CN116641203A

CN116641203A - Dyeing singeing machine

Info

Publication number: CN116641203A
Application number: CN202310608522.9A
Authority: CN
Inventors: 陈万明; 王灏洁; 徐华君; 王力; 徐苏捷; 周志钢; 王程; 史元庆
Original assignee: Zhejiang Hanyu Technology Co ltd
Current assignee: Zhejiang Hanyu Technology Co ltd
Priority date: 2023-05-27
Filing date: 2023-05-27
Publication date: 2023-08-25
Anticipated expiration: 2043-05-27
Also published as: CN116641203B

Abstract

The invention discloses a dyeing singeing machine, comprising: the middle part of the equipment shell is provided with a first reversing roller, a first rotating roller, a second reversing roller, a fourth reversing roller and a fifth reversing roller in a rotating manner respectively, and the middle part of the equipment shell is movably provided with a woven cloth; and the bristle assemblies are arranged at the tops of the first rotating roller and the second rotating roller and are used for protruding the wool on the woven cloth to the surface of the woven cloth in a friction mode. According to the invention, the textile cloth is blown by high-speed air flow sprayed by the air outlet box, so that the textile cloth continuously swings and shakes dust, meanwhile, the first dust collection pipe and the second dust collection pipe at the top and the bottom do not move relatively at the same time, the textile cloth is knocked, dust is separated from the surface of the textile cloth in an accelerating way, and the first dust collection pipe and the second dust collection pipe absorb the shaked dust around the textile cloth, so that the situation that the appearance of the textile cloth is influenced by more dust and the workload of subsequent rinsing of the textile cloth is increased is avoided.

Description

Dyeing singeing machine

Technical Field

The invention relates to the technical field of textile equipment, in particular to a dyeing singeing machine.

Background

When the fiber is rubbed in the spinning warp and weaving process, a plurality of short and loose fibers are exposed on the surface of the yarn, a layer of short fibers is raised on the surface of the fabric, if the fabric is leveled, the layer of fluff with different lengths can be seen along the cloth cover when the fabric is lifted in front of eyes, the layer of fluff not only affects the smoothness of the fabric and is easy to be stained with dust, but also generates various defects in the printing and dyeing process, so that cotton, hemp fabrics, terylene, vinylon, acrylic fibers, cotton blended fabrics and the like are singed by a singeing machine before desizing, boiling and bleaching.

However, in the prior art, after singeing, the fibers on the fabric are ignited, so that the ignited fibers need to be extinguished, and a common mode is to attach the fabric by adopting cloth wetted by water and drive the fabric, so that the burnt fibers are easily stuck on the fabric, the attractiveness of the fabric is affected, and the workload of subsequent rinsing is increased.

Disclosure of Invention

The invention aims to provide a dyeing singeing machine to solve the problems that fibers after burning are stuck on fabrics, the attractiveness of the fabrics is affected, and the workload of subsequent rinsing is increased.

A dye singeing machine comprising:

the middle part of the equipment shell is provided with a first reversing roller, a first rotating roller, a second reversing roller, a fourth reversing roller and a fifth reversing roller in a rotating manner respectively, and the middle part of the equipment shell is movably provided with a woven cloth;

the bristle assemblies are arranged at the tops of the first rotating roller and the second rotating roller and are used for enabling the wool on the woven cloth to protrude out of the surface of the woven cloth in a friction mode;

the dust blowing component is arranged on the surface of the textile fabric and is used for driving the textile fabric to swing randomly and shake off dust continuously by adopting high-speed airflow;

the dust collection assembly is arranged at the bottom of the dust blowing assembly and is used for shaking the textile cloth in a beating mode and absorbing dust around the textile cloth;

the driving component is arranged at one end of the equipment shell and used for driving the dust collection component to work.

Preferably, the textile fabric is in transmission connection with the surfaces of the first reversing roller, the second reversing roller, the third reversing roller, the fourth reversing roller and the fifth reversing roller, the inner walls of the equipment shell corresponding to the positions of the second reversing roller and the third reversing roller are respectively and fixedly connected with singeing fire holes, so that the singeing fire holes singe the textile fabric, the front end and the rear end of the first reversing roller, the front end and the rear end of the second reversing roller, the front end and the rear end of the fourth reversing roller and the rear end of the fifth reversing roller are respectively and fixedly connected with first gears, the surfaces of the first gears are respectively in transmission connection with chains, and the first reversing rollers are driven by a servo motor.

Preferably, the brush hair subassembly includes movable tube, the quantity of movable tube is two, and two movable tubes are movable respectively cup joints in the surface of first rotor and second rotor, the drive slot has all been seted up on the surface of first rotor and second rotor, the inner wall swing joint of drive slot has the actuating post, actuating post fixed connection is at the inner wall of movable tube, the surface swing joint of movable tube has fixed pipe, both ends all are fixedly connected with spacing pipe respectively around the fixed pipe, and spacing pipe fixed connection is at the inner wall of equipment casing, the diameter of spacing pipe is greater than the diameter of fixed pipe to make spacing pipe play the guide effect to the conveying of weaving cloth.

Preferably, the fixed pipe's fixed surface is connected with a plurality of first rubber strips, the fixed surface of movable pipe is connected with a plurality of connecting pipes, the connecting pipe activity runs through and extends to the outside of fixed pipe, the one end fixedly connected with second rubber strip of movable pipe position is kept away from to the connecting pipe, and second rubber strip and first rubber strip crisscross setting each other, the surface of first rubber strip and the surface of second rubber strip all coarse setting.

Preferably, the dust blowing component comprises a dust blowing box, the dust blowing box is located on the surface of the textile fabric corresponding to the positions of the fourth reversing roller and the fifth reversing roller, the textile fabric penetrates through and extends to the upper end and the lower end of the dust blowing box, the top of the inner wall of the dust blowing box is fixedly connected with two air outlet boxes, the two air outlet boxes are symmetrically arranged on the vertical axis of the midpoint of the dust blowing box, the air outlet boxes are frame-shaped structures which are open towards one end of the textile fabric, the width of the opening position of the air outlet boxes is 0.5CM, an inclined baffle is arranged in the middle of the bottom of the inner wall of the air outlet boxes, a sealing rubber plate is fixedly connected with one end of the sealing rubber plate corresponding to the opening position of the air outlet boxes, and the sealing rubber plate is attached to one end surface of the opening position of the inclined baffle corresponding to the air outlet boxes.

Preferably, the front end and the rear end of the dust blowing box are respectively fixedly connected with a connecting shell, one end of the connecting shell corresponding to the dust blowing box is fixedly connected with two plug pipes, the two plug pipes respectively penetrate through the dust blowing box and extend to the interiors of the two air outlet boxes, so that the interiors of the connecting shells are communicated with the interiors of the air outlet boxes away from the opening positions, the middle parts of the connecting shells are fixedly connected with air guide pipes, the two ends of the corresponding plug pipes of the air guide pipes are respectively provided with a first air outlet, the inner walls of the air guide pipes are rotatably connected with air outlet pipes, the surfaces of the air outlet pipes are provided with second air outlets, the opening size of the second air outlets is larger than the opening size of the first air outlets, one end of the air outlet pipes away from the connecting shell is fixedly connected with an air conveying pipe, the surfaces of the second air conveying pipes are meshed with the surfaces of the first gears positioned at one ends of the first rotating rolls, and the two air conveying pipes are connected with an air pump.

Preferably, the dust collection assembly comprises a dust collection box, the dust collection box is fixedly connected to the bottom of the dust collection box, a first dust collection pipe and a second dust collection pipe are rotatably arranged on the inner wall of the dust collection box, the number of the first dust collection pipes and the number of the second dust collection pipes are four respectively, one end of each first dust collection pipe is fixedly connected with a first toothed bar, the surface of each first toothed bar is rotatably connected with a first driving frame through a bearing, the surface of each first toothed bar is meshed with a first gear ring, the first gear rings are fixedly connected to the inner wall of the dust collection box, one end of each second dust collection pipe is fixedly connected with a second toothed bar, the surface of each second toothed bar is rotatably connected with a second driving frame through a bearing, the surface of each second driving frame is meshed with a second gear ring, the second gear rings are fixedly connected to one end of each first toothed bar, and each first dust collection pipe and each second dust collection pipe are of porous structures, so that the first dust collection pipes and the second dust collection pipes can absorb dust.

Preferably, one end that first rack position was kept away from to first dust absorption pipe rotates and is connected with first link, first link is middle part hollow structure, and the inside of first dust absorption pipe is linked together with the inside of first link, one end that second rack position was kept away from to second dust absorption pipe rotates and is connected with the second link, the second link is middle part hollow structure, and the inside of second dust absorption pipe is linked together with the inside of first link, the one end fixedly connected with pivoted tube of the corresponding first link position of second link, and pivoted tube rotates the middle part of connecting at first link to make the inside of second link be linked together with the inside of first link through pivoted tube.

Preferably, the first driving frame, the second driving frame, the first connecting frame and the second connecting frame are respectively in an X-shaped structure, four first dust collection pipes are respectively located at four ends of opposite faces of the first driving frame and the first connecting frame, four second dust collection pipes are respectively located at four ends of opposite faces of the second driving frame and the second connecting frame, one end of the first connecting frame, which is far away from the second connecting frame, is fixedly connected with an air suction pipe, the air suction pipe is connected with a vacuum pump, the air suction pipe penetrates through a bearing movably and extends to the outside of the equipment shell, the bottom of the dust collection box is fixedly connected with a connecting plate, the bottom of the connecting plate is fixedly connected with a guide frame, and the guide frame is in an arc-shaped structure so that the guide frame smoothes textile fabrics.

Preferably, the drive assembly comprises a first drive tube, first drive tube fixed connection is in the middle part of first drive frame, first drive tube passes through the bearing activity and runs through the outside to the equipment casing, the inner wall rotation of first drive tube is connected with the second drive tube, and first bevel gear fixed connection is in the corresponding one end of first drive frame position of second drive frame, the fixed surface of first drive tube is connected with first bevel gear, the one end fixed surface that second drive tube kept away from second drive frame position is connected with the second bevel gear, the surface of first bevel gear and second bevel gear all meshes third bevel gear and fourth bevel gear, the one end fixedly connected with drive casing of the corresponding first bevel gear position of equipment casing, and first bevel gear, second bevel gear, third bevel gear and fourth bevel gear all pass through the bearing rotation respectively and connect in the middle part of drive casing, the one end fixedly connected with motor that the positive and negative third bevel gear kept away from drive casing position.

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

according to the invention, the textile cloth is blown by high-speed air flow sprayed by the air outlet box, so that the textile cloth continuously swings and shakes dust, meanwhile, the first dust collection pipe and the second dust collection pipe at the top and the bottom do not move relatively at the same time, the textile cloth is knocked, dust is separated from the surface of the textile cloth, and the first dust collection pipe and the second dust collection pipe absorb the shaked dust around the textile cloth, so that the situation that the appearance of the textile cloth is influenced by more dust and the workload of subsequent rinsing of the textile cloth is increased is avoided;

the invention can take away oxygen around sparks on the textile cloth through high-speed air flow sprayed by the air outlet box, so as to avoid the condition of fire, and meanwhile, the bottom is provided with the guide frame and the connecting plate, wherein the guide frame is of an arc-shaped structure, so that the stretching effect on the textile cloth can be realized.

According to the invention, when the first driving frame and the second driving frame rotate reversely, the first toothed bar and the first gear ring are meshed relatively, and the second toothed bar and the second gear ring are meshed relatively, so that the first dust suction pipe and the second dust suction pipe revolve and rotate simultaneously, the textile cloth is beaten and rotated simultaneously, and the residual dust on the textile cloth is adsorbed, so that the dust is absorbed more thoroughly.

Drawings

FIG. 1 is a schematic diagram of the whole structure of a dyeing singeing machine of the present invention;

FIG. 2 is a schematic diagram of the whole structure of the dyeing singeing machine;

FIG. 3 is a partial schematic view of the whole structure of the dyeing singeing machine of the present invention;

FIG. 4 is a partial cross-sectional view of the overall structure of the printing and dyeing singeing machine of the present invention;

FIG. 5 is a cross-sectional view of the whole structure of the dyeing singeing machine of the present invention;

FIG. 6 is a schematic view of the brush assembly of the dyeing singeing machine of the present invention;

FIG. 7 is a cross-sectional view of the brush hair assembly of the dyeing singeing machine of the present invention;

FIG. 8 is an enlarged view of the structure of FIG. 7A in accordance with the present invention;

FIG. 9 is a partial cross-sectional view of the brush hair assembly of the dye singeing machine of the present invention;

FIG. 10 is an exploded view of the brush hair assembly of the printing and dyeing singeing machine of the present invention;

FIG. 11 is a cross-sectional view of the dust blowing assembly of the dyeing and singeing machine of the present invention;

FIG. 12 is a cross-sectional view of a dust blowing component of the printing and dyeing singeing machine of the present invention;

FIG. 13 is a view showing the structure of the portion B in FIG. 12 according to the present invention;

FIG. 14 is a schematic view of the connecting housing of the dyeing singeing machine of the present invention;

FIG. 15 is a schematic view of a dust collection assembly of a dyeing and singeing machine according to the present invention;

FIG. 16 is a schematic diagram II of a dust collection assembly of the dyeing and singeing machine of the present invention;

FIG. 17 is a cross-sectional view of the dust collection assembly of the dyeing and singeing machine of the present invention;

FIG. 18 is a cross-sectional view of a dust collection assembly of the printing and dyeing singeing machine of the present invention;

fig. 19 is a schematic view of a part of the dust collection assembly of the dyeing and singeing machine according to the present invention.

In the figure:

1. an equipment housing;

201. the device comprises a movable pipe, a driving groove, a driving column, a fixed pipe, a limiting pipe, a first rubber strip, a connecting pipe, a second rubber strip, a connecting pipe and a second rubber strip, wherein the movable pipe, the driving groove, the driving column and the driving column are respectively arranged in the movable pipe and the driving groove respectively;

301. dust blowing box 302, air outlet box 303, sealing rubber plate 304, positioning plate 305, connecting shell 306, air guide pipe 307, first air outlet, 308, air outlet pipe, 309, second air outlet, 310, air delivery pipe, 311, second gear;

401. the dust suction box comprises a dust suction box body and a dust suction box, wherein the dust suction box body comprises a first dust suction pipe and a second dust suction pipe, the dust suction pipe comprises a first dust suction pipe, a second dust suction pipe, a first toothed bar and a first driving frame, the first driving frame and the first gear ring are respectively arranged on the first toothed bar and the second toothed bar, the first gear ring and the second toothed bar are respectively arranged on the second toothed bar and the second toothed bar respectively 408, a second driving frame, 409, a second gear ring, 410, a first connecting frame, 411, a second connecting frame, 412, an air suction pipe, 413, a connecting plate and 414, and a guide frame;

501. first drive tube, 502, second drive tube, 503, first bevel gear, 504, second bevel gear, 505, third bevel gear, 506, drive housing, 507, counter motor, 508, fourth bevel gear;

11. the first reversing roller, 12, the first rotating roller, 13, the second rotating roller, 14, the second reversing roller, 15, the third reversing roller, 16, the fourth reversing roller, 17, the fifth reversing roller, 18, the woven cloth, 19, the singeing fire hole, 20, the first gear and 21.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-19, the present invention provides a technical solution: comprising the following steps:

the device comprises a device shell 1, wherein a first reversing roller 11, a first rotating roller 12, a second rotating roller 13, a second reversing roller 14, a fourth reversing roller 16 and a fifth reversing roller 17 are respectively arranged in the middle of the device shell 1 in a rotating manner, and a woven cloth 18 is movably arranged in the middle of the device shell 1;

bristle assemblies arranged at the tops of the first rotating roller 12 and the second rotating roller 13, the bristle assemblies being used for protruding the fluff on the woven cloth 18 to the surface of the woven cloth 18 in a friction manner;

the dust blowing component is arranged on the surface of the textile fabric 18 and is used for driving the textile fabric 18 to continuously and irregularly swing and shake off dust by adopting high-speed air flow;

the dust collection assembly is arranged at the bottom of the dust blowing assembly and is used for shaking the textile fabric 18 in a beating mode and absorbing dust around the textile fabric 18;

the drive assembly is arranged at one end of the equipment shell 1 and is used for driving the dust collection assembly to work.

The textile cloth 18 is in transmission connection with the surfaces of the first reversing roller 11, the second reversing roller 14, the third reversing roller 15, the fourth reversing roller 16 and the fifth reversing roller 17, the singeing fire holes 19 are respectively and fixedly arranged on the inner walls of the equipment shell 1 corresponding to the positions of the second reversing roller 14 and the third reversing roller 15, so that the singeing fire holes 19 are used for singeing the textile cloth 18, the front end and the rear end of the first reversing roller 11, the first reversing roller 12, the second rotating roller 13, the second reversing roller 14, the fourth reversing roller 16 and the fifth reversing roller 17 are respectively and fixedly provided with a first gear 20, the surfaces of the first gears 20 are respectively and fixedly provided with a chain 21, and the first reversing roller 11 is driven by a servo motor.

The brush hair subassembly includes movable tube 201, the quantity of movable tube 201 is two, and two movable tube 201 respectively the activity cup joint at the surface of first rotor roller 12 and second rotor roller 13, drive slot 202 has all been seted up on the surface of first rotor roller 12 and second rotor roller 13, drive column 203 has been seted up to the inner wall swing joint of drive slot 202, drive column 203 fixed mounting is at the inner wall of movable tube 201, the surface swing joint of movable tube 201 has fixed pipe 204, the front and back both ends of fixed pipe 204 are equal fixed mounting has spacing pipe 205 respectively, and spacing pipe 205 fixed mounting is at the inner wall of equipment casing 1, the diameter of spacing pipe 205 is greater than the diameter of fixed pipe 204, so that spacing pipe 205 plays the guide effect to the conveying of weaving cloth 18.

The surface fixed mounting of fixed pipe 204 has a plurality of first rubber strips 206, the surface fixed mounting of movable pipe 201 has a plurality of connecting pipes 207, connecting pipe 207 activity runs through and extends to the outside of fixed pipe 204, the one end fixed mounting of connecting pipe 207 position that keeps away from movable pipe 201 has second rubber strip 208, and second rubber strip 208 and first rubber strip 206 crisscross setting each other, the surface of first rubber strip 206 and the surface of second rubber strip 208 all coarse setting, the friction takes place for the textile cloth 18 and first rubber strip 206, the friction can produce static, simultaneously because the surface coarse setting of first rubber strip 206 can make the textile cloth 18 after the friction of first rubber strip 206, fine hair can erect at the surface of textile cloth 18, simultaneously drive groove 202 cooperation drive post 203 can drive movable pipe 201 back and forth reciprocating motion, and make movable pipe 201 cooperate connecting pipe 207 drive second rubber strip 208 back and forth movement, and make second rubber strip 208 rub with textile cloth 18 in the vertical direction that textile cloth 18 rubs with first rubber strip 206, thereby more on the textile cloth 18 erects, can erect on textile cloth 18 and carry the fine hair on the second and carry the top of a roll of a reversal to the top of the second and the nap of a reversal of the nap, the nap is carried to the top of the second and the nap-back and the nap is treated to the top of the second and the nap-and the reversal roller 19.

The dust blowing assembly comprises a dust blowing box 301, the dust blowing box 301 is positioned on the surface of the woven cloth 18 corresponding to the positions of the fourth reversing roller 16 and the fifth reversing roller 17, the woven cloth 18 penetrates through and extends to the upper end and the lower end of the dust blowing box 301, the top of the inner wall of the dust blowing box 301 is fixedly provided with air outlet boxes 302, the number of the air outlet boxes 302 is two, the two air outlet boxes 302 are symmetrically arranged about the vertical axis of the midpoint of the dust blowing box 301, the air outlet boxes 302 are of a frame-shaped structure which is open towards one end of the woven cloth 18, the width of the opening position of the air outlet boxes 302 is 0.5CM, the middle part of the bottom of the inner wall of the air outlet boxes 302 is provided with an inclined baffle, the top of the inner wall of the air outlet boxes 302 is fixedly provided with a sealing rubber plate 303, one end of the sealing rubber plate 303 corresponding to the opening position of the air outlet boxes 302 is fixedly provided with a positioning plate 304, and the sealing rubber plate 303 is attached to one end surface of the opening position of the inclined baffle corresponding to the air outlet boxes 302.

The front end and the rear end of the dust blowing box 301 are respectively fixedly provided with a connecting shell 305, one end of the connecting shell 305 corresponding to the position of the dust blowing box 301 is fixedly provided with two plug-in pipes, the two plug-in pipes respectively penetrate through the dust blowing box 301 and extend to the interiors of the two air outlet boxes 302 in a fixed mode, so that the interiors of the connecting shell 305 are communicated with the interiors of the air outlet boxes 302 far away from the opening positions, the middle part of the connecting shell 305 is fixedly provided with air guide pipes 306, the two ends of the air guide pipes 306 corresponding to the plug-in pipes are respectively provided with first air outlets 307, the inner walls of the air guide pipes 306 are rotatably connected with air outlet pipes 308, the surfaces of the air outlet pipes 308 are provided with second air outlets 309, the opening size of the second air outlets 309 is larger than that of the first air outlets 307, one end, far away from the connecting shell 305, of one end of each air outlet pipe 308 is fixedly provided with an air conveying pipe 310, the surface of each air conveying pipe 310 is fixedly provided with a second gear 311, and the surface of each second gear 311 is meshed with the surface of the first gear 20 at one end of the first rotating roller 12.

The dust collection assembly comprises a dust collection box 401, the dust collection box 401 is fixedly arranged at the bottom of the dust collection box 301, a first dust collection pipe 402 and a second dust collection pipe 403 are rotatably arranged on the inner wall of the dust collection box 401, the number of the first dust collection pipe 402 and the number of the second dust collection pipe 403 are four respectively, a first toothed bar 404 is fixedly arranged at one end of the first dust collection pipe 402, a first driving frame 405 is rotatably connected to the surface of the first toothed bar 404 through a bearing, a first gear ring 406 is meshed with the surface of the first toothed bar 404, the first gear ring 406 is fixedly arranged on the inner wall of the dust collection box 401, a second toothed bar 407 is fixedly arranged at one end of the second dust collection pipe 403, a second driving frame 408 is rotatably connected to the surface of the second toothed bar 407 through a bearing, a second gear ring 409 is meshed with the surface of the second driving frame 408, and the second gear ring 409 is fixedly installed at one end of the first gear ring 406, and the first dust suction pipe 402 and the second dust suction pipe 403 are respectively in porous structures, so that dust around the textile fabric 18 is absorbed, the situation that the dust affects the appearance of the textile fabric 18 more and the workload of the subsequent rinsing of the textile fabric 18 is increased is avoided, when the first driving frame 405 and the second driving frame 408 rotate in opposite directions, the first toothed bar 404 and the first gear ring 406 are meshed relatively, and meanwhile, the second toothed bar 407 and the second gear ring 409 are meshed relatively, and then the first dust suction pipe 402 and the second dust suction pipe 403 rotate while revolving and rotate on the textile fabric 18 while beating the textile fabric 18, and the dust remained on the textile fabric 18 is absorbed, so that the dust is absorbed more thoroughly.

The first connecting frame 410 is rotationally connected to one end of first dust absorption pipe 402, which is far away from the position of first rack 404, the first connecting frame 410 is of a hollow structure in the middle, the inside of first dust absorption pipe 402 is communicated with the inside of first connecting frame 410, one end of second dust absorption pipe 403, which is far away from the position of second rack 407, is rotationally connected with the second connecting frame 411, the second connecting frame 411 is of a hollow structure in the middle, the inside of second dust absorption pipe 403 is communicated with the inside of first connecting frame 410, a rotating pipe is fixedly mounted at one end of the second connecting frame 411, which corresponds to the position of first connecting frame 410, and the rotating pipe is rotationally connected to the middle of first connecting frame 410, so that the inside of second connecting frame 411 is communicated with the inside of first connecting frame 410 through the rotating pipe.

The first driving frame 405, the second driving frame 408, the first connecting frame 410 and the second connecting frame 411 are all in an X-shaped structure respectively, four first dust absorption pipes 402 are located at four ends of opposite faces of the first driving frame 405 and the first connecting frame 410 respectively, four second dust absorption pipes 403 are located at four ends of opposite faces of the second driving frame 408 and the second connecting frame 411 respectively, an air suction pipe 412 is fixedly installed at one end, away from the position of the second connecting frame 411, of the first connecting frame 410, the air suction pipe 412 is connected with a vacuum pump, the air suction pipe 412 penetrates through a bearing movably and extends to the outside of the equipment shell 1, a connecting plate 413 is fixedly installed at the bottom of the dust absorption box 401, a guide frame 414 is fixedly installed at the bottom of the connecting plate 413, and the guide frame 414 is in an arc-shaped structure, so that the guide frame 414 smoothes the woven cloth 18.

The driving assembly comprises a first driving tube 501, the first driving tube 501 is fixedly arranged in the middle of a first driving frame 405, the first driving tube 501 movably penetrates through a bearing and extends to the outside of a device shell 1, the inner wall of the first driving tube 501 is rotationally connected with a second driving tube 502, the first driving tube 503 is fixedly arranged at one end of a second driving frame 408 corresponding to the position of the first driving frame 405, a first bevel gear 503 is fixedly arranged on the surface of the first driving tube 501, a second bevel gear 504 is fixedly arranged on the surface of one end of the second driving tube 502 far away from the position of the second driving frame 408, a third bevel gear 505 and a fourth bevel gear 508 are respectively meshed with the surfaces of the first bevel gear 503 and the second bevel gear 504, a driving shell 506 is fixedly arranged at one end of the device shell 1 corresponding to the position of the first bevel gear 503, the second bevel gear 504, the third bevel gear 505 and the fourth bevel gear 508 are equally and rotationally connected in the middle of the driving shell 506 through the bearing, and a positive and negative motor 507 is fixedly arranged at one end of the third bevel gear 505 far away from the position of the driving shell 506.

The working principle of the structure is as follows: when the novel spinning cloth 18 is used, the servo motor drives the first reversing roller 11 to rotate, and the first reversing roller 11 drives the first gear 20 to rotate, so that the first gear 20 is matched with the chain 21 to drive the first reversing roller 11, the first rotating roller 12, the second rotating roller 13, the second reversing roller 14, the third reversing roller 15, the fourth reversing roller 16 and the fifth reversing roller 17 to synchronously rotate, wherein the first reversing roller 11, the second reversing roller 14, the third reversing roller 15, the fourth reversing roller 16 and the fifth reversing roller 17 are driven to drive the spinning cloth 18 to drive;

when the textile fabric 18 is driven, as the fixed tube 204, the limiting tube 205 and the first rubber strip 206 are fixed relative to the equipment shell 1, the textile fabric 18 can rub with the first rubber strip 206, static electricity can be generated due to friction, meanwhile, as the surface of the first rubber strip 206 is rough, the fluff can stand on the surface of the textile fabric 18 after the textile fabric 18 passes through the friction of the first rubber strip 206, when the first rotating roller 12 and the second rotating roller 13 rotate, the first rotating roller 12 and the second rotating roller 13 respectively drive the driving groove 202 to rotate, the driving groove 202 rotates to drive the driving column 203 to move, and as the connecting tube 207 moves through the fixed tube 204 and is limited by the fixed tube 204 to be unable to rotate, the movement of the connecting tube 207, the second rubber strip 208 and the movable tube 201 can only move back and forth, namely, the driving groove 202 is matched with the driving column 203 can drive the movable tube 201 to reciprocate back and forth after the friction, and the connecting tube 207 is matched with the second rubber strip 208 to move back and forth, and the fluff of the second rubber strip 208 can be carried by the second rotating drum 208 to the top of the textile fabric 18 and the top of the textile fabric 18 in the vertical direction to the opposite to the top of the first rotating roller 18, and the fluff can be carried by the flame to the top of the textile fabric 18 and the top of the second rotating cloth 18;

the processed textile fabric 18 is conveyed and moved to the inside of the dust blowing box 301, at the moment, the air of the air pump enters the inside of the air outlet box 308 through the air conveying pipe 310, and because the first gear 20 is driven to rotate by the chain 21, the first gear 20 drives the air conveying pipe 310 to rotate through the second gear 311, and then the air conveying pipe 310 drives the air outlet pipe 308 and the second air outlet 309 to rotate on the inner wall of the air guide pipe 306, so that the second air outlet 309 is not simultaneously communicated with the two first air outlets 307, and the air flow can enter the inside of the air outlet box 302 through the connecting shell 305 at different times, and meanwhile, the sealing rubber plate 303 and the positioning plate 304 are arranged in the inside of the air outlet box 302, so that when the air pressure of the air outlet box 302 is used for driving the sealing rubber plate 303 to deform, the air flow is rapidly erupted from the opening position of the air outlet box 302 and drives the textile fabric 18 to swing, and because the air is not simultaneously injected into the inside of the air outlet boxes 302 at two ends, the textile fabric 18 is continuously and is simultaneously and simultaneously communicated with the two first air flows sprayed out of the air outlet 302, so that the textile fabric 18 continuously swings and the two air outlets are simultaneously communicated with the two first air outlets 307, and the air flows 414 are simultaneously blown out of the air flow at the two ends, and the textile fabric 18 are simultaneously, and the air flows are simultaneously blown out of the air frame 414 and the air frame is simultaneously, and the air frame is prevented from being stretched to the bottom to the air frame 18, and the air frame is arranged;

when dust on the woven cloth 18 is vibrated down by the airflow, the positive and negative motor 507 is electrified and drives the third bevel gear 505 to rotate, so that the third bevel gear 505 drives the first bevel gear 503 and the second bevel gear 504 to rotate reversely, the first driving frame 405 and the second driving frame 408 rotate reversely through the first driving pipe 501 and the second driving pipe 502, and when the first driving frame 405 and the second driving frame 408 rotate reversely, the positive and negative motor 507 is matched to rotate reversely, so that the first dust suction pipe 402 and the second dust suction pipe 403 at the top and the bottom do not move relatively at the same time, and the woven cloth 18 is knocked, accelerating dust to separate from the surface of the textile fabric 18, meanwhile, the suction pipe 412 is connected with the vacuum pump, so that suction is generated inside the suction pipe 412, and meanwhile, as the interiors of the first connecting frame 410, the second connecting frame 411, the first dust suction pipe 402 and the second dust suction pipe 403 are communicated, suction is generated inside the first dust suction pipe 402 and the second dust suction pipe 403, and as the first dust suction pipe 402 and the second dust suction pipe 403 are of porous structures, the dust around the textile fabric 18 is absorbed, so that the situation that the dust affects the attractiveness of the textile fabric 18 more and the workload of subsequent rinsing of the textile fabric 18 is increased is avoided;

meanwhile, when the first driving frame 405 and the second driving frame 408 reversely rotate, the first toothed bar 404 and the first gear ring 406 are meshed relatively, and the second toothed bar 407 and the second gear ring 409 are meshed relatively simultaneously, so that the first dust collection pipe 402 and the second dust collection pipe 403 revolve and rotate simultaneously, the textile fabric 18 is knocked and simultaneously rotates on the textile fabric 18, and residual dust on the textile fabric 18 is adsorbed, so that the dust is absorbed more thoroughly;

by providing the fourth bevel gear 508, the engagement between the first bevel gear 503, the second bevel gear 504, and the third bevel gear 505 can be made smoother.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Printing and dyeing singeing machine, its characterized in that: comprising the following steps:

the device comprises a device shell (1), wherein a first reversing roller (11), a first rotating roller (12), a second rotating roller (13), a second reversing roller (14), a fourth reversing roller (16) and a fifth reversing roller (17) are respectively arranged in the middle of the device shell (1) in a rotating mode, and a woven cloth (18) is movably arranged in the middle of the device shell (1);

the bristle assemblies are arranged at the tops of the first rotating roller (12) and the second rotating roller (13) and are used for protruding naps on the textile fabric (18) to the surface of the textile fabric (18) in a friction mode;

the dust blowing component is arranged on the surface of the textile fabric (18) and is used for driving the textile fabric (18) to continuously and irregularly swing and shake off dust by adopting high-speed air flow;

the dust collection assembly is arranged at the bottom of the dust blowing assembly and is used for shaking the textile fabric (18) in a beating mode and absorbing dust around the textile fabric (18);

the driving component is arranged at one end of the equipment shell (1) and used for driving the dust collection component to work.

2. The dyeing singeing machine of claim 1 wherein: the utility model discloses a spinning cloth (18) transmission is connected on the surface of first switching-over roller (11), second switching-over roller (14), third switching-over roller (15), fourth switching-over roller (16) and fifth switching-over roller (17), the inner wall of corresponding second switching-over roller (14) of equipment casing (1) and third switching-over roller (15) position all is fixedly connected with singeing fire mouth (19) respectively to make singeing fire mouth (19) carry out singeing treatment to spinning cloth (18), the front and back both ends of first switching-over roller (11), first rotating roller (12), second rotating roller (13), second switching-over roller (14), fourth switching-over roller (16) and fifth switching-over roller (17) all are fixedly connected with first gear (20) respectively, and the surface of a plurality of first gears (20) all is connected with chain (21) in the transmission, first switching-over roller (11) are driven by servo motor.

3. The dyeing singeing machine of claim 2 wherein: the brush hair subassembly includes movable tube (201), the quantity of movable tube (201) is two, and two movable tube (201) are movable respectively cup jointed at the surface of first rotor (12) and second rotor (13), drive slot (202) have all been seted up on the surface of first rotor (12) and second rotor (13), the inner wall swing joint of drive slot (202) has actuating post (203), actuating post (203) fixed connection is at the inner wall of movable tube (201), the surface swing joint of movable tube (201) has fixed pipe (204), both ends all are fixed connection spacing pipe (205) respectively around fixed pipe (204), and spacing pipe (205) fixed connection is at the inner wall of equipment casing (1), the diameter of spacing pipe (205) is greater than the diameter of fixed pipe (204) to make spacing pipe (205) play the guide effect to the conveying of weaving cloth (18).

4. A machine according to claim 3, characterized in that: the fixed pipe (204) surface fixedly connected with a plurality of first rubber strips (206), the fixed surface of movable pipe (201) is connected with a plurality of connecting pipes (207), connecting pipe (207) activity run through and extend to the outside of fixed pipe (204), the one end fixedly connected with second rubber strip (208) in movable pipe (201) position is kept away from to connecting pipe (207), and second rubber strip (208) and first rubber strip (206) crisscross setting each other, the surface of first rubber strip (206) and the surface of second rubber strip (208) all coarse setting.

5. The dye singeing machine of claim 4 wherein: the dust blowing assembly comprises a dust blowing box (301), the dust blowing box (301) is located on the surface of a woven cloth (18) corresponding to the positions of a fourth reversing roller (16) and a fifth reversing roller (17), the woven cloth (18) penetrates through and extends to the upper end and the lower end of the dust blowing box (301), the top of the inner wall of the dust blowing box (301) is fixedly connected with a dust outlet box (302), the number of the dust outlet boxes (302) is two, the two dust outlet boxes (302) are symmetrically arranged about the vertical axis of the midpoint of the dust blowing box (301), the dust outlet boxes (302) are of a frame-shaped structure which is open towards one end of the woven cloth (18), the width of the opening position of the dust outlet box (302) is 0.5CM, the middle of the bottom of the inner wall of the dust outlet box (302) is provided with an inclined baffle, the top of the inner wall of the dust outlet box (302) is fixedly connected with a sealing rubber plate (303), one end of the opening position of the sealing rubber plate (303) is fixedly connected with a positioning plate (303), and the sealing rubber plate (303) is attached to one end of the opening position of the corresponding to the inclined surface of the dust outlet box (302).

6. The dye singeing machine of claim 5 wherein: the dust blowing box is characterized in that the front end and the rear end of the dust blowing box (301) are respectively fixedly connected with a connecting shell (305), one end of the connecting shell (305) corresponding to the position of the dust blowing box (301) is fixedly connected with two plug pipes, the two plug pipes respectively penetrate through the dust blowing box (301) and extend to the interiors of the two air outlet boxes (302) in a fixed mode, the interiors of the connecting shells (305) are communicated with the interiors of the air outlet boxes (302) away from the opening positions, the middle part of the connecting shells (305) is fixedly connected with an air guide pipe (306), the two ends of the corresponding plug pipes of the air guide pipe (306) are respectively provided with a first air outlet (307), the inner wall of the air guide pipe (306) is rotatably connected with an air outlet pipe (308), the surface of the air outlet pipe (308) is provided with a second air outlet (309), the opening size of the second air outlet (309) is larger than that of the first air outlet (307), one end of the air outlet pipe (308) away from the position is fixedly connected with an air delivery pipe (310), the surface of one gear (311) is fixedly connected with the surface of the first gear (310), and the surface of the first gear (311) is meshed with the surface of the first gear (20) and the surface of the first gear (20) is meshed with the surface of the first gear (20).

7. The dye singeing machine of claim 6 wherein: the dust collection assembly comprises a dust collection box (401), the dust collection box (401) is fixedly connected to the bottom of the dust collection box (301), a first dust collection pipe (402) and a second dust collection pipe (403) are rotatably arranged on the inner wall of the dust collection box (401), the number of the first dust collection pipe (402) and the number of the second dust collection pipe (403) are four respectively, one end of the first dust collection pipe (402) is fixedly connected with a first tooth bar (404), the surface of the first tooth bar (404) is rotatably connected with a first driving frame (405) through a bearing, the surface of the first tooth bar (404) is meshed with a first tooth ring (406), the first tooth ring (406) is fixedly connected to the inner wall of the dust collection box (401), one end of the second dust collection pipe (403) is fixedly connected with a second tooth bar (407), the surface of the second tooth bar (407) is rotatably connected with a second driving frame (408) through a bearing, and the surface of the second tooth bar (409) is fixedly connected with the first tooth bar (403) and the first tooth bar (403) is in a porous dust collection pipe (402) and the first tooth bar (403) is made to absorb dust.

8. The dye singeing machine of claim 7 wherein: the one end that first dust absorption pipe (402) kept away from first rack (404) position rotates and is connected with first link (410), first link (410) are middle part hollow structure, and the inside of first dust absorption pipe (402) is linked together with the inside of first link (410), the one end that second rack (407) position was kept away from to second dust absorption pipe (403) rotates and is connected with second link (411), second link (411) are middle part hollow structure, and the inside of second dust absorption pipe (403) is linked together with the inside of first link (410), the one end fixedly connected with dwang of the corresponding first link (410) position of second link (411), and the dwang rotates the middle part of connecting at first link (410) to make the inside of second link (411) be linked together with the inside of first link (410) through the dwang.

9. The dye singeing machine of claim 8 wherein: the utility model discloses a vacuum cleaner, including first drive frame (405), second drive frame (408), first link (410) and second link (411), be X type structure respectively, and four first dust absorption pipe (402) are located the four terminal positions of first drive frame (405) and first link (410) opposite face respectively, four second dust absorption pipe (403) are located the four terminal positions of second drive frame (408) and second link (411) opposite face respectively, one end fixedly connected with aspiration channel (412) in second link (411) position are kept away from to first link (410), and aspiration channel (412) link to each other with the vacuum pump, aspiration channel (412) are through the outside of bearing activity run through and extend to equipment casing (1), the bottom fixedly connected with connecting plate (413) of aspiration channel (401), and the bottom fixedly connected with leading truck (414) of connecting plate (413), leading truck (414) are arc structure to make leading truck (414) plat textile cloth (18).

10. The dye singeing machine of claim 9 wherein: the driving assembly comprises a first driving tube (501), the first driving tube (501) is fixedly connected to the middle of the first driving frame (405), the first driving tube (501) movably penetrates through a bearing and extends to the outside of the equipment shell (1), the second driving tube (502) is rotatably connected to the inner wall of the first driving tube (501), the first bevel gear (503) is fixedly connected to one end of the second driving frame (408) corresponding to the position of the first driving frame (405), the first bevel gear (503) is fixedly connected to the surface of the first driving tube (501), the second bevel gear (504) is fixedly connected to one end surface of the second driving tube (502) far away from the position of the second driving frame (408), the third bevel gear (505) and the fourth bevel gear (508) are respectively meshed to the surfaces of the first bevel gear (503) and the second bevel gear (504), one end of the equipment shell (1) corresponding to the position of the first bevel gear (503) is fixedly connected to the driving shell (506), and the first bevel gear (503), the second bevel gear (506) is uniformly connected to the surface of the second bevel gear (502) far away from the middle of the second bevel gear (506) through the bearing, and the third bevel gear (506) is uniformly connected to the surface of the third bevel gear (505).