CN112030401A - Textile printing and dyeing drying fixed-length cutting equipment - Google Patents

Abstract

The invention discloses a textile printing, dyeing, drying and fixed-length cutting device which comprises a functional shell, wherein an opening cavity with a leftward opening is arranged in the functional shell, the right end of the functional shell is fixedly connected with a motor shell, a motor is fixedly connected in the motor shell, the left end of the motor is in power connection with a left output shaft, the left end of the left output shaft is fixedly connected with an upper cam, the lower end of the upper cam is in contact connection with a material pressing plate, the upper end of the functional shell is fixedly connected with a material spraying shell, and the lower end of the material spraying shell is fixedly connected with a material discharging shell. The whole process does not need human participation, and the efficiency and the cost are saved.

Description

Textile printing and dyeing drying fixed-length cutting equipment

Technical Field

The invention relates to the field of textile drying equipment, in particular to textile printing and dyeing drying fixed-length cutting equipment.

Background

The prior textile printing and dyeing needs to be leveled after being printed and dyed, and the textile needs to be dried after being leveled, the prior equipment needs to use two machines for printing and dyeing and drying, and the finished textile needs to be wound or folded and collected again, so that the efficiency is low, and manpower is needed for carrying the textile between each step.

Disclosure of Invention

In order to solve the problems, the embodiment designs a textile printing and dyeing drying fixed-length cutting device which comprises a functional shell, wherein an opening cavity with a leftward opening is formed in the functional shell, a motor shell is fixedly connected to the right end of the functional shell, a motor is fixedly connected to the motor shell, a left output shaft is in power connection with the left end of the motor, an upper cam is fixedly connected to the left end of the left output shaft, the lower end of the upper cam is in contact connection with a material pressing plate, a material spraying shell is fixedly connected to the upper end of the functional shell, a material discharging shell is fixedly connected to the lower end of the material spraying shell, a material spraying port with a downward opening is formed in the material discharging shell, a material spraying cavity is formed in the right side of the material spraying shell, the material pressing plate is in sliding connection with the material spraying cavity, a rotating belt is in contact connection with the left end of the material pressing plate, four small contact blocks are fixedly connected to the periphery of the rotating belt, and, the left end of two small contact blocks are in contact connection with a discharge plate, a discharge cavity is arranged on the left side in the material spraying shell, the discharge plate is connected in the discharge cavity in a sliding manner, rotating wheels which are symmetrical up and down and take the central line of the rotating belt as a symmetrical shaft are wound in the rotating belt, a right channel is connected between the discharge cavity and the material spraying cavity, a right one-way valve is fixedly connected in the right channel, the left end of the material spraying shell is fixedly connected with a material storing shell, a material storing cavity is arranged in the material storing shell, a material spraying shell is connected between the discharge cavity and the material storing cavity, a left one-way valve is fixedly connected in the material spraying shell, four eccentric wheels which are distributed in an array manner are fixedly connected on the periphery of a left output shaft, connecting shafts are rotatably connected between the two eccentric wheels on the left side and the two eccentric wheels on the right side, the lower end of the connecting shafts is fixedly connected with a, the vertical swing rod is connected in the sliding cavity in a sliding mode, the lower end of the vertical swing rod is hinged with a sliding plate, the lower end of the sliding shell is fixedly connected with a pushing plate, the lower end of the pushing plate is connected with a textile in a contact mode, the periphery of the left output shaft is rotatably connected with bilaterally symmetrical supports taking the central line of the pushing plate as a symmetrical axis, the upper ends of the supports are fixedly connected with the inner wall of the upper side of the open cavity, the lower end of each support is fixedly connected with a long spring, the lower end of the long spring is fixedly connected with the upper end of the pushing plate, the periphery of the left output shaft is fixedly connected with a front belt pulley, the left end of the functional shell is rotatably connected with a rear rotating shaft, the periphery of the rear rotating shaft is fixedly connected with an upper rear belt pulley, a transverse belt is connected between the upper rear belt pulley, the lower end of the vertical shaft is fixedly connected with a lower cam, the front end of the lower cam is in contact connection with a contact block, the lower end of the contact block is fixedly connected with a leveling block, the lower end of the leveling block is in contact connection with the upper end of the textile, the rear end of the leveling block is fixedly connected with a sliding thin shaft which is bilaterally symmetrical and takes the center line of the leveling block as a symmetrical shaft, the rear side of the opening cavity is provided with two small spring cavities which are bilaterally symmetrical and take the center line of the leveling block as a symmetrical shaft and are provided with forward openings, the sliding thin shaft is in sliding connection with the small spring cavities, the rear end of the sliding thin shaft is fixedly connected with a small spring, the rear end of the small spring is fixedly connected with the inner wall of the rear side of the small spring cavity, the motor is started, the left output shaft is further driven to rotate, the upper cam is further driven, the material pressing plate is further driven to reciprocate up and down, when the pressure plate moves downwards, the discharge plate moves upwards, so that the dye in the storage cavity is sucked into the discharge cavity through the left one-way valve and the left replenishing channel, and when the pressure plate moves upwards, the discharge plate moves downwards, so that the dye in the discharge cavity is replenished into the spray cavity through the right channel and the right one-way valve, and the function of continuously replenishing the dye is achieved; the left output shaft rotates to drive the eccentric wheel to rotate, further drive the connecting shaft to rotate, further drive the vertical oscillating bar to reciprocate up and down and simultaneously swing back and forth, further drive the vertical oscillating bar to reciprocate up and down, further drive the sliding shell to reciprocate up and down, further drive the vertical oscillating bar to reciprocate up and down, further drive the long spring to contract and stretch, and the vertical oscillating movement plays a role in throwing away redundant dyes on the textile and accelerates drying; the left output shaft rotates to drive the front belt pulley to rotate and further drive the transverse belt to rotate and further drive the upper rear belt pulley to rotate and further drive the rear rotating shaft to rotate and further drive the right bevel gear to rotate and further drive the upper bevel gear to rotate and further drive the vertical shaft to rotate and further drive the lower cam to rotate and further drive the contact block to reciprocate back and forth so as to drive the floating block to reciprocate back and forth and further drive the sliding thin shaft to reciprocate back and forth so as to drive the small spring to stretch and compress, so that the function of leveling the dye on the upper surface of the textile is achieved.

Beneficially, a front bevel gear is fixedly connected to the periphery of the vertical shaft, a rear bevel gear is connected to the rear end of the front bevel gear in a meshed manner, the rear bevel gear is fixedly connected to a concentric rear right pulley shaft, a gear cavity is arranged at the rear end of the function shell, the rear end of the rear right pulley shaft is rotatably connected to the inner wall of the rear side of the gear cavity, a rear right belt pulley is fixedly connected to the periphery of the rear right pulley shaft, a left rear pulley shaft is rotatably connected to the inner wall of the rear side of the gear cavity, a left rear pulley is fixedly connected to the periphery of the rear side of the left rear pulley shaft, a rear belt is connected between the left rear pulley and the rear right belt pulley, a driving gear is arranged on the front side of the left rear pulley shaft and is fixedly connected to the periphery of the left rear pulley shaft, a meshed gear is connected to the lower end of the driving gear in a meshed manner, a, a driven roller is fixedly connected with the front end of the driven gear shaft, a driving roller is fixedly connected with the front end of the left rear belt wheel shaft, one end of the driving roller, which is close to the driven roller, is in contact connection with a textile, a driven roller is arranged on the right side of the driven roller and the driving roller, the rear end of the driven roller is rotatably connected with the inner wall of the rear side of the open cavity, the left output shaft rotates to drive the front belt pulley to rotate, further drive the transverse belt to rotate, further drive the upper rear belt pulley to rotate, further drive the rear rotating shaft to rotate, further drive the right bevel gear to rotate, further drive the upper bevel gear to rotate, further drive the vertical shaft to rotate, further drive the front bevel gear to rotate, further drive the rear right belt wheel shaft to rotate, further drive the rear right belt pulley to, and then the rear belt is driven to rotate, so that the left rear belt pulley is driven to rotate, the left rear belt pulley shaft is driven to rotate, the driving gear is driven to rotate, the meshing gear is driven to rotate, the driven gear shaft is driven to rotate, the driven roller and the driving roller are driven to rotate in opposite directions, and therefore the textile is driven to move rightwards, and the function of conveying the textile is achieved.

Beneficially, a lower left belt pulley is fixedly connected to the periphery of the lower side of the vertical shaft, a belt pulley cavity is arranged on the lower side of the function shell, a fan shaft is rotatably connected to the lower side of the belt pulley cavity, a right lower belt pulley is fixedly connected to the periphery of the fan shaft, a lower belt is connected between the right lower belt pulley and the lower left belt pulley, a fan shell is fixedly connected to the lower end of the opening cavity, a fan cavity is arranged in the fan shell, the fan shaft is rotatably connected in the fan shell, two fan blades are fixedly connected to the periphery of the fan shell, an air outlet shell is fixedly connected to the upper end of the fan shell, an air outlet which is communicated up and down is arranged in the air outlet shell, the vertical shaft rotates to drive the lower left belt pulley to rotate, further the lower belt pulley is driven to rotate, further the right lower belt pulley is driven to rotate, further the fan shaft is driven to rotate, further, therefore, the flowing gas is blown out of the fan cavity through the air outlet, so that the dye on the textile is blown, and the function of accelerating drying is achieved.

Beneficially, the sliding block is in threaded connection with the periphery of the right side of the left output shaft, threads on the left output shaft are bidirectional threads, reciprocating movement of the sliding block in the left-right direction can be achieved through unidirectional rotation of the left output shaft, a blade cavity with a leftward opening is formed in the right end of the function shell, a blade is connected in the blade cavity in a sliding mode, the lower end of the blade is fixedly connected with a right spring, the lower end of the right spring is fixedly connected onto the inner wall of the lower side of the blade cavity, a cloth outlet which is communicated in the left-right direction is formed in the right end of the function shell, textiles pass through the cloth outlet, the left output shaft rotates to further drive the sliding block to move slowly in the left-right reciprocating mode, and when the sliding block is in contact with the blade, the blade is.

Beneficially, a driving belt pulley is in power connection with the rear end of the motor, a right triangular seat is arranged on the right side of the function shell, a collecting barrel shaft is in rotary connection with the right triangular seat, a lower belt pulley is fixedly connected with the rear end of the collecting barrel shaft, an inclined belt is connected between the lower belt pulley and the driving belt pulley, a finished product winding barrel is fixedly connected with the front end of the collecting barrel shaft, the periphery of the finished product winding barrel is wound on the lower end of the textile, the motor is started to drive the driving belt pulley to rotate, further the inclined belt is driven to rotate, further the lower belt pulley is driven to rotate, further the collecting barrel shaft is driven to rotate, further the finished product winding barrel is driven to rotate, further the textile is driven to move rightwards and is wound on the periphery of the finished product winding barrel, and therefore the function of.

Advantageously, a left triangular seat is arranged on the left side of the functional shell, an unfinished winding drum is rotatably connected in the left triangular seat, a textile is wound and connected on the periphery of the unfinished winding drum, and the unfinished winding drum plays a role in winding the textile to be printed and dyed.

Advantageously, the upper end of the sliding plate is fixedly connected with a swing spring, the upper end of the swing spring is fixedly connected with the inner wall of the upper side of the sliding cavity, the upper end of the pressure plate is fixedly connected with a return spring, the upper end of the return spring is fixedly connected with the inner wall of the upper side of the material spraying cavity, the return spring has the function of returning the pressure plate, and the swing spring has the function of returning the sliding plate.

Beneficially, the fixed block has been linked firmly in the spout mouth, the fixed block lower extreme has linked firmly the blowout spring, the blowout spring lower extreme has linked firmly the putty ball, works as the dyestuff that spouts in the material intracavity passes through when the spout mouth spouts, and then drive the putty ball moves down to make spun dyestuff more even, the blowout spring has played and has reset the function of putty ball.

Beneficially, a cover is slidably connected to the upper end of the storage shell, a left guide wheel and a right guide wheel are rotatably connected to the inner wall of the rear side, the cover has a function of preventing external pollutants from entering the storage cavity, and the left guide wheel and the right guide wheel have a guiding function.

The invention has the beneficial effects that: the textile needing printing and dyeing can be automatically transmitted into the open cavity, the dye is sprayed on the surface of the textile, the dye on the surface of the textile is subsequently smoothed, the textile after the dye is smoothed is shaken to accelerate the drying of the dye, the surface of the dye is dried to accelerate the drying of the dye, the textile is cut at a fixed length, the length of the finished textile is fixed, people do not need to participate in the whole process, and the efficiency and the cost are saved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of the overall structure of a textile printing, dyeing, drying, fixed-length cutting device of the present invention;

FIG. 2 is a schematic view of the structure A-A of FIG. 1;

FIG. 3 is a schematic diagram of B-B of FIG. 1;

FIG. 4 is a schematic diagram of the structure of C-C in FIG. 1;

FIG. 5 is an enlarged schematic view of D of FIG. 1;

FIG. 6 is an enlarged schematic view of E in FIG. 1;

FIG. 7 is an enlarged view of F in FIG. 1;

fig. 8 is a schematic view of the structure of G-G in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-8, wherein for ease of description the orientations described below are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The textile printing, dyeing, drying and length-fixing cutting equipment comprises a functional shell 11, wherein an opening cavity 12 with a leftward opening is formed in the functional shell 11, a motor shell 67 is fixedly connected to the right end of the functional shell 11, a motor 97 is fixedly connected to the inside of the motor shell 67, the left end of the motor 97 is in power connection with a left output shaft 31, an upper cam 80 is fixedly connected to the left end of the left output shaft 31, the lower end of the upper cam 80 is in contact connection with a material pressing plate 81, a material spraying shell 24 is fixedly connected to the upper end of the functional shell 11, the lower end of the material spraying shell 24 is fixedly connected with a material discharging shell 87, a material spraying port 86 with a downward opening is formed in the material discharging shell 87, a material spraying cavity 82 is formed in the right side of the material spraying shell 24, the material pressing plate 81 is in sliding connection with the material spraying cavity 82, a rotating belt 93 is in contact connection with the left end of the material pressing plate 81, four small contact blocks 92 are fixedly connected to, two small contact blocks 92 at the left end are in contact connection with a discharge plate 91, a discharge cavity 90 is arranged at the left side in the material spraying shell 24, the discharge plate 91 is connected in the discharge cavity 90 in a sliding manner, a rotating wheel 94 which is symmetrical up and down and takes the central line of the rotating belt 93 as a symmetrical axis is wound in the rotating belt 93, a right channel 89 is connected between the discharge cavity 90 and the material spraying cavity 82, a right one-way valve 88 is fixedly connected in the right channel 89, the left end of the material spraying shell 24 is fixedly connected with a material storing shell 21, a material storing cavity 22 is arranged in the material storing shell 21, a material spraying shell 24 is connected between the discharge cavity 90 and the material storing cavity 22, a left one-way valve 20 is fixedly connected in the material spraying shell 24, four eccentric wheels 72 which are distributed in an array manner are fixedly connected on the periphery of the left output shaft 31, two eccentric wheels 72 at the left side and two eccentric wheels 72 at the right side are rotatably connected with a connecting shaft 71, and the, the vertical swing rod 73 is connected with a sliding shell 76 in a sliding way, a sliding cavity 75 is arranged in the sliding shell 76, the vertical swing rod 73 is connected in the sliding cavity 75 in a sliding way, a sliding plate 74 is hinged at the lower end of the vertical swing rod 73, a pushing plate 77 is fixedly connected at the lower end of the sliding shell 76, a textile 17 is connected at the lower end of the pushing plate 77 in a contact way, a bracket 70 which is symmetrical left and right and takes the central line of the pushing plate 77 as a symmetrical axis is rotatably connected at the periphery of the left output shaft 31, the upper end of the bracket 70 is fixedly connected with the upper inner wall of the open cavity 12, a long spring 79 is fixedly connected at the lower end of the bracket 70, the lower end of the long spring 79 is fixedly connected at the upper end of the pushing plate 77, a front belt pulley 30 is fixedly connected at the periphery of the left output shaft 31, a rear rotating shaft 58 is rotatably connected at the left end, the left end of the rear rotating shaft 58 is fixedly connected with a right bevel gear 28, the lower end of the right bevel gear 28 is connected with an upper bevel gear 27 in a meshing manner, the lower end of the upper bevel gear 27 is fixedly connected with a vertical shaft 26, the lower end of the vertical shaft 26 is fixedly connected with a lower cam 45, the front end of the lower cam 45 is connected with a contact block 46 in a contacting manner, the lower end of the contact block 46 is fixedly connected with a smoothing block 47, the lower end of the smoothing block 47 is connected with the upper end of the textile 17 in a contacting manner, the rear end of the smoothing block 47 is fixedly connected with bilaterally symmetrical sliding thin shafts 49 which take the central line of the smoothing block 47 as a symmetrical shaft, the rear side of the open cavity 12 is provided with two small spring cavities 53 which are bilaterally symmetrical and have forward openings and take the central line of the smoothing block 47 as a symmetrical shaft, the sliding thin shafts 49 are connected in the small spring cavities 53 in a sliding manner, the rear end of the sliding thin shaft 49 is, the motor 97 is started, so that the left output shaft 31 is driven to rotate, the upper cam 80 is driven to rotate, the pressure plate 81 is driven to move up and down in a reciprocating manner, the dye in the material spraying cavity 82 is sprayed onto the textile 17 through the material spraying opening 86, the material discharging plate 91 moves up while the pressure plate 81 moves down, so that the dye in the material storage cavity 22 is sucked into the material discharging cavity 90 through the left one-way valve 20 and the left supplementing channel 23, and when the pressure plate 81 moves up, the material discharging plate 91 moves down, so that the dye in the material discharging cavity 90 is supplemented into the material spraying cavity 82 through the right channel 89 and the right one-way valve 88, and the function of continuously supplementing the dye is achieved;

the left output shaft 31 rotates to drive the eccentric wheel 72 to rotate, and further drive the connecting shaft 71 to rotate, so as to drive the vertical oscillating bar 73 to reciprocate up and down and simultaneously oscillate back and forth, so as to drive the vertical oscillating bar 73 to reciprocate up and down, and further drive the sliding shell 76 to reciprocate up and down, so as to drive the pushing plate 77 to reciprocate up and down, so as to drive the long spring 79 to contract and stretch, and the pushing plate 77 reciprocates up and down to achieve the function of throwing away the redundant dyes on the textile 17, and the drying is accelerated;

the left output shaft 31 rotates to drive the front belt pulley 30 to rotate, so as to drive the transverse belt 29 to rotate, so as to drive the upper rear belt pulley 100 to rotate, so as to drive the rear rotating shaft 58 to rotate, so as to drive the right bevel gear 28 to rotate, so as to drive the upper bevel gear 27 to rotate, so as to drive the vertical shaft 26 to rotate, so as to drive the lower cam 45 to rotate, so as to drive the contact block 46 to reciprocate back and forth, so as to drive the leveling block 47 to reciprocate back and forth, so as to drive the sliding thin shaft 49 to reciprocate back and forth, so as to drive the small spring 54 to stretch and compress, so that the function of leveling the dye on the upper surface of the textile 17 is achieved.

Beneficially, the outer periphery of the vertical shaft 26 is fixedly connected with a front bevel gear 19, the rear end of the front bevel gear 19 is connected with a rear bevel gear 18 in a meshing manner, the rear bevel gear 18 is fixedly connected with a concentric rear right pulley shaft 56, the rear end of the functional shell 11 is provided with a gear cavity 62, the rear end of the rear right pulley shaft 56 is rotatably connected with the inner wall of the rear side of the gear cavity 62, the outer periphery of the rear right pulley shaft 56 is fixedly connected with a rear right pulley 55, the inner wall of the rear side of the gear cavity 62 is rotatably connected with a left rear pulley shaft 60, the outer periphery of the left rear pulley shaft 60 is fixedly connected with a left rear pulley 59, a rear belt 57 is connected between the left rear pulley 59 and the rear right pulley 55, the front side of the left rear pulley shaft 60 is provided with a driving gear 64, the driving gear 64 is fixedly connected with the outer periphery of the left rear pulley shaft 60, the lower end of the driving gear 64, the rear end of the driven gear shaft 61 is rotatably connected to the inner wall of the rear side of the gear cavity 62, the front end of the driven gear shaft 61 is fixedly connected with a driven roller 13, the front end of the left rear pulley shaft 60 is fixedly connected with a driving roller 14, one end of the driving roller 14, which is close to the driven roller 13, is in contact connection with a textile 17, the driven roller 13 and the right side of the driving roller 14 are provided with a driven roller 52, the rear end of the driven roller 52 is rotatably connected to the inner wall of the rear side of the open cavity 12, the left output shaft 31 rotates to drive the front pulley 30 to rotate, further drive the transverse belt 29 to rotate, further drive the upper rear pulley 100 to rotate, further drive the rear rotating shaft 58 to rotate, further drive the right bevel gear 28 to rotate, further drive the upper bevel gear 27 to rotate, further drive the vertical shaft 26 to rotate, further drive the front bevel gear 19 to, and then the rear bevel gear 18 is driven to rotate, and further the rear right pulley shaft 56 is driven to rotate, and further the rear right pulley 55 is driven to rotate, and further the rear belt 57 is driven to rotate, and further the left rear pulley 59 is driven to rotate, and further the left rear pulley shaft 60 is driven to rotate, and further the driving gear 64 is driven to rotate, and further the meshing gear 63 is driven to rotate, and further the driven gear shaft 61 is driven to rotate, and further the driven roller 13 and the driving roller 14 are driven to rotate in opposite directions, so that the textiles 17 are driven to move rightwards, and therefore the function of conveying the textiles 17 is achieved.

Beneficially, the periphery of the lower side of the vertical shaft 26 is fixedly connected with a lower left belt pulley 50, the lower side of the function shell 11 is provided with a belt pulley cavity 51, the lower side of the belt pulley cavity 51 is rotatably connected with a fan shaft 41, the periphery of the fan shaft 41 is fixedly connected with a right lower belt pulley 42, a lower belt 48 is connected between the right lower belt pulley 42 and the lower left belt pulley 50, the lower end of the opening cavity 12 is fixedly connected with a fan shell 44, a fan cavity 43 is arranged in the fan shell 44, the fan shaft 41 is rotatably connected in the fan shell 44, the periphery of the fan shell 10 is fixedly connected with two fan blades 40, the upper end of the fan shell 44 is fixedly connected with an air outlet shell 39, an air outlet 38 which is communicated up and down is arranged in the air outlet shell 39, the vertical shaft 26 rotates to further drive the lower left belt pulley 50 to rotate, further drive the lower belt 48 to rotate, further drive the right lower belt pulley 42 to rotate, the fan blade 40 is driven to rotate, the fan blade 40 makes air flow, and therefore the flowing air is blown out of the fan cavity 43 through the air outlet 38, so that the dye on the textile 17 is blown, and the function of accelerating drying is achieved.

Advantageously, a sliding block 96 is screwed on the outer periphery of the right side of the left output shaft 31, the thread on the left output shaft 31 is a bidirectional thread, the slide block 96 can reciprocate left and right by the unidirectional rotation of the left output shaft 31, the right end of the functional shell 11 is provided with a blade cavity 99 with a left opening, a blade 65 is connected in the blade cavity 99 in a sliding way, the lower end of the blade 65 is fixedly connected with a right spring 98, the lower end of the right spring 98 is fixedly connected with the inner wall of the lower side of the blade cavity 99, the right end of the functional shell 11 is provided with a cloth outlet 35 which is through from left to right, when the textile 17 passes through the cloth outlet 35 and the left output shaft 31 rotates, and the slide block 96 is driven to reciprocate slowly left and right, and when the slide block 96 is in contact with the blade 65, and the blade 65 is driven to move downwards slowly, so that the function of cutting off the textile 17 is achieved.

Advantageously, the rear end of the motor 97 is in power connection with a driving belt pulley 66, the right side of the functional shell 11 is provided with a right triangular seat 37, a collecting cylinder shaft 69 is rotationally connected in the right triangular seat 37, the rear end of the collecting cylinder shaft 69 is fixedly connected with a lower belt wheel 68, an inclined belt 34 is connected between the lower belt pulley 68 and the driving belt pulley 66, the front end of the collecting drum shaft 69 is fixedly connected with a finished product drum 36, the periphery of the finished product roll 36 is wound on the lower end of the textile 17, the motor 97 is started, thereby driving the driving pulley 66 to rotate, and further driving the inclined belt 34 to rotate, and further driving the lower pulley 68 to rotate, thereby driving the collecting drum shaft 69 to rotate, further driving the finished product drum 36 to rotate, and then the textile 17 is driven to move rightwards and is wound to the periphery of the finished product winding drum 36, so that the function of winding, collecting, printing, dyeing and drying the finished textile 17 is achieved.

Advantageously, a left triangular seat 15 is arranged on the left side of the functional shell 11, an unfinished winding drum 16 is rotatably connected in the left triangular seat 15, a textile 17 is wound and connected on the periphery of the unfinished winding drum 16, and the unfinished winding drum 16 plays a role in winding the textile 17 to be printed and dyed.

Advantageously, the sliding plate 74 is fixedly connected with a swing spring 78 at the upper end, the swing spring 78 is fixedly connected with the inner wall of the upper side of the sliding chamber 75 at the upper end, the pressure plate 81 is fixedly connected with a return spring 95 at the upper end, the return spring 95 is fixedly connected with the inner wall of the upper side of the material spraying chamber 82 at the upper end, the return spring 95 plays a role of returning the pressure plate 81, and the swing spring 78 plays a role of returning the sliding plate 74.

Beneficially, fixed block 83 is fixedly connected in the spout 86, the lower end of fixed block 83 is fixedly connected with a spout spring 84, the lower end of spout spring 84 is fixedly connected with a blocking ball 85, when the dye in the spout chamber 82 is sprayed out through the spout 86, the blocking ball 85 is driven to move downwards, so that the sprayed dye is more uniform, and the spout spring 84 has the function of resetting the blocking ball 85.

Advantageously, a cover 25 is slidably connected to the upper end of the storage case 21, a left guide wheel 32 and a right guide wheel 33 are rotatably connected to the inner wall of the rear side of the storage case 12, the cover 25 functions to prevent external pollutants from entering the storage chamber 22, and the left guide wheel 32 and the right guide wheel 33 function to guide.

The use steps of the textile printing, dyeing, drying and cutting-to-length device herein will be described in detail with reference to fig. 1 to 8: in the initial state, the sliding block 96 is not in contact with the blade 65, and the material pressing plate 81 is at the uppermost end of the material spraying cavity 82; the motor 97 is started, the left output shaft 31 is driven to rotate, the upper cam 80 is driven to rotate, the material pressing plate 81 is driven to move up and down in a reciprocating mode, dye in the material spraying cavity 82 is sprayed onto the textile 17 through the material spraying opening 86, the material discharging plate 91 moves upwards while the material pressing plate 81 moves downwards, the dye in the material storage cavity 22 is sucked into the material discharging cavity 90 through the left one-way valve 20 and the left supplementing channel 23, and when the material pressing plate 81 moves upwards, the material discharging plate 91 moves downwards, so that the dye in the material discharging cavity 90 is supplemented into the material spraying cavity 82 through the right channel 89 and the right one-way valve 88, and the function of continuously supplementing the dye is achieved; the left output shaft 31 rotates to drive the eccentric wheel 72 to rotate, and further drive the connecting shaft 71 to rotate, and further drive the vertical swing rod 73 to reciprocate up and down and simultaneously swing back and forth, so as to drive the vertical swing rod 73 to reciprocate up and down, further drive the sliding shell 76 to reciprocate up and down, further drive the pushing plate 77 to reciprocate up and down, further drive the long spring 79 to contract and stretch, and the pushing plate 77 reciprocates up and down to play a role in throwing away redundant dyes on the textile 17, and accelerate drying; the left output shaft 31 rotates to drive the front belt pulley 30 to rotate, and further drive the transverse belt 29 to rotate, and further drive the upper rear belt pulley 100 to rotate, and further drive the rear rotating shaft 58 to rotate, and further drive the right bevel gear 28 to rotate, and further drive the upper bevel gear 27 to rotate, and further drive the vertical shaft 26 to rotate, and further drive the lower cam 45 to rotate, and further drive the contact block 46 to reciprocate back and forth, and further drive the smoothing block 47 to reciprocate back and forth, and further drive the sliding thin shaft 49 to reciprocate back and forth, and further drive the small spring 54 to stretch and compress, so that the function of smoothing the dye on the upper surface of the textile 17 is achieved; the left output shaft 31 rotates to drive the front belt pulley 30 to rotate, and further drive the transverse belt 29 to rotate, thereby driving the upper rear belt pulley 100 to rotate, further driving the rear rotating shaft 58 to rotate, further driving the right bevel gear 28 to rotate, thereby driving the upper bevel gear 27 to rotate, further driving the vertical shaft 26 to rotate, further driving the front bevel gear 19 to rotate, thereby driving the rear bevel gear 18 to rotate, further driving the rear right pulley shaft 56 to rotate, further driving the rear right pulley 55 to rotate, thereby driving the rear belt 57 to rotate, and further driving the left rear belt pulley 59 to rotate, and further driving the left rear pulley shaft 60 to rotate, thereby driving the driving gear 64 to rotate and further driving the meshing gear 63 to rotate and further driving the driven gear shaft 61 to rotate, further driving the driven roller 13 and the driving roller 14 to rotate oppositely, so as to drive the textile 17 to move rightwards, thereby playing a role of conveying the textile 17; the vertical shaft 26 rotates to drive the lower left belt pulley 50 to rotate, further drive the lower belt 48 to rotate, further drive the right lower belt pulley 42 to rotate, further drive the fan shaft 41 to rotate, further drive the fan blade 40 to rotate, the fan blade 40 enables air to flow, and therefore the flowing air is blown out of the fan cavity 43 through the air outlet 38, so that the dye on the textile 17 is blown, and the function of accelerating drying is achieved; when left output shaft 31 rotates, and then drive sliding block 96 and control reciprocal slow movement, when sliding block 96 and blade 65 contact, and then drive blade 65 and slowly move down, thereby played the function of cutting off fabrics 17, starter motor 97, and then drive pulley 66 and rotate, and then drive oblique belt 34 and rotate, and then drive band pulley 68 and rotate down, and then drive collecting cylinder axle 69 and rotate, and then drive finished product reel 36 and rotate, and then drive fabrics 17 and move to the right and convolute to the finished product reel 36 periphery, thereby played the function of coiling collection printing and dyeing the fabrics 17 that finishes of drying.

The invention has the beneficial effects that: the invention can automatically transmit the textile needing printing and dyeing into the open cavity, the dye is sprayed on the surface of the textile, the dye on the surface of the textile is subsequently smoothed, the textile after the dye is smoothed is shaken to accelerate the drying of the dye, the surface of the dye is dried to accelerate the drying of the dye, and the textile is cut at a fixed length, so that the length of the finished textile is fixed, no human intervention is needed in the whole process, and the efficiency and the cost are saved.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (9)

1. The utility model provides a textile printing and dyeing stoving fixed length cutting equipment, includes the function shell, its characterized in that: the functional shell is internally provided with an opening cavity with a leftward opening, the right end of the functional shell is fixedly connected with a motor shell, a motor is fixedly connected in the motor shell, the left end of the motor is in power connection with a left output shaft, the left end of the left output shaft is fixedly connected with an upper cam, the lower end of the upper cam is in contact connection with a pressure plate, the upper end of the functional shell is fixedly connected with a material spraying shell, the lower end of the material spraying shell is fixedly connected with a material discharging shell, a material spraying port with a downward opening is arranged in the material discharging shell, the right side in the material spraying shell is provided with a material spraying cavity, the pressure plate is in sliding connection in the material spraying cavity, the left end of the pressure plate is in contact connection with a rotating belt, the periphery of the rotating belt is fixedly connected with four small contact blocks, the two small contact blocks at the right end are in contact connection with the left end of the pressure plate, the two small contact blocks at the left end, the rotary belt is internally wound with vertically symmetrical rotary wheels taking the central line of the rotary belt as a symmetrical shaft, a right channel is connected between the discharging cavity and the spraying cavity, a right one-way valve is fixedly connected in the right channel, a material storage shell is fixedly connected at the left end of the material spraying shell, a material storage cavity is arranged in the material storage shell, a material spraying shell is connected between the discharging cavity and the material storage cavity, a left one-way valve is fixedly connected in the material spraying shell, four eccentric wheels distributed in an array are fixedly connected at the periphery of a left output shaft, a connecting shaft is rotatably connected between the two eccentric wheels at the left side and the two eccentric wheels at the right side, a vertical swing rod is fixedly connected at the lower end of the connecting shaft, the vertical swing rod is slidably connected with a sliding shell, a sliding cavity is arranged in the sliding shell, the vertical swing rod is slidably connected in the sliding cavity, a sliding plate is hinged at the lower end, the lower end of the pushing plate is in contact connection with a textile, the periphery of the left output shaft is rotationally connected with bilaterally symmetrical supports taking the central line of the pushing plate as a symmetrical axis, the upper end of each support is fixedly connected with the inner wall of the upper side of the opening cavity, the lower end of each support is fixedly connected with a long spring, the lower end of the long spring is fixedly connected with the upper end of the pushing plate, the periphery of the left output shaft is fixedly connected with a front belt pulley, the left end of the functional shell is rotationally connected with a rear rotating shaft, the periphery of the rear rotating shaft is fixedly connected with an upper rear belt pulley, a transverse belt is connected between the upper rear belt pulley and the front belt pulley, the left end of the rear rotating shaft is fixedly connected with a right bevel gear, the lower end of the right bevel gear is in meshing connection with an upper bevel gear, the lower end of the upper bevel gear is fixedly, the utility model discloses a floating block, including floating block, textile, opening chamber, little spring chamber, floating block lower extreme contact is connected in the fabrics upper end, the floating block rear end link firmly have with the thin axle of slip of the bilateral symmetry of floating block central line as the symmetry axis, opening chamber rear side be equipped with two with the horizontal symmetry's of floating block central line is the little spring chamber that the opening is preceding, the thin axle sliding connection of slip is in little spring chamber, the thin axle rear end link firmly has little spring, little spring rear end link firmly on the rear side inner wall in little spring chamber.

2. The textile printing and dyeing drying fixed-length cutting device as claimed in claim 1, characterized in that: vertical axis downside periphery has linked firmly lower left belt pulley, the function shell downside is equipped with the pulley chamber, pulley chamber downside rotates and is connected with the fan axle, fan axle periphery has linked firmly lower right belt pulley, lower right belt pulley with be connected with down the belt between the left belt pulley, opening chamber lower extreme has linked firmly the fan shell, be equipped with fan chamber in the fan shell, the fan axle rotates to be connected in the fan shell, the periphery has linked firmly two fan blades, fan shell upper end has linked firmly the air-out shell, be equipped with the air outlet of lining up from top to bottom in the air-out shell.

3. A textile printing and dyeing drying cut-to-length apparatus as claimed in claim 2, characterized in that: vertical axis downside periphery has linked firmly lower left belt pulley, the function shell downside is equipped with the pulley chamber, pulley chamber downside rotates and is connected with the fan axle, fan axle periphery has linked firmly lower right belt pulley, lower right belt pulley with be connected with down the belt between the left belt pulley, opening chamber lower extreme has linked firmly the fan shell, be equipped with fan chamber in the fan shell, the fan axle rotates to be connected in the fan shell, the periphery has linked firmly two fan blades, fan shell upper end has linked firmly the air-out shell, be equipped with the air outlet of lining up from top to bottom in the air-out shell.

4. The textile printing and dyeing drying fixed-length cutting device as claimed in claim 1, characterized in that: left side output shaft right side periphery threaded connection has the sliding block, the function shell right-hand member is equipped with the blade chamber that the opening is left, sliding connection has the blade in the blade chamber, the blade lower extreme has linked firmly right spring, right side spring lower extreme links firmly on the inner wall of blade chamber downside, the cloth outlet that link up about function shell right-hand member is equipped with, the fabrics passes through cloth outlet.

5. The textile printing and dyeing drying fixed-length cutting device as claimed in claim 1, characterized in that: the utility model discloses a textile winding machine, including motor, function shell, collecting cylinder axle, belt pulley, oblique belt, collecting cylinder axle front end, motor rear end power is connected with driving pulley, the function shell right side is equipped with right triangle seat, the right triangle seat internal rotation is connected with the collecting cylinder axle, collecting cylinder axle rear end rigid coupling has lower band pulley, lower band pulley with be connected with oblique belt between the driving pulley, collecting cylinder axle front end rigid coupling has the completion article reel, completion article reel periphery wind in the fabrics lower extreme.

6. The textile printing and dyeing drying fixed-length cutting device as claimed in claim 5, characterized in that: the left side of the function shell is provided with a left triangular seat, and an unfinished winding drum is rotationally connected in the left triangular seat.

7. The textile printing and dyeing drying fixed-length cutting device as claimed in claim 1, characterized in that: the upper end of the sliding plate is fixedly connected with a swing spring, the upper end of the swing spring is fixedly connected with the inner wall of the upper side of the sliding cavity, the upper end of the material pressing plate is fixedly connected with a return spring, and the upper end of the return spring is fixedly connected with the inner wall of the upper side of the material spraying cavity.

8. The textile printing and dyeing drying fixed-length cutting device as claimed in claim 1, characterized in that: the material spraying device is characterized in that a fixed block is fixedly connected in the material spraying port, the lower end of the fixed block is fixedly connected with a spraying spring, and the lower end of the spraying spring is fixedly connected with a material blocking ball.

9. The textile printing and dyeing drying fixed-length cutting device as claimed in claim 1, characterized in that: the storage shell upper end sliding connection has the lid, the rear side inner wall rotates and is connected with left leading wheel and right leading wheel.

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