T-shirt pattern coloring device
Technical Field
The invention relates to the field of clothes and accessories, in particular to a T-shirt pattern coloring device.
Background
Various patterns on the clothes attract customers to purchase, the printing and coloring methods of the patterns on the T-shirt are multiple, one type of thermal transfer printing is adopted, the patterns are vivid, convenient and quick, but the patterns with lighter colors can be blurred, so that the design of the T-shirt pattern coloring device in a direct contact thermal printing mode is really necessary, and the device can clearly and uniformly thermally print the patterns on the T-shirt.
Disclosure of Invention
The invention aims to provide a T-shirt pattern coloring device which can solve the problems in the prior art.
The invention is realized by the following technical scheme: the invention relates to a T-shirt pattern coloring device, which comprises a base and a cover plate, wherein the base is provided with a working cavity and a communicating cavity opposite to an opening in the cover plate, the working cavity arranged in the base and the communicating cavity arranged in the cover plate form a closed cavity, the circumferential inner wall of the closed cavity is fixedly connected with a clamping device, two hot stamping devices and two transmission devices are symmetrically arranged in the inner walls of the left side and the right side of the closed cavity, conversion devices are symmetrically arranged in the inner walls of the upper side and the lower side of the closed cavity, the hot stamping devices comprise connecting plate cavities communicated and arranged in the inner walls of the left side and the right side of the closed cavity, connecting plates are arranged in the connecting plate cavities in a sliding manner, sliding block cavities opposite to the openings in the connecting plates at the two sides are arranged in the sliding block cavities, vertical screw rods are rotatably arranged in the sliding block cavities, a turning cavity is arranged in the inner, the rear end of the auxiliary turning gear is meshed with a main turning gear, the rear end of the main turning gear is fixedly connected with a sliding shaft, a sliding gear cavity is arranged in the inner wall of the rear side of the turning cavity with an upward opening, the sliding shaft is introduced into the sliding gear cavity and fixedly connected with a sliding gear, the upper end of the sliding gear is connected with the transmission device, a sliding block is arranged in the sliding block cavity in a sliding manner, a threaded through hole is formed in the sliding block in a penetrating manner from top to bottom, the vertical screw rod is connected with the threaded through hole in a threaded manner, heat conducting holes are formed in the sliding block on two sides in a mode that the openings are opposite, an electric heating wire is fixedly arranged in each heat conducting hole; the transmission device drives the connecting plate to slide and also can drive the sliding block to slide, and then the electric heating wire is used for hot stamping and coloring.
According to a further technical scheme, the transmission devices on two sides comprise gear cavities arranged in the inner wall of one side, far away from the center, of the connecting plate cavity, sector gears are arranged in the gear cavities in a rotating mode, lower gears can be arranged at the lower ends of the sector gears in a meshed mode, transverse screws are fixedly connected in the lower gears, the transverse screws are introduced into the thread blind holes and are in threaded connection with the thread blind holes, upper gears can be arranged at the upper ends of the sector gears in a meshed mode, main bevel gears are fixedly connected to one ends, close to the center, of the upper gears on the two sides, auxiliary bevel gears are arranged at the rear ends of the main bevel gears in a meshed mode, main belt wheels are fixedly connected to the front ends of the auxiliary bevel gears through short shafts, transmission belt cavities are arranged in the inner wall of one side, close to the center, of the gear cavities and communicated with the sliding gear cavities, fixed gears are rotatably arranged in the transmission belt cavities, a connecting shaft is fixedly connected in the fixed gear, a secondary belt wheel is rotatably arranged at the rear side of the fixed gear and fixedly connected with the connecting shaft, a transmission belt is connected between the secondary belt wheel and the main belt wheel, a connecting belt cavity is arranged in the inner wall of one side of the gear cavity, which is far away from the center, a power wheel is rotatably arranged in the connecting belt cavity, a motor shaft is fixedly connected in the power wheel, one end, which is close to the center, of the motor shaft is fixedly connected to the sector gear, a connecting wheel is rotatably arranged in the connecting belt cavity, a connecting belt is connected between the power wheel and the connecting wheel, a long shaft cavity is communicated between the connecting belt cavities at two sides, a long shaft is fixedly connected between the connecting wheels at two sides, a driving motor is fixedly arranged in the inner wall at the left side of the connecting belt cavity at; and starting the driving motor, and driving the hot stamping device through belt transmission and gear transmission.
The technical scheme is that the conversion device comprises communicating grooves which are communicated and arranged in the inner walls of the upper side and the lower side of the closed cavity, a sample plate cavity is communicated and arranged in the inner wall of one side, away from the center, of the communicating groove, a sample plate shaft is rotatably arranged in the sample plate cavity, a connecting film and a sample plate are connected between the sample plate shafts, a shaft cavity is communicated and arranged in the inner wall of the front side of the sample plate cavity, a synchronous belt cavity and an upper belt wheel cavity are communicated and arranged in the inner wall of the front side of the shaft cavity, the synchronous belt cavity is communicated and opposite to the upper belt wheel cavity in opening, a conversion motor is fixedly arranged in the inner wall of the front side of the synchronous belt cavity, the sample plate shaft at the lower side is dynamically connected to the conversion motor, a lower belt wheel is rotatably arranged in the synchronous belt cavity, the lower belt wheel is fixedly connected to the sample plate shaft at the lower side, an upper, a synchronous belt is connected between the lower belt wheel and the upper belt wheel; and starting the conversion motor, driving the sample plate shaft through belt transmission, and further driving the connecting film and the sample plate to rotate and replace the sample plate.
According to the further technical scheme, the clamping device comprises six mounting blocks which are distributed in an annular array and fixedly connected to the circumferential inner walls of the closed cavity, a spring cavity is formed in each mounting block, the opening of each mounting block faces the center, clamping blocks are symmetrically arranged in the spring cavity in the left and right directions, clamping springs are fixedly connected between one ends of the clamping blocks, away from the center, and the inner walls of the left side and the right side of the spring cavity, a T-shirt is clamped between the clamping blocks on the two sides, and a collecting film is fixedly arranged in the closed cavity; the T-shirt is clamped through the clamping blocks under the elastic force of the clamping springs.
The invention has the beneficial effects that: the invention has simple structure and convenient operation, can carry out transmission twice to thermally print the patterns on the sample plate on the T-shirt uniformly, can change the sample plate quickly, and can avoid polluting the device because the coating dropped from the sample plate in the thermal printing mode is collected on the collecting film.
Drawings
FIG. 1 is a schematic view of the internal structure of a coloring device for T-shirt patterns according to the present invention;
FIG. 2 is a schematic view of the structure in the direction "A-A" in FIG. 1;
FIG. 3 is an enlarged schematic view of "B" in FIG. 1;
FIG. 4 is an enlarged schematic view of "C" in FIG. 1;
FIG. 5 is a schematic view of the structure "D" in FIG. 1;
FIG. 6 is a schematic view of the structure in the direction "E-E" in FIG. 3;
FIG. 7 is a schematic view of the structure in the direction "F-F" in FIG. 4.
Detailed Description
The invention will now be described in detail with reference to fig. 1-7, for convenience of description, the following orientations will now be defined: the up-down, front-back, left-right directions described below correspond to the up-down, front-back, left-right directions in the projection relation of fig. 1 itself.
Referring to fig. 1-7, the coloring device for the T-shirt pattern according to the invention comprises a base 11 and a cover plate 24, wherein the base 11 is provided with a working chamber 12 and a communicating chamber 25 opposite to the inner opening of the cover plate 24, the working chamber 12 arranged in the base 11 and the communicating chamber 25 arranged in the cover plate 24 form a closed chamber 70, the circumferential inner wall of the closed chamber 70 is fixedly connected with a clamping device 100, two thermal printing devices 101 and two transmission devices 102 are symmetrically arranged in the inner walls of the left side and the right side of the closed chamber 70, conversion devices 103 are symmetrically arranged in the inner walls of the upper side and the lower side of the closed chamber 70, the thermal printing devices 101 comprise connecting plate chambers 17 communicated with the inner walls of the left side and the right side of the closed chamber 70, connecting plates 22 are arranged in the connecting plate chambers 17 in a sliding manner, slider chambers 16 are arranged in the connecting plates 22 at the two sides and opposite to the opening, and vertical screws 15, a direction changing cavity 58 is arranged in the inner wall of the upper side of the sliding block cavity 16, the vertical screw rod 15 is led into the direction changing cavity 58 and is fixedly connected with an auxiliary direction changing gear 60, the rear end of the auxiliary direction changing gear 60 is engaged with a main direction changing gear 59, the rear end of the main direction changing gear 59 is fixedly connected with a sliding shaft 67, a sliding gear cavity 66 is arranged in the inner wall of the rear side of the direction changing cavity 58 with an upward opening, the sliding shaft 67 is introduced into the sliding gear cavity 66 and is fixedly connected with a sliding gear 68, the upper end of the sliding gear 68 is connected with the transmission device 102, a sliding block 21 is arranged in the sliding block cavity 16 in a sliding way, threaded through holes 18 are vertically arranged in the sliding blocks 21 in a penetrating way, the vertical screw rods 15 are connected with the threaded through holes 18 in a threaded way, heat conducting holes 20 are oppositely arranged in the openings of the sliding blocks 21 at the two sides, the heating wire 19 is fixedly arranged in the heat conduction hole 20, and threaded blind holes 23 are formed in the connecting plates 22 at two sides, with the openings being opposite to each other; the transmission device 102 drives the connecting plate 22 to slide, and also drives the sliding block 21 to slide, so as to perform hot stamping and coloring through the heating wire 19.
Beneficially, the transmission devices 102 on both sides include a gear cavity 45 arranged in the inner wall of the connecting plate cavity 17 far away from the center side, a sector gear 46 is arranged in the gear cavity 45 in a rotating manner, a lower gear 47 is arranged at the lower end of the sector gear 46 in a meshed manner, a transverse screw 48 is fixedly connected in the lower gear 47, the transverse screw 48 is introduced into the threaded blind hole 23 and is in threaded connection with the same, an upper gear 49 is arranged at the upper end of the sector gear 46 in a meshed manner, a main bevel gear 50 is fixedly connected at one end, close to the center, of the upper gear 49 on both sides, a secondary bevel gear 51 is arranged at the rear end of the main bevel gear 50 in a meshed manner, a main belt wheel 53 is fixedly connected at the front end of the secondary bevel gear 51 through a short shaft 52, a belt cavity 55 is arranged in the inner wall of the gear cavity 45 close to the center side in a communicated manner, and a lower inner, the transmission belt cavity 55 is rotatably provided with a fixed gear 57, the lower end of the fixed gear 57 can be meshed with the sliding gear 68, the fixed gear 57 is fixedly connected with a connecting shaft 56, the rear side of the fixed gear 57 is rotatably provided with a secondary pulley 69, the secondary pulley 69 is fixedly connected with the connecting shaft 56, a transmission belt 54 is connected between the secondary pulley 69 and the primary pulley 53, a connecting belt cavity 41 is arranged in the inner wall of one side of the gear cavity 45 away from the center, the connecting belt cavity 41 is rotatably provided with a power wheel 43, the power wheel 43 is fixedly connected with a motor shaft 42, one end of the motor shaft 42 close to the center is fixedly connected with the fan gear 46, the connecting belt cavity 41 is rotatably provided with a connecting wheel 63, the power wheel 43 is connected with the connecting wheel 63 through a connecting belt 44, the connecting belt cavities 41 at two sides are communicated with a long shaft cavity 65, and the connecting wheels 63 at two sides are fixedly connected with, a driving motor 40 is fixedly arranged in the inner wall of the left side of the connecting belt cavity 41 on the left side, and the motor shaft 42 on the left side is in power connection with the driving motor 40; the drive motor 40 is activated to drive the thermal printing apparatus 101 through belt drive and gear drive.
Beneficially, the switching device 103 includes communicating grooves 39 disposed in the inner walls of the upper and lower sides of the closed cavity 70, a sample plate cavity 13 is disposed in the communicating groove 39 in the inner wall of the side away from the center, a sample plate shaft 26 is rotatably disposed in the sample plate cavity 13, a connecting film 27 and a sample plate 28 are connected between the sample plate shafts 26, a shaft cavity 30 is disposed in the inner wall of the front side of the sample plate cavity 13 in communication, a synchronous belt cavity 34 and an upper belt wheel cavity 35 are disposed in the inner wall of the front side of the shaft cavity 30 in communication, the synchronous belt cavity 34 is communicated with the upper belt wheel cavity 35 and has an opening opposite to the opening, a switching motor 32 is fixedly disposed in the inner wall of the front side of the synchronous belt cavity 34, the sample plate shaft 26 on the lower side is dynamically connected to the switching motor 32, a lower belt wheel 31 is rotatably disposed in the synchronous belt cavity 34, the lower belt wheel 31 is fixedly connected to the sample plate shaft 26 on the lower side, and, the upper belt wheel 36 is fixedly connected with the sample plate shaft 26 on the upper side, and a synchronous belt 33 is connected between the lower belt wheel 31 and the upper belt wheel 36; the switching motor 32 is started to drive the sample plate shaft 26 through belt transmission, so that the connecting film 27 and the sample plate 28 can be driven to rotate and the sample plate 28 can be replaced.
Beneficially, the clamping device 100 comprises six mounting blocks 38 distributed in an annular array and fixedly connected to the circumferential inner wall of the closed cavity 70, a spring cavity 61 is formed in each mounting block 38, the mounting blocks are open towards the center, clamping blocks 37 are symmetrically arranged in each spring cavity 61 in the left and right directions, a clamping spring 62 is fixedly connected between one end, away from the center, of each clamping block 37 and the inner wall of the left side and the right side of each spring cavity 61, a T-shirt 29 is clamped between the clamping blocks 37 on the two sides, and a collecting membrane 14 is fixedly arranged in the closed cavity 70; the T-shirt 29 is clamped by the clamping blocks 37 under the elastic force of the clamping springs 62.
When the T-shirt heating device is used, the T-shirt 29 is clamped through the clamping block 37 under the action of the elastic force of the clamping spring 62, the conversion motor 32 is started, the template shaft 26 is driven through belt transmission, the connecting film 27 and the template 28 can be driven to rotate and the template 28 is replaced, the template 28 faces the T-shirt 29 at the moment, the driving motor 40 is started, the sector gears 46 on the left side and the right side are driven simultaneously through belt transmission, the sector gears 46 are meshed with the lower gear 47 and drive the transverse screw 48, the sector gears 46 are not meshed with the upper gear 49 at the moment, the connecting plate 22 is driven to slide through the transverse screw 48, the sector gears 46 are separated from the lower gear 47 when the sector gears 46 are meshed with the upper gear 49, the fixed gear 57 is meshed with the sliding gear 68 at the moment, the right end of the sliding block 21 extrudes the template 28 and enables the template 28 to abut against the T-shirt 29, the heating wire 19 starts to heat, the slide block 21 is further slid, and the pattern on the sample plate 28 is printed on the T-shirt 29 by the hot printing method.
The beneficial effects are that: the invention has simple structure and convenient operation, can carry out transmission twice to thermally print the patterns on the sample plate on the T-shirt uniformly, can change the sample plate quickly, and can avoid polluting the device because the coating dropped from the sample plate in the thermal printing mode is collected on the collecting film.
It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.