the pulley is provided with a movable wheel, the movable wheel is fixedly connected with the stretching plate, the middle part of the stretching plate is provided with a rotating shaft, the left end of the rotating shaft is provided with a limiting plate, the lower part of the left end of the stretching plate is provided with a bearing block, one end of the bearing block, which is close to the protective shell, is provided with an air inlet pipe, the air inlet pipe is connected with a blower, and the lower end of the bearing block is provided with a blowing head.

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

according to the invention, impurities on cloth with different thicknesses can be scraped through the arranged adjusting component, so that the coloring effect of the cloth is prevented from being influenced by the impurities, the working efficiency of the device is reduced, the threaded rod can be rotated by rotating the rotating plate, the lifting plate can be moved up and down, and meanwhile, the lifting plate can drive the two mounting blocks and the scraping plate to move, so that the scraping plate is tightly attached to the cloth, and the impurities are not left on the outer surface of the cloth.

According to the invention, the intermittent device is used for controlling the driven device to work, so that the cloth is intermittently driven, meanwhile, when the intermittent device works, the linkage assembly is driven to work, so that the printing and dyeing assembly is driven to move up and down, the cloth is uniformly dyed, the dye is uniformly attached to the surface of the cloth, the swinging assembly is enabled to work in the process of moving up and down, the uniformly dyed cloth is dried back and forth, the fixation effect of the cloth is better, and the three are carried out simultaneously, so that the working time is saved, and the working efficiency of the device is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic view of the structure of the adjusting assembly of the present invention;

FIG. 4 is a schematic diagram of a synchronous device according to the present invention;

FIG. 5 is a schematic diagram of a batch device according to the present invention;

FIG. 6 is a schematic view of a driven device according to the present invention;

FIG. 7 is a schematic view of a linkage assembly and a swing apparatus according to the present invention;

FIG. 8 is a schematic view of a printing and dyeing assembly according to the present invention;

FIG. 9 is a schematic view of a driven assembly and a moving assembly according to the present invention;

fig. 10 is an enlarged schematic view of fig. 9 a in accordance with the present invention.

In the figure: 1. a protective housing; 2. a fixed block; 3. a synchronizing device; 4. placing a block; 5. a driving roller; 7. an adjustment assembly; 8. a mounting cavity; 70. a fixed rod; 71. a threaded rod; 72. a rotating plate; 73. a lifting plate; 74. an adjusting column; 75. a mounting block; 76. a scraper; 30. an intermittent device; 31. a driven device; 32. a linkage assembly; 33. a swinging device; 300. an intermittent plate; 301. a sliding groove; 302. an active plate; 303. a first gear; 304. a main shaft; 305. a motor; 306. a receiving plate; 307. a sliding column; 310. placing a roller; 311. a wind-up roll; 312. a first pulley; 313. a second pulley; 320. a second gear; 321. a driven shaft; 322. a first convex plate; 323. a third pulley; 324. a driving shaft; 325. a fourth pulley; 326. a second convex plate; 330. a driven assembly; 331. a printing and dyeing assembly; 332. a swing assembly; 3310. printing and dyeing the shell; 3311. a discharge hole; 3312. printing and dyeing pads; 3301. a driven rod; 3302. a driven column; 3303. a compression spring; 3304. a receiving block; 3320. a connecting block; 3321. a moving groove; 3322. a moving assembly; 3323. a support plate; 3001. a slide block; 3002. a pulley; 3003. a movable wheel; 3004. stretching a plate; 3005. a bearing block; 3006. an air inlet pipe; 3007. a rotating shaft; 3008. a limiting plate; 3009. a blowing head.

Detailed Description

The invention is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Example 1

As shown in fig. 1-3, a waterless transfer printing device for textile printing and dyeing comprises a protective shell 1, a fixed block 2 and two driving rollers 5, wherein the protective shell 1 is fixedly connected with the fixed block 2, a synchronizing device 3 is arranged at the upper part of the front end of the fixed block 2, the synchronizing device 3 penetrates through the protective shell 1, a mounting cavity 8 is arranged in the protective shell 1, a placing block 4 is arranged at the front part of the mounting cavity 8, the two driving rollers 5 are both rotatably connected with the protective shell 1, an adjusting component 7 is arranged at the right part of the mounting cavity 8, and the adjusting component 7 is fixedly connected with the protective shell 1;

the fixed block 2 is used for supporting the synchronous device 3, the regulating component 7 can scrape the impurities on the surface of the cloth, prevent the impurities from affecting the dyeing effect, and the synchronous device 3 can dye the cloth and dry the dyed cloth, thereby increasing the functions of the device,

as shown in fig. 3, the adjusting assembly 7 comprises a fixed rod 70, the fixed rod 70 is fixedly connected with the protective shell 1, a threaded rod 71 is arranged in the middle of the fixed rod 70, a rotating plate 72 is arranged at the upper end of the threaded rod 71, adjusting columns 74 are arranged at the front and rear parts of the lower end of the fixed rod 70, a lifting plate 73 is arranged at the lower end of the threaded rod 71, the lifting plate 73 is in sliding connection with the two adjusting columns 74, mounting blocks 75 are arranged at the front and rear parts of the lower end of the lifting plate 73, and scraping plates 76 are arranged at the lower ends of the two mounting blocks 75 together;

according to the cloth of different thickness is adjusted, makes scraper blade 76 hug closely on the cloth all the time to prevent impurity on the cloth from influencing the effect of dyeing, rotate the swivel plate 72 and can make threaded rod 71 rotate, thereby can make lifter plate 73 reciprocate, and lifter plate 73 can drive two installation pieces 75 and scraper blade 76 simultaneously and remove, thereby adjusts the height.

The specific implementation mode is as follows: when the thickness of different cloths needs to be adjusted, the rotating plate 72 is rotated to enable the threaded rod 71 to rotate, so that the lifting plate 73 moves up and down, and meanwhile, the lifting plate 73 can drive the two mounting blocks 75 and the scraping plate 76 to move, so that the scraping plate 76 is tightly attached to the cloths, the effect of the impurities in dyeing is prevented, and the coloring effect is finally poor.

Example two

In this embodiment, on the basis of the first embodiment, the synchronization device 3 is further improved, as shown in fig. 4-10, the cloth can be intermittently driven by the set synchronization device 3, so that the cloth can be intermittently printed, and meanwhile, the printed cloth can be dried, and the three are synchronously realized, so that the functions of the device are increased.

As shown in fig. 4, the synchronizing device 3 includes an intermittent device 30 and a linkage assembly 32, the right part of the front end of the intermittent device 30 is provided with a driven device 31, the linkage assembly 32 is meshed with the intermittent device 30, the driven device 31 and the linkage assembly 32 penetrate through the protective shell 1, and the upper end of the linkage assembly 32 is provided with a swinging device 33;

the intermittent device 30 is used for controlling the driven device 31 to work, so that cloth is intermittently driven, meanwhile, the linkage assembly 32 is used for driving the swinging device 33 to work, so that the cloth is intermittently printed, the dyed cloth can be dried, a large amount of time is saved, the fixation effect of the cloth is better, and the working efficiency of the device is improved.

Specifically, referring to fig. 5, the intermittent device 30 includes a motor 305 and an intermittent plate 300, the motor 305 is fixedly connected with the fixed block 2, a main shaft 304 is provided at an output end of the motor 305, a driving plate 302 is provided at a rear portion of an outer surface of the main shaft 304, a receiving plate 306 is provided at a middle portion of a front end of the driving plate 302, a sliding column 307 is provided at a lower portion of a rear end of the receiving plate 306, a first gear 303 is provided at a front portion of an outer surface of the main shaft 304, the intermittent plate 300 is slidably connected with the driving plate 302, a plurality of sliding grooves 301 are provided at an outer surface of the intermittent plate 300, the plurality of sliding grooves 301 are slidably connected with the sliding column 307, and the intermittent plate 300 is fixedly connected with the driven device 31;

after the motor 305 is started, the spindle 304 rotates, because the bearing plate 306 is fixedly connected to the outer surface of the spindle 304, when the spindle 304 rotates, the bearing plate 306 and the sliding column 307 rotate, when the sliding column 307 contacts the inner surface of the sliding groove 301, the sliding column 307 slides on the inner surface of the sliding groove 301, so that the intermittent plate 300 can be stirred to rotate, meanwhile, because the driving plate 302 is fixedly connected with the spindle 304, the driving plate 302 rotates along with the spindle 304, the cambered surfaces at the upper, lower, left and right ends of the intermittent plate 300 are matched with the cambered surfaces at the outer edges of the driving plate 302, so that intermittent motion is realized, meanwhile, the intermittent plate 300 is fixedly connected with the driven device 31, and when the intermittent plate 300 intermittently rotates, the driven device 31 is driven to intermittently rotate, so that cloth is intermittently transmitted, and secondly, the arranged spindle 304 is fixedly connected with the first gear 303 rotates, and the first gear 303 is matched with the linkage assembly 32, so that the cloth can be uniformly dyed.

As shown in fig. 6, the driven device 31 comprises a placing roller 310 and a second belt pulley 313, the placing roller 310 is fixedly connected with the intermittent plate 300, a first belt pulley 312 is arranged at the rear part of the outer surface of the placing roller 310, the second belt pulley 313 is connected with the first belt pulley 312 in a winding way, a winding roller 311 is arranged in the middle of the second belt pulley 313, and the winding roller 311 and the placing roller 310 are both connected with the protective shell 1 in a rotating way;

the placing roller 310 that sets up is used for placing the cloth, and the wind-up roll 311 that sets up simultaneously is used for rolling up the cloth after the dyeing is accomplished, and the second belt pulley 313 that sets up simultaneously and first belt pulley 312 winding are connected, so can make intermittent plate 300 drive placing roller 310 carry out intermittent type nature motion to realize carrying out intermittent type nature transmission to the cloth, thereby make the device use more convenient.

As shown in fig. 7, the linkage assembly 32 includes a second gear 320, a fourth belt pulley 325 and a third belt pulley 323, the second gear 320 is meshed with the first gear 303, a driven shaft 321 is arranged in the middle of the front end of the second gear 320, the driven shaft 321 penetrates through the protective shell 1, a first convex plate 322 is arranged at the front and rear parts of the outer surface of the driven shaft 321, the third belt pulley 323 is fixedly connected with the driven shaft 321, the fourth belt pulley 325 is wound and connected with the third belt pulley 323, a driving shaft 324 is arranged in the middle of the fourth belt pulley 325, two second convex plates 326 are arranged at the front and rear parts of the outer surface of the driving shaft 324, and the shapes and the sizes of the two second convex plates 326 are the same as those of the first convex plate 322;

the swinging device 33 comprises two driven components 330, wherein the two driven components 330 are in sliding connection with a first convex plate 322 and a second convex plate 326 on the same side, the right part of one end of the two driven components 330, which is close to each other, is provided with a printing and dyeing component 331, the left part of the lower end of the two swinging components 332 is provided with a swinging component 332, and the swinging component 332 is fixedly connected with the protective shell 1;

the second gear 320 that sets up meshes with first gear 303, so when first gear 303 rotates, can make second gear 320 rotate, thereby can make two first flange 322 that driven shaft 321 surface set up rotate, because two first flange 322 that set up all are connected with driven shaft 321 is eccentric, simultaneously third belt pulley 323 and fourth belt pulley 325 winding are connected, so can make driving shaft 324 also rotate when driven shaft 321 rotates, thereby make two second flange 326 together rotate, thereby can make driven component 330 work, thereby drive printing and dyeing subassembly 331 and evenly dye the cloth, thereby make the coloring effect of cloth better, driven component 330 still can drive and sway subassembly 332 and work when working, sway subassembly 332 and can dry the cloth after the dyeing, accelerate the fixation speed, improve dyeing efficiency, make the work efficiency of device higher.

In detail, referring to fig. 8, the printing component 331 includes a printing housing 3310, the printing housing 3310 is fixedly connected with the driven component 330, a plurality of discharging holes 3311 are formed at the lower end of the printing housing 3310, and a printing pad 3312 is detachably mounted at the lower end of the printing housing 3310;

the dye is poured into the printing housing 3310, and flows out from the plurality of discharging holes 3311 under the action of gravity until flowing into the printing pad 3312, the arranged printing pad 3312 can absorb the dye so as to uniformly dye the cloth, meanwhile, the lower end of the printing pad 3312 is tightly attached to the cloth, when the printing pad 3312 moves downwards, the printing pad 3312 and the cloth are pressed on the upper end of the placing block 4, so that the dye absorbed in the printing pad 3312 is uniformly attached to the cloth, and the dyeing is performed, and finally, the dyeing effect is better.

As shown in fig. 9, the driven assembly 330 includes a driven rod 3301, the driven rod 3301 is slidably connected with the first convex plate 322 and the second convex plate 326, the left and right parts of the upper end of the driven rod 3301 are respectively provided with a driven post 3302, the lower parts of the outer surfaces of the two driven posts 3302 are respectively provided with a compression spring 3303, the middle parts of the two driven posts 3302 are respectively provided with a receiving block 3304, and the two receiving blocks 3304 are respectively fixedly connected with the protective shell 1;

the swinging component 332 comprises a connecting block 3320, the connecting block 3320 is fixedly connected with the protective shell 1, two moving grooves 3321 are formed in the left end of the connecting block 3320, moving components 3322 are arranged on the inner surfaces of the two moving grooves 3321, supporting plates 3323 are arranged at the upper ends of the two moving components 3322, and the upper ends of the two supporting plates 3323 are fixedly connected with driven rods 3301 on the same side;

when the two first convex plates 322 and the two second convex plates 326 rotate, the driven rods 3301 at the same side move up and down, and as the first convex plates 322 and the second convex plates 326 are in cam shapes, when the second convex plates 326 and the first convex plates 322 rotate, the driven rods 3301 at two sides are contacted with different positions on the outer surfaces of the first convex plates 322 and the second convex plates 326, so that the driven rods 3301 move up and down, and meanwhile, the driven columns 3302 move up and down, so that the printing and dyeing components 331 are driven to move up and down, and uniform dyeing is performed on cloth;

when the two driven rods 3301 move up and down, the two support plates 3323 are also moved, so that the two moving assemblies 3322 slide on the inner surface of the moving groove 3321 on the same side, drying of the dyed cloth is realized, and the fixation effect of the cloth is better.

Specifically, referring to fig. 10, the moving assembly 3322 includes a sliding block 3001 and a stretching plate 3004, a pulley 3002 is disposed on an inner surface of the sliding block 3001, the sliding block 3001 is slidably connected with the moving groove 3321, a movable wheel 3003 is disposed on a left portion of an outer surface of the pulley 3002, the movable wheel 3003 is fixedly connected with the stretching plate 3004, a rotating shaft 3007 is disposed in a middle portion of the stretching plate 3004, a limiting plate 3008 is disposed at a left end of the rotating shaft 3007, a bearing block 3005 is disposed at a lower portion of a left end of the stretching plate 3004, air inlet pipes 3006 are disposed at ends of the bearing block 3005, which are close to the protective housing 1, the air inlet pipes 3006 are connected with a blower, and an air blowing head 3009 is disposed at a lower end of the bearing block 3005;

when the support plate 3323 moves up and down, the sliding block 3001 slides on the inner surface of the moving groove 3321, so that the pulley 3002 slides on the inner surface of the sliding block 3001, and the stretching plate 3004 is similar to the corresponding shape because the stretching plate 3004 is telescopic, so that when the sliding block 3001 moves up and down, the stretching plate 3004 rotates around the rotating shaft 3007, the air inlet pipe 3006 is connected with the blower, and the stretching plate 3004 rotates the bearing block 3005 and the air inlet pipe 3006 to dry cloth at different positions back and forth, so that the time is saved, and the working efficiency of the device is improved.

The specific implementation mode is as follows: placing cloth on the outer surface of the placing roller 310, then bypassing the right driving roller 5 to enable the cloth to be tightly attached to the printing pad 3312, bypassing the left driving roller 5, finally utilizing the winding roller 311 to wind, starting the motor 305 to enable the main shaft 304 to rotate, thereby enabling the driving plate 302 and the receiving plate 306 to rotate, thereby enabling the receiving plate 306 and the sliding column 307 to rotate, the sliding column 307 to slide on the inner surface of the sliding groove 301, thereby stirring the intermittent plate 300 to intermittently rotate, thereby realizing intermittent transmission of the cloth, enabling the first gear 303 to rotate while the main shaft 304 rotates, enabling the second gear 320 to rotate, enabling the third belt pulley 323 and the fourth belt pulley 325 to rotate, enabling the two first convex plates 322 and the second convex plates 326 to rotate, thereby enabling the two driven rods 3301 to move up and down, enabling the printing pad 331 to be tightly attached to the upper end of the placing block 4 when the cloth moves down, enabling the cloth to press the upper end of the printing pad 4 to rotate intermittently, enabling the first gear 320 to rotate, enabling the second gear 320 to rotate, enabling the third belt pulley 323 and the fourth belt pulley 325 to rotate, enabling the two first convex plates 322 and the second convex plates 326 to rotate, enabling the cloth to move up and down more evenly on the two supporting plates to rotate, and enabling the cloth to rotate down 3003 to rotate, and enabling the cloth to be more evenly and more rapidly and more easily, and enabling the cloth to rotate on the supporting plate to be more than 3001 to be capable of being attached to the supporting plate to the cloth to 3001, thereby enabling the cloth to be more evenly and more to be stretched and more than is capable to be convenient.

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 (2)

1. The utility model provides a anhydrous transfer printing equipment that textile printing and dyeing used, includes protective housing (1), fixed block (2) and two drive roller (5), its characterized in that: the novel protective device comprises a protective shell (1) and a fixed block (2), wherein a synchronizing device (3) is arranged at the upper part of the front end of the fixed block (2), the synchronizing device (3) penetrates through the protective shell (1), an installation cavity (8) is formed in the protective shell (1), a placing block (4) is arranged at the front part of the installation cavity (8), two driving rollers (5) are both in rotary connection with the protective shell (1), an adjusting component (7) is arranged at the right part of the installation cavity (8), and the adjusting component (7) is fixedly connected with the protective shell (1);

the synchronous device (3) comprises an intermittent device (30) and a linkage assembly (32), wherein a driven device (31) is arranged at the right part of the front end of the intermittent device (30), the driven device (31) and the linkage assembly (32) penetrate through the protective shell (1), and a swinging device (33) is arranged at the upper end of the linkage assembly (32);

the adjusting assembly (7) comprises a fixed rod (70), the fixed rod (70) is fixedly connected with the protective shell (1), a threaded rod (71) is arranged in the middle of the fixed rod (70), a rotating plate (72) is arranged at the upper end of the threaded rod (71), adjusting columns (74) are arranged at the front and rear parts of the lower end of the fixed rod (70), lifting plates (73) are arranged at the lower end of the threaded rod (71), the lifting plates (73) are in sliding connection with the two adjusting columns (74), mounting blocks (75) are arranged at the front and rear parts of the lower end of the lifting plates (73), and scraping plates (76) are arranged at the lower ends of the two mounting blocks (75) together;

the intermittent device (30) comprises a motor (305) and an intermittent plate (300), the motor (305) is fixedly connected with a fixed block (2), a main shaft (304) is arranged at the output end of the motor (305), a driving plate (302) is arranged in the middle of the outer surface of the main shaft (304), the driving plate (302) comprises a fan-shaped plate with a central angle larger than 180 degrees, a bearing plate (306) is arranged in the middle of the front end of the driving plate (302), the bearing plate (306) is positioned on the opposite side of the fan-shaped plate, a sliding column (307) is arranged at the end part of the bearing plate (306) far away from the main shaft (304), a first gear (303) is arranged at the top of the outer surface of the main shaft (304), the intermittent plate (300) is in sliding connection with the driving plate (302), a plurality of sliding grooves (301) are formed in the outer surface of the intermittent plate (300), when the main shaft (304) rotates, the bearing plate (306) and the sliding column (307) rotates, when the sliding column (307) contacts the inner surface of the sliding groove (301), the sliding plate (307) slides on the inner surface of the sliding plate (301), and accordingly the main shaft (304) rotates, and the driving plate (302) rotates in a rotating mode, the cambered surfaces of the upper, lower, left and right ends of the intermittent plate (300) are matched with the cambered surfaces of the outer edges of the driving plate (302), so that intermittent motion is realized;

the driven device (31) comprises a placing roller (310) and a second belt pulley (313), the placing roller (310) is fixedly connected with the intermittent plate (300), a first belt pulley (312) is arranged at the front part of the outer surface of the placing roller (310), the second belt pulley (313) is connected with the first belt pulley (312) through belt transmission, a winding roller (311) is arranged in the middle of the second belt pulley (313), and the winding roller (311) and the placing roller (310) are both rotationally connected with the protective shell (1);

the linkage assembly (32) comprises a second gear (320), a fourth belt pulley (325) and a third belt pulley (323), wherein the second gear (320) is meshed with the first gear (303), a driven shaft (321) is arranged in the middle of the rear end of the second gear (320), the driven shaft (321) penetrates through the protective shell (1), a first convex plate (322) is arranged at the front part and the rear part of the outer surface of the driven shaft (321), the third belt pulley (323) is fixedly connected with the driven shaft (321), the fourth belt pulley (325) is connected with the third belt pulley (323) through belt transmission, a driving shaft (324) is arranged in the middle of the fourth belt pulley (325), a second convex plate (326) is arranged at the front part and the rear part of the outer surface of the driving shaft (324), and the two second convex plates (326) are identical with the first convex plate (322) in shape and size.

The swinging device (33) comprises two driven components (330), the two driven components (330) are both in sliding connection with a first convex plate (322) and a second convex plate (326) on the same side, printing and dyeing components (331) are arranged on the right part of one side, close to each other, of the two driven components (330), a swinging component (332) is arranged on the left part below the two driven components (330), and the swinging component (332) is fixedly connected with the protective shell (1);

the printing and dyeing assembly (331) comprises a printing and dyeing shell (3310), the printing and dyeing shell (3310) is fixedly connected with the two driven assemblies (330), a plurality of discharging holes (3311) are formed in the lower end of the printing and dyeing shell (3310), and a printing and dyeing pad (3312) is detachably arranged at the lower end of the printing and dyeing shell (3310);

the driven assembly (330) comprises a driven rod (3301), the driven rod (3301) is in sliding connection with a first convex plate (322) and a second convex plate (326), a driven column (3302) is arranged at the left and right parts above the driven rod (3301), compression springs (3303) are arranged at the lower parts of the outer surfaces of the driven columns (3302), two bearing blocks (3304) are arranged at the middle parts of the driven columns (3302), and the two bearing blocks (3304) are fixedly connected with a protective shell (1).

2. The waterless transfer printing apparatus for textile printing according to claim 1, wherein: the swinging assembly (332) comprises a connecting block (3320), the connecting block (3320) is fixedly connected with the protective shell (1), two moving grooves (3321) are formed in the left side of the connecting block (3320), moving assemblies (3322) are arranged on the inner surfaces of the two moving grooves (3321), supporting plates (3323) are arranged at the upper ends of the two moving assemblies (3322), and the upper ends of the two supporting plates (3323) are fixedly connected with driven rods (3301) on the same side;

the utility model provides a movable assembly (3322) is including slider (3001) and tensile board (3004), slider (3001) internal surface is equipped with pulley (3002), slider (3001) and removal groove (3321) sliding connection, pulley (3002) surface left side is equipped with running wheel (3003), running wheel (3003) and tensile board (3004) fixed connection, tensile board (3004) middle part is equipped with axis of rotation (3007), axis of rotation (3007) left end is equipped with limiting plate (3008), tensile board (3004) left end lower part is equipped with bearing block (3005), the one end that bearing block (3005) is close to protective housing (1) is equipped with into tuber pipe (3006), into tuber pipe (3006) are connected with the air-blower, bearing block (3005) lower extreme is equipped with blowing head (3009).