CN113089208A - Non-woven fabric printing and dyeing forming system and printing and dyeing forming method thereof - Google Patents

Abstract

The invention relates to the technical field of non-woven fabric processing, in particular to a non-woven fabric printing and dyeing forming system and a printing and dyeing forming method thereof, wherein the printing and dyeing forming system comprises: the cloth feeding and discharging device comprises a box body, wherein a cloth feeding opening and a cloth discharging opening are formed in the right side of the box body, and four printing and dyeing devices are fixedly connected below an inner cavity of the box body at equal intervals. Drive a side contact of elastic plate and non-woven fabrics through handing-over pole articulated side lever, and with smooth board mutually support and shakeout the operation with it, make the absorbent moisture of non-woven fabrics reduce, the quality of non-woven fabrics printing and dyeing has been increased, the riser can drive spacing pinion rack and reciprocate, when spacing pinion rack rebound, spacing pinion rack drives half gear and rotates, make the feed board rebound on the non-woven fabrics, frequent reciprocal can increase the even paining of coating on the non-woven fabrics, and can evenly shakeout steam on the non-woven fabrics, and then the effect that can print and dye.

Description

Non-woven fabric printing and dyeing forming system and printing and dyeing forming method thereof

Technical Field

The invention relates to the technical field of non-woven fabric processing, in particular to a non-woven fabric printing and dyeing forming system and a printing and dyeing forming method thereof.

Background

The non-woven fabric has no warp and weft, is very convenient to cut and sew, is light and easy to shape, is popular with hand lovers, because the non-woven fabric is a fabric formed without spinning and weaving, only the short textile fibers or the long textile fibers are directionally or randomly arranged to form a fiber web structure, and then the fiber web structure is reinforced by adopting mechanical, thermal bonding or chemical methods, and the non-woven fabric is not interwoven and knitted together by yarn one by one, but is directly bonded together by physical methods, so when a user takes the non-woven fabric into the clothes, the non-woven fabric is found to have no thread end drawn out. The non-woven fabric breaks through the traditional spinning principle and has the characteristics of short process flow, high production rate, high yield, low cost, wide application, multiple raw material sources and the like.

The non-woven fabrics is when printing and dyeing, because the aperture between the non-woven fabrics is very tiny, the printing and dyeing mode of conveying places the non-woven fabrics at printing and dyeing incasement direct printing and dyeing, its hydroscopicity is poor, place in pigment water for a long time, it is inhomogeneous that its inside receives the material, the condition of spot can appear, the effect of whole printing and dyeing is not obvious, and because it has certain hydrophobicity, during the conveying, the non-woven fabrics can form the effect that blocks water along the direction of conveying, make the non-woven fabrics warp, even damaged, consequently design a section to this type of problem and be used for non-woven fabrics printing and dyeing and moulding non-woven.

The present inventors have been made to solve the above-described problems.

Disclosure of Invention

In order to achieve the purpose, the invention adopts the main technical scheme that: a non-woven fabric printing and dyeing forming system, comprising: the dyeing and printing device comprises a box body, wherein a cloth inlet and a cloth outlet are formed in the right side of the box body, four dyeing and printing devices are fixedly connected below an inner cavity of the box body at equal intervals, a servo motor is fixedly connected to the front side of the inner wall of the box body, a row wheel is fixedly connected to the output end of the servo motor, a linkage rod is hinged to the edge of the front side of the row wheel, a cross rod is hinged to the bottom end of the linkage rod and is fixedly connected with the top end of each dyeing and printing device, a forming mechanism is fixedly connected to the left side of the inner wall of the box body, a dewatering mechanism and a drying mechanism are fixedly connected to the upper portion of the inner cavity of the box body from left to right, two conveying shafts are arranged above each dyeing and printing device, each dyeing and printing device comprises a hollow trapezoidal sleeve, a first shaft is movably connected in each hollow trapezoidal, the steam plate is communicated with an external water pipe, the hollow trapezoidal sleeve is sleeved with a partition plate, the left side and the right side of the partition plate are sleeved with shaping sleeves, a sliding rod is inserted in the partition plate, the upper end and the lower end of the sliding rod are fixedly connected with a vertical plate and a limiting toothed plate respectively, the front side and the rear side of the inner wall of the hollow trapezoidal sleeve are fixedly connected through a fixed rod, a linkage rod is sleeved on the fixed rod, the linkage rod is elastically connected with an installation foot through an extrusion spring, the installation foot is hinged with a feeding plate, the feeding plate is communicated with an external feeding mechanism, one side of the feeding plate is provided with an ironing layer, the other end of the linkage rod is fixedly connected with a half gear, the two half gears are meshed with the left side and the right side of the limiting toothed plate, the left side and the right side of the vertical plate are hinged with side levers through the hinging rods, the improved supporting device is characterized in that a plurality of elastic grooves are formed in the elastic plate, supporting blocks are fixedly connected to the left side and the right side of the hollow trapezoid sleeve, supporting springs are fixedly connected to the tops of the supporting blocks, the top ends of the supporting springs are hinged to a placating plate through hinged seats, a side supporting column is fixedly connected to the bottom of the placating plate, shaft rods are inserted into the side supporting column in an penetrating mode, fixing seats are sleeved on the shaft rods, the fixing seats are fixedly connected to the top of the hollow trapezoid sleeve, and the top of the vertical plate is hinged to the cross rod through connecting strips.

Preferably, the steam plate comprises a square sleeve, a first heating strip and a second heating strip are correspondingly arranged in the square sleeve, a transverse pipe is sleeved above an inner cavity of the square sleeve, and the transverse pipe is located above the first heating strip and the second heating strip and is provided with a water outlet.

When the non-woven fabric is printed and dyed, the non-woven fabric penetrates through two conveying shafts above the non-woven fabric and is sleeved on the first shaft, the non-woven fabric is positioned between the steam plate and the feeding plate and is pressed by the steam plate and the feeding plate, the non-woven fabric is positioned between the arc plate and the smoothing plate and is pressed by the arc plate and the smoothing plate, when an external water receiving pipe supplies water into the steam plate, the steam generated in the steam plate overflows from the inside and is uniformly distributed on the non-woven fabric, an external feeding mechanism uniformly overflows pigments from the feeding plate, the pigments are uniformly dispersed on the non-woven fabric under the heating of the steam, in the process, a servo motor is started, the output end of the servo motor drives a row wheel to rotate, the row wheel drives a transverse rod to move up and down through a linkage rod, a connecting strip hinged on the transverse rod moves up and down, at the moment, the connecting strip moves up and down on the vertical plate, at the moment, a side rod hinged, and cooperate mutually with the smoothing board and flatten the operation with it, make the absorbent moisture of non-woven fabrics reduce, and can avoid receiving the condition that the fold appears in steam, the quality of non-woven fabrics printing and dyeing has been increased, the process, the riser can drive spacing pinion rack and reciprocate, when spacing pinion rack rebound, spacing pinion rack drives the semi-gear and rotates, make the feed board rebound on the non-woven fabrics, frequent reciprocal can increase the even paining on the non-woven fabrics of coating like this, and can evenly flatten steam on the non-woven fabrics, and then the effect that can print and dye.

The best, forming mechanism is including moulding the type cover, be provided with moulding space in moulding the type cover, moulding space right side opening, moulding space cover is equipped with two axle two, both ends are all overlapped and are equipped with the axle sleeve around the axle two, overlap on two axle sleeves on the same perpendicular line and are equipped with the fixed strip, the compression groove has been seted up on the fixed strip, the axle sleeve cup joints in the compression groove, the outside fixedly connected with cylinder of axle sleeve, two spacing seats of outside fixedly connected with of fixed strip, fixed connection traveller on the spacing seat, the one end of traveller runs through the spacing groove of seting up on the spacing seat just extends to its outside and with arc strip fixed connection, the cover is equipped with compression spring on the traveller, moulding space inner wall's the equal fixedly connected with moulding cover in upper and lower both sides, moulding space inner chamber right side is provided with a third.

And when the non-woven fabrics winding is two on two axles, at the in-process of non-woven fabrics conveying, because two settings are on the vertical direction, and non-woven fabrics horizontal transfer, two axles two are under compression spring's effect, the state that can tighten between two axles, can be with the cloth tensioning of printing and dyeing, make above-mentioned moisture break away from the non-woven fabrics under the condition of tensile force like this, in addition under the effect of tensile force, can also handle the fold on the non-woven fabrics, thereby make the surface fabric of non-woven fabrics be in under the smooth state, and set up moulding cover, moulding cover inner wall combines the arcwall of axle two, can be abundant make the non-woven fabrics receive the effect of pressfitting in the conveying, make the neat moulding of non-.

The best, dewatering mechanism includes two square covers, the equal fixedly connected with fixed plate in the left and right sides of square cover inner wall, two relative one side of fixed plate is through two arc elasticity strip fixed connection, two stretch spring elastic connection through two tops between the arc elasticity strip, the square cover endotheca is equipped with the fly leaf, fly leaf and one of them arc elasticity strip fixed connection, one side fixedly connected with fixed plate of fly leaf, the fixed plate runs through the logical groove of seting up on one side of the square cover inner wall, one side fixedly connected with sponge board of fixed plate.

Pass the non-woven fabrics between two sponge boards, under the elastic action of two arc elastic strips, two sponge boards can be stable with the non-woven fabrics pressfitting compact, and the non-woven fabrics through the sponge board and with the sponge board contact completely, the moisture on the non-woven fabrics can be cleaned to the sponge board, so can further increase non-woven fabrics degree of drying.

Preferably, the drying mechanism comprises a drying box, a fan unit is sleeved at the top of the drying box, the drying box is provided with a plurality of shafts four in a wavy manner, a hot air cover is arranged between two horizontally adjacent shafts four, an air dividing block is sleeved in the hot air cover, two adjacent shafts are provided with communicating grooves, the two communicating grooves are communicated through a connecting pipe, a plurality of mounting grooves are formed in the left side and the right side of the air dividing block at equal distances, the mounting grooves are communicated with the inner cavity of the air dividing block, the top of the air dividing block is opened, a heating rod is installed in each mounting groove, an air inlet pipe is sleeved in the hot air cover and communicated with an air outlet of the fan unit, an air outlet is formed in the bottom of the air inlet pipe, and air outlet grooves are formed in two sides of the hot air cover.

The non-woven fabrics is wound around the cloth along the upper and lower axle that sets up and forms the state of wave conveying, the non-woven fabrics is through the transfer passage that forms between the hot-blast cover that corresponds the setting, the fan group starts, the air current that the fan group produced is dispersed to the hot-blast cover of top in by the air-supply line, the air outlet that sets up on the air-supply line is in the uncovered mouth towards the branch wind piece top, and disperse to a plurality of mounting grooves in its inner chamber, the heating rod circular telegram in the mounting groove forms the high temperature, the air current blows high temperature to the air-out groove from the mounting groove, and with the both sides contact of non-woven fabrics, make the temperature on non-woven fabrics surface rise, and evaporate the moisture on the non-woven fabrics, and the hot-blast cover of part high temperature air current that the hot-blast cover of top formed blows below.

Preferably, a conveying shaft rod is arranged in the conveying groove formed in the left side of the drying box, and the four bottoms of the shaft on the right side and the middle point of the inner cavity of the conveying groove on the right side are positioned on the same horizontal plane.

Preferably, the printing and forming method of the non-woven fabric printing and forming system comprises the following steps:

the first step, when printing and dyeing the non-woven fabric, the non-woven fabric passes through and is sleeved on the first shaft from two conveying shafts above, so that the non-woven fabric is positioned between the steam plate and the feed plate and is pressed by the steam plate and the feed plate, so that the non-woven fabric is positioned between the arc plate and the smoothing plate and is pressed by the arc plate and the smoothing plate, when an external water receiving pipe supplies water into the steam plate, steam generated in the steam plate overflows from the inside and is uniformly distributed on the non-woven fabric, and an external feeding mechanism uniformly overflows pigments from the feed plate, under the heating of the steam, the pigments are uniformly dispersed on the non-woven fabric, and in the process, the servo motor is started, the output end of the servo motor drives the row wheel to rotate, the row wheel drives the transverse rod to move up and down through the linkage rod, the connecting strip hinged on the transverse rod moves up and down, at the moment, the vertical plate on the connecting strip moves up and down, at the moment, the side, the vertical plate can drive the limit toothed plate to move up and down, when the limit toothed plate moves upwards, the limit toothed plate drives the half gear to rotate, so that the feed plate moves downwards on the non-woven fabric;

secondly, when the non-woven fabric is wound on the two second shafts, in the conveying process of the non-woven fabric, the two shafts are arranged in the vertical direction, the non-woven fabric is conveyed horizontally, the two second shafts can be in a tightened state under the action of the compression spring, the printed and dyed fabric can be tensioned, so that the water on the two shafts is separated from the non-woven fabric under the action of the tensioning force, in addition, the folds on the non-woven fabric can be processed under the action of the tensioning force, so that the fabric of the non-woven fabric is in a flat state, and a shaping cover is arranged;

a third step; the non-woven fabric penetrates between the two sponge plates, the two sponge plates can stably press and compact the non-woven fabric under the elastic action of the two arc-shaped elastic strips, the non-woven fabric passes through the sponge plates and is completely contacted with the sponge plates, and the sponge plates can wipe water on the non-woven fabric, so that the drying degree of the non-woven fabric can be further increased;

the fourth step; the non-woven fabrics is wound around the cloth along the upper and lower axle that sets up and forms the state of wave conveying, the non-woven fabrics is through the transfer passage that forms between the hot-blast cover that corresponds the setting, the fan group starts, the air current that the fan group produced is dispersed to the hot-blast cover of top in by the air-supply line, the air outlet that sets up on the air-supply line is in the uncovered mouth towards the branch wind piece top, and disperse to a plurality of mounting grooves in its inner chamber, the heating rod circular telegram in the mounting groove forms the high temperature, the air current blows high temperature to the air-out groove from the mounting groove, and with the both sides contact of non-woven fabrics, make the temperature on non-woven fabrics surface rise, and evaporate the moisture on the non-woven fabrics, and the hot-blast cover of part high temperature air current that the hot-blast cover of top formed blows below.

The invention has at least the following beneficial effects:

1. when the non-woven fabric is printed and dyed, the non-woven fabric penetrates through the two conveying shafts above the non-woven fabric and is sleeved on the first shaft, the non-woven fabric is positioned between the steam plate and the feeding plate and is pressed by the steam plate and the feeding plate, the non-woven fabric is positioned between the arc plate and the smoothing plate and is pressed by the arc plate and the smoothing plate, when water is supplied into the steam plate by the external water receiving pipe, the steam generated in the steam plate overflows from the inside and is uniformly distributed on the non-woven fabric, the pigment uniformly overflows from the feeding plate by the external feeding mechanism, the pigment is uniformly dispersed on the non-woven fabric under the heating of the steam, the output end of the servo motor drives the row wheel to rotate, the connecting strip hinged on the cross rod moves up and down, at the moment, the side rod hinged by the cross connecting rod drives the elastic plate to be contacted with one side surface of the non-woven fabric and is matched with the smoothing plate to flatten the non, and can avoid receiving the condition that the fold appears in steam, the quality of non-woven fabrics printing and dyeing has been increased, the process, the riser can drive spacing pinion rack and reciprocate, when spacing pinion rack rebound, spacing pinion rack drives the semi-gear and rotates, make the feed board downstream on the non-woven fabrics, when spacing pinion rack rebound, spacing pinion rack drives the semi-gear and rotates, make the feed board rebound on the non-woven fabrics, frequent reciprocal can increase the even paining of coating on the non-woven fabrics, and can evenly shakeout steam on the non-woven fabrics, and then the effect that can print and dye.

2. Because two settings are on the vertical direction, and the non-woven fabrics horizontal transfer, two axle two are under compression spring's effect, the state that can tighten between two axle two, can be with the cloth tensioning of printing and dyeing, make above-mentioned moisture break away from the non-woven fabrics under the condition of tensile force like this, in addition under the effect of tensile force, can also handle the fold on the non-woven fabrics, thereby make the surface fabric of non-woven fabrics be in under the smooth state, and set up moulding cover, the arcwall face of moulding cover inner wall combination axle two, can be abundant make the non-woven fabrics convey to the effect that receives moulding force, make the non-woven fabrics neat.

3. The air current that the fan group produced is dispersed to the hot-blast cover of top in by the air-supply line, the air outlet that sets up on the air-supply line is uncovered in the piece top towards minute wind, and disperse to a plurality of mounting grooves in from its inner chamber, the heating rod circular telegram in the mounting groove forms the high temperature, the air current blows high temperature to the air-out groove from the mounting groove, and contact with the both sides of non-woven fabrics, make the temperature on non-woven fabrics surface rise, and then evaporate the moisture on the non-woven fabrics, and the hot-blast cover of below is blown from intercommunication groove and connecting pipe to the part high temperature air current that forms in the hot-blast cover of top, the hot-blast cover of below is dried the another side of non-woven fabrics, can dry.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is an overall front cross-sectional view of the present invention;

FIG. 2 is a view showing the structure of a printing apparatus according to the present invention;

FIG. 3 is a view of the configuration of the forming mechanism of the present invention;

FIG. 4 is a schematic view of the water removal mechanism of the present invention;

FIG. 5 is a schematic view of a drying mechanism according to the present invention;

fig. 6 is a cross-sectional view of a steam board of the present invention.

In the figure, 1 box body, 2 cloth outlet, 3 cloth inlet, 4 dyeing device, 41 hollow ladder-shaped sleeve, 42 shaft I, 43 steam plate, 431 square sleeve, 432 horizontal pipe, 433 water outlet, 434 first heating strip, 435 second heating strip, 44 sponge layer, 45 external water pipe, 46 clapboard, 47 shaping sleeve, 48 fixing rod, 49 half gear, 410 interlocking rod, 411 extrusion spring, 412 mounting foot, 413 feeding plate, 414 supporting block, 415 supporting spring, 416 articulated seat, 417 fixing seat, 418 shaft lever, 419 side supporting column, 420 smoothing plate, 421 connecting strip, 422 riser, 423 interlocking rod, 424 side lever, 425 elastic plate, 426 arc plate, 427 elastic groove, 428 sliding rod, 429 limit toothed plate, 5 rows of wheels, 6 rod, 7 cross lever, 8 forming mechanism, 81 shaping sleeve, 82 shaping space, 83 shaft sleeve, 84 compression groove, 85 cylinder, 86 arc strip, 87 sliding column, 88 compression spring, 89 limit seat, 810 fixed strips, 811 second shafts, 812 shaping covers, 813 third shafts, 9 dewatering mechanisms, 91 square covers, 92 fixed plates, 93 arc-shaped elastic strips, 94 jacking springs, 95 movable plates, 96 fixed plates, 97 sponge plates, 10 drying mechanisms, 101 drying boxes, 102 fan sets, 103 fourth shafts, 104 hot air covers, 105 air distributing blocks, 106 communicating grooves, 107 connecting pipes, 108 mounting grooves, 109 heating rods, 110 air inlet pipes and 111 air outlets.

Detailed Description

Embodiments of the present application will be described in detail with reference to the drawings and examples, so that how to implement technical means to solve technical problems and achieve technical effects of the present application can be fully understood and implemented.

As shown in fig. 1 to 6, the present invention provides a non-woven fabric printing and dyeing forming system, comprising: the dyeing machine comprises a box body 1, a cloth inlet 3 and a cloth outlet 2 are formed in the right side of the box body 1, four dyeing devices 4 are fixedly connected below the inner cavity of the box body 1 at equal intervals, a servo motor is fixedly connected to the front side of the inner wall of the box body 1, a gang wheel 5 is fixedly connected to the output end of the servo motor, a linkage rod 6 is hinged to the edge of the front side of the gang wheel 5, a cross rod 7 is hinged to the bottom end of the linkage rod 6, the cross rod 7 is fixedly connected with the top end of each dyeing device 4, a forming mechanism 8 is fixedly connected to the left side of the inner wall of the box body 1, a dewatering mechanism 9 and a drying mechanism 10 are fixedly connected to the upper portion of the inner cavity of the box body 1 from left to right, two conveying shafts are arranged above each dyeing device 4, each dyeing device 4 comprises a hollow trapezoidal sleeve 41, a first shaft 42 is movably connected in, the steam plate 43 is communicated with an external water pipe 45, a partition plate 46 is sleeved on a hollow trapezoidal sleeve 41, shaping sleeves 47 are sleeved on the left side and the right side of each partition plate 46, a sliding rod 428 is inserted on each partition plate 46 in a penetrating manner, the upper end and the lower end of each sliding rod 428 are respectively fixedly connected with a vertical plate 422 and a limiting toothed plate 429, the front side and the rear side of the inner wall of each hollow trapezoidal sleeve 41 are fixedly connected through a fixing rod 48, a linkage rod 410 is sleeved on each fixing rod 48, the linkage rod 410 is elastically connected with an installation foot 412 through an extrusion spring 411, the installation foot 412 is hinged with a feeding plate 413, the feeding plate 413 is communicated with an external feeding mechanism, one side of each feeding plate 413 is provided with an ironing layer, the other end of each linkage rod 410 is fixedly connected with a half gear 49, the two half gears 49 are meshed with the left side and the right side of the limiting toothed plate 429, the left side and the right side of, a plurality of elastic grooves 427 have been seted up on the elastic plate 425, the equal fixedly connected with supporting shoe 414 of the left and right sides of the trapezoidal cover 41 of cavity, the top fixedly connected with supporting spring 415 of supporting shoe 414, supporting spring 415's top articulates through articulated seat 416 has smooths flat board 420, smooths the bottom fixedly connected with side support column 419 of board 420, it has axostylus axostyle 418 to alternate on the side support column 419, the cover is equipped with fixing base 417 on the axostylus axostyle 418, fixing base 417 fixed connection is at the top of the trapezoidal cover 41 of cavity, connecting strip 421 and horizontal pole 7 are passed through to the.

The steam plate 43 comprises a square sleeve 431, a first heating strip 434 and a second heating strip 435 are correspondingly arranged in the square sleeve 431, a transverse pipe 432 is sleeved above an inner cavity of the square sleeve 431, and a water outlet 433 is formed in the position, above the first heating strip 434 and the second heating strip 435, of the transverse pipe 432.

When the non-woven fabric is printed and dyed, the non-woven fabric penetrates through two conveying shafts above the non-woven fabric and is sleeved on the first shaft 42, the non-woven fabric is positioned between the steam plate 43 and the feeding plate 413 and is pressed by the steam plate 43 and the feeding plate 413, the non-woven fabric is positioned between the arc plate 426 and the smoothing plate 420 and is pressed by the arc plate 426 and the smoothing plate 420, when an external water receiving pipe supplies water into the steam plate 43, the steam generated in the steam plate 43 overflows from the inside and is uniformly distributed on the non-woven fabric, the pigment uniformly overflows from the feeding plate 413 by an external feeding mechanism, the pigment is uniformly dispersed on the non-woven fabric under the heating of the steam, in the process, the servo motor is started, the output end of the servo motor drives the row wheel 5 to rotate, the row wheel 5 drives the cross rod 7 to move up and down through the interlocking rod 6, the connecting strip 421 hinged on the cross rod 7 moves up and down, the vertical plate 422 on the connecting strip 421 moves up and down, at this time, the side rod 424 hinged by the cross rod 423 drives the elastic plate 425 to contact with one side of the non-woven fabric, and is matched with the flattening plate 420 to flatten the non-woven fabric, so that the water absorbed by the non-woven fabric is reduced, and the condition that wrinkles appear when the fabric is subjected to steam can be avoided, the quality of non-woven fabric printing and dyeing is improved, in the process, the vertical plate 422 can drive the limit toothed plate 429 to move up and down, when the limit toothed plate 429 moves upwards, the limit toothed plate 429 drives the half gear 49 to rotate, so that the feeding plate 413 moves downwards on the non-woven fabric, when the limit toothed plate 429 moves downwards, the limit toothed plate 429 drives the half gear 49 to rotate, so that the feeding plate 413 moves upwards on the non-woven fabric, frequent reciprocal like this can increase the even smearing of coating on the non-woven fabrics, can evenly shakeout steam on the non-woven fabrics moreover, and then the effect that can print and dye.

Forming mechanism 8 is including moulding type cover 81, be provided with moulding space 82 in moulding type cover 81, moulding space 82 right side opening, moulding space 82 cover is equipped with two 811 of axle, both ends all overlap and are equipped with axle sleeve 83 around two 811 of axle, the cover is equipped with fixed strip 810 on two axle sleeves 83 on the same perpendicular line, compression groove 84 has been seted up on the fixed strip 810, axle sleeve 83 cup joints in compression groove 84, axle sleeve 83's outside fixedly connected with cylinder 85, two spacing seats 89 of outside fixedly connected with of fixed strip 810, fixedly connected with traveller 87 on the spacing seat 89, the spacing groove of seting up on the spacing seat 89 is run through to the one end of traveller 87 and extend to its outside and with arc 86 fixed connection, the cover is equipped with compression spring 88 on the traveller 87, the equal fixedly connected with moulding cover 812 in the upper and lower both sides of moulding space 82 inner wall, moulding space 82 inner chamber right side.

And when the non-woven fabrics winding is on two axles 811, in the in-process of non-woven fabrics conveying, because two settings are on the vertical direction, and non-woven fabrics horizontal transfer, two axles 811 are under compression spring 88's effect, the state that can tighten between two axles 811, can be with the cloth tensioning of printing and dyeing, make above-mentioned moisture break away from the non-woven fabrics under the condition of tensioning force like this, in addition under the effect of tensioning force, can also handle the fold on the non-woven fabrics, thereby make the surface fabric of non-woven fabrics be in under the smooth state, and set up moulding cover 812, the arcwall of moulding cover 812 inner wall combination axle two 811, can be abundant make the non-woven fabrics receive the effect of pressfitting in conveying, make the neat moulding of non-woven fabrics.

Dewatering mechanism 9 includes two square covers 91, the equal fixedly connected with fixed plate 92 in the left and right sides of square cover 91 inner wall, two relative one sides of fixed plate 92 are through two arc elasticity strip 93 fixed connection, stretch spring 94 elastic connection through two tops between two arc elasticity strips 93, square cover 91 endotheca is equipped with fly leaf 95, fly leaf 95 and one of them arc elasticity strip 93 fixed connection, one side fixedly connected with fixed plate 96 of fly leaf 95, fixed plate 96 runs through the logical groove of seting up on one side of square cover 91 inner wall, one side fixedly connected with sponge board 97 of fixed plate 96.

Pass the non-woven fabrics between two sponge boards 97, under the elastic action of two arc elastic strip 93, two sponge boards 97 can be stable with the non-woven fabrics pressfitting compacter, and the non-woven fabrics through sponge board 97 and with sponge board 97 complete contact, sponge board 97 can wipe the moisture on the non-woven fabrics, so can further increase non-woven fabrics degree of drying.

Drying mechanism 10 is including drying cabinet 101, drying cabinet 101 top cover is equipped with fan group 102, drying cabinet 101 undulate and is provided with a plurality of four 103 axles, it all is provided with hot-blast cover 104 to be located between the adjacent two four 103 axles of level, hot-blast cover 104 endotheca is equipped with and divides wind piece 105, intercommunication groove 106 has all been seted up on two adjacent hot-blast covers 104, and two intercommunication grooves 106 communicate through connecting pipe 107, divide the impartial distance in left and right sides of wind piece 105 to set up a plurality of mounting grooves 108, mounting groove 108 communicates with each other with a minute wind piece 105 inner chamber, divide the open setting in wind piece 105 top, install heating rod 109 in mounting groove 108, hot-blast cover 104 endotheca is equipped with air-supply line 110, air-supply line 110 communicates with the air outlet of fan group 102, air outlet 111 has been seted up to the bottom of air-supply.

The non-woven fabric is wound around the shaft four 103 arranged up and down and forms a wave-shaped conveying state, the non-woven fabric passes through a conveying channel formed between the hot air hoods 104 arranged correspondingly, the fan set 102 is started, airflow generated by the fan set 102 is dispersed into the hot air hoods 104 arranged above by the air inlet pipe 110, the air outlet 111 arranged on the air inlet pipe 110 faces to the opening at the top of the air distribution block 105, and is dispersed into a plurality of mounting grooves 108 from the inner cavity thereof, the heating rods 109 in the mounting grooves 108 are electrified to form high temperature, the air flow blows the high temperature from the mounting grooves 108 to the air outlet grooves and contacts with the two sides of the non-woven fabric, so that the temperature of the surface of the non-woven fabric is increased, further, moisture on the nonwoven fabric is evaporated, and a part of the high-temperature air flow formed in the upper hot-air hood 104 is blown to the lower hot-air hood 104 from the communicating groove 106 and the connecting pipe 107, and the other surface of the nonwoven fabric is dried by the lower hot-air hood 104, so that both surfaces of the nonwoven fabric can be dried.

A conveying shaft rod is arranged in a conveying groove formed in the left side of the drying box 101, and the bottom of the shaft IV 103 on the right side and the middle point of the inner cavity of the conveying groove on the right side are positioned on the same horizontal plane.

A printing and dyeing forming method of a non-woven fabric printing and dyeing forming system comprises the following steps:

firstly, when printing and dyeing the non-woven fabric, the non-woven fabric passes through two conveying shafts above and is sleeved on a first shaft 42, so that the non-woven fabric is positioned between a steam plate 43 and a feeding plate 413 and is pressed by the steam plate 43 and the feeding plate 413, so that the non-woven fabric is positioned between an arc plate 426 and a smoothing plate 420 and is pressed by the arc plate 426 and the smoothing plate 420, when an external water receiving pipe supplies water into the steam plate 43, the steam generated in the steam plate 43 overflows from the inside and is uniformly distributed on the non-woven fabric, an external feeding mechanism uniformly overflows pigments from the feeding plate 413, the pigments are uniformly dispersed on the non-woven fabric under the heating of the steam, in the process, a servo motor is started, an output end of the servo motor drives a row wheel 5 to rotate, the row wheel 5 drives a cross rod 7 to move up and down through a linkage rod 6, and a connecting strip 421 hinged on the cross rod 7 moves up and down, at this time, the vertical plate 422 on the connecting strip 421 moves up and down, and at this time, the side bar 424 hinged by the cross bar 423 drives the elastic plate 425 to contact with one side of the non-woven fabric, and is matched with the flattening plate 420 to flatten the non-woven fabric, so that the water absorbed by the non-woven fabric is reduced, and the condition that wrinkles appear when the fabric is subjected to steam can be avoided, the quality of non-woven fabric printing and dyeing is improved, in the process, the vertical plate 422 can drive the limit toothed plate 429 to move up and down, when the limit toothed plate 429 moves upwards, the limit toothed plate 429 drives the half gear 49 to rotate, so that the feeding plate 413 moves downwards on the non-woven fabric, when the limit toothed plate 429 moves downwards, the limit toothed plate 429 drives the half gear 49 to rotate, so that the feeding plate 413 moves upwards on the non-woven fabric, the frequent reciprocation can increase the effect that the coating is uniformly coated on the non-woven fabric, and the steam can be uniformly spread on the non-woven fabric, so that the printing and dyeing can be realized;

secondly, when the non-woven fabric is wound on the two second shafts 811, in the process of conveying the non-woven fabric, because the two shafts are arranged in the vertical direction and the non-woven fabric is conveyed horizontally, the two second shafts 811 can be in a tight state under the action of the compression spring 88, the printed and dyed fabric can be tensioned, so that the water on the two shafts is separated from the non-woven fabric under the tensioning force, in addition, the folds on the non-woven fabric can be processed under the action of the tensioning force, so that the fabric of the non-woven fabric is in a flat state, and a shaping cover 812 is further arranged, the inner wall of the shaping cover 812 is combined with the arc-shaped surface of the second shafts 811, so that the non-woven fabric can be fully conveyed to be under the action of the pressing force;

a third step; the non-woven fabric passes through the space between the two sponge plates 97, the two sponge plates 97 can stably press and compact the non-woven fabric under the elastic action of the two arc-shaped elastic strips 93, the non-woven fabric passes through the sponge plates 97 and is completely contacted with the sponge plates 97, and the sponge plates 97 can wipe water on the non-woven fabric, so that the drying degree of the non-woven fabric can be further increased;

the fourth step; the non-woven fabric is wound around the shaft four 103 arranged up and down and forms a wave-shaped conveying state, the non-woven fabric passes through a conveying channel formed between the hot air hoods 104 arranged correspondingly, the fan set 102 is started, airflow generated by the fan set 102 is dispersed into the hot air hoods 104 arranged above by the air inlet pipe 110, the air outlet 111 arranged on the air inlet pipe 110 faces to the opening at the top of the air distribution block 105, and is dispersed into a plurality of mounting grooves 108 from the inner cavity thereof, the heating rods 109 in the mounting grooves 108 are electrified to form high temperature, the air flow blows the high temperature from the mounting grooves 108 to the air outlet grooves and contacts with the two sides of the non-woven fabric, so that the temperature of the surface of the non-woven fabric is increased, further, moisture on the nonwoven fabric is evaporated, and a part of the high-temperature air flow formed in the upper hot-air hood 104 is blown to the lower hot-air hood 104 from the communicating groove 106 and the connecting pipe 107, and the other surface of the nonwoven fabric is dried by the lower hot-air hood 104, so that both surfaces of the nonwoven fabric can be dried.

As used in the specification and in the claims, certain terms are used to refer to particular components. As one skilled in the art will appreciate, manufacturers may refer to a component by different names. This specification and claims do not intend to distinguish between components that differ in name but not function. In the following description and in the claims, the terms "include" and "comprise" are used in an open-ended fashion, and thus should be interpreted to mean "include, but not limited to. "substantially" means within an acceptable error range, and a person skilled in the art can solve the technical problem within a certain error range to achieve the technical effect basically.

It is noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a good or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such good or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of additional like elements in the article or system in which the element is included.

The foregoing description shows and describes several preferred embodiments of the invention, but as before, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. A non-woven fabric printing and dyeing forming system is characterized by comprising: a box body (1), a cloth inlet (3) and a cloth outlet (2) are arranged on the right side of the box body (1), four printing and dyeing devices (4) are fixedly connected with the lower part of the inner cavity of the box body (1) at equal intervals, the front side of the inner wall of the box body (1) is fixedly connected with a servo motor, the output end of the servo motor is fixedly connected with a row wheel (5), the edge of the front surface of the row wheel (5) is hinged with a linkage rod (6), the bottom end of the linkage rod (6) is hinged with a cross rod (7), the cross bar (7) is fixedly connected with the top end of the printing and dyeing device (4), the left side of the inner wall of the box body (1) is fixedly connected with a forming mechanism (8), a dewatering mechanism (9) and a drying mechanism (10) are fixedly connected above the inner cavity of the box body (1) from left to right, and two conveying shafts are arranged above each printing and dyeing device (4); the printing and dyeing device (4) comprises a hollow trapezoidal sleeve (41), a first shaft (42) is movably connected in the hollow trapezoidal sleeve (41), steam plates (43) are arranged on the left side and the right side of the hollow trapezoidal sleeve (41), a sponge layer (44) is fixedly connected to the outer sides of the steam plates (43), an external water pipe (45) is communicated with the steam plates (43), a partition plate (46) is sleeved on the hollow trapezoidal sleeve (41), shaping sleeves (47) are sleeved on the left side and the right side of the partition plate (46), a sliding rod (428) is inserted on the partition plate (46), a vertical plate (422) and a limiting toothed plate (429) are fixedly connected to the upper end and the lower end of the sliding rod (428) respectively, the front side and the rear side of the inner wall of the hollow trapezoidal sleeve (41) are fixedly connected through fixing rods (48), a linkage rod (410) is sleeved on the fixing rods (48), and a mounting foot (412) is elastically connected to the linkage rod (410) through an extrusion, a feeding plate (413) is hinged to the mounting foot (412), the feeding plate (413) is communicated with an external feeding mechanism, an ironing layer is arranged on one side of the feeding plate (413), a half gear (49) is fixedly connected to the other end of the linkage rod (410), the two half gears (49) are meshed with the left side and the right side of the limiting toothed plate (429), the left side and the right side of the vertical plate (422) are hinged to side rods (424) through hinge rods (423), one end of each side rod (424) is hinged to an elastic plate (425), one side of each elastic plate (425) is fixedly connected to an arc-shaped plate (426), a plurality of elastic grooves (427) are formed in each elastic plate (425), supporting blocks (414) are fixedly connected to the left side and the right side of the hollow trapezoidal sleeve (41), supporting springs (415) are fixedly connected to the tops of the supporting blocks (414), and a stroking plate (420) is hinged to the top ends of the supporting springs (415), the bottom fixedly connected with of tending dull and stereotyped (420) collateral branch pillar (419), it has shaft lever (418) to alternate on collateral branch pillar (419), the cover is equipped with fixing base (417) on shaft lever (418), fixing base (417) fixed connection in the top of trapezoidal cover of cavity (41), the top of riser (422) pass through connecting strip (421) with horizontal pole (7) are articulated.

2. The non-woven fabric printing and dyeing molding system according to claim 1, wherein: steam plate (43) are including square cover (431), correspond in square cover (431) and be provided with first heating strip (434) and second heating strip (435), the top cover of square cover (431) inner chamber is equipped with violently pipe (432), violently pipe (432) are located mouth (433) down have all been seted up to the top of first heating strip (434) and second heating strip (435).

3. The non-woven fabric printing and dyeing forming system according to claim 2, wherein: the molding mechanism (8) comprises a molding sleeve (81), a molding space (82) is arranged in the molding sleeve (81), the molding space (82) is opened at the right side, the molding space (82) is sleeved with two shafts (811), the two shafts (811) are sleeved with shaft sleeves (83) at the front and rear ends, a fixing strip (810) is sleeved on the two shaft sleeves (83) on the same vertical line, a compression groove (84) is formed in the fixing strip (810), the shaft sleeves (83) are sleeved in the compression groove (84), a cylinder (85) is fixedly connected to the outer side of each shaft sleeve (83), two limit seats (89) are fixedly connected to the outer side of each fixing strip (810), a sliding column (87) is fixedly connected to the limit seats (89), one end of the sliding column (87) penetrates through the limit grooves formed in the limit seats (89), extend to the outer side of the limit grooves and are fixedly connected with an arc-shaped strip (86), the sliding column (87) is sleeved with a compression spring (88), the upper side and the lower side of the inner wall of the shaping space (82) are fixedly connected with shaping covers (812), and the right side of the inner cavity of the shaping space (82) is provided with a third shaft (813).

4. The system of claim 3, wherein the printing system comprises: dewatering mechanism (9) includes two square covers (91), the equal fixedly connected with fixed plate (92) in the left and right sides of square cover (91) inner wall, two relative one side of fixed plate (92) is through two arc elasticity strip (93) fixed connection, two stretch spring (94) elastic connection through two tops between arc elasticity strip (93), square cover (91) endotheca is equipped with fly leaf (95), fly leaf (95) and one of them arc elasticity strip (93) fixed connection, one side fixedly connected with fixed plate (96) of fly leaf (95), fixed plate (96) run through the logical groove of seting up on one side of square cover (91) inner wall, one side fixedly connected with sponge board (97) of fixed plate (96).

5. The system of claim 4, wherein the printing system comprises: the drying mechanism (10) comprises a drying box (101), a fan set (102) is sleeved on the top of the drying box (101), the drying box (101) is provided with a plurality of shaft four parts (103) in a wavy manner, a hot air cover (104) is arranged between every two adjacent shaft four parts (103), a wind distribution block (105) is sleeved in the hot air cover (104), two adjacent hot air covers (104) are respectively provided with a communicating groove (106), the two communicating grooves (106) are communicated through a connecting pipe (107), a plurality of mounting grooves (108) are arranged on the left side and the right side of the wind distribution block (105) at equal distances, the mounting grooves (108) are communicated with the inner cavity of the wind distribution block (105), the top of the wind distribution block (105) is opened, a heating rod (109) is arranged in the mounting groove (108), an air inlet pipe (110) is sleeved in the hot air cover (104), and the air inlet pipe (110) is communicated with an air outlet of the fan set (102), an air outlet (111) is formed in the bottom of the air inlet pipe (110), and air outlet grooves are formed in two sides of the hot air cover (104).

6. The system of claim 5, wherein: a conveying shaft rod is arranged in a conveying groove formed in the left side of the drying box (101), and the bottom of a shaft IV (103) on the right side and the middle point of an inner cavity of the conveying groove on the right side are located on the same horizontal plane.

7. The textile printing and forming method of a nonwoven fabric textile printing and forming system according to claims 1 to 6, characterized in that: the method comprises the following steps:

firstly, when the non-woven fabric is printed and dyed, the non-woven fabric penetrates through two conveying shafts above the non-woven fabric and is sleeved on a first shaft (42), so that the non-woven fabric is positioned between a steam plate (43) and a feeding plate (413) and is pressed by the steam plate (43) and the feeding plate (413), so that the non-woven fabric is positioned between an arc plate (426) and a smoothing plate (420) and is pressed by the arc plate (426) and the smoothing plate (420), when an external water receiving pipe supplies water into the steam plate (43), steam generated in the steam plate (43) overflows from the inside and is uniformly distributed on the non-woven fabric, an external feeding mechanism uniformly overflows pigments from the feeding plate (413), under the heating of the steam, the pigments are uniformly dispersed on the non-woven fabric, in the process, a servo motor is started, an output end of the servo motor drives a row wheel (5) to rotate, the row wheel (5) drives a cross rod (7) to move up and down through a linkage rod (6), articulate connecting strip (421) on horizontal pole (7) and reciprocate, at this moment, riser (422) reciprocate on connecting strip (421), side lever (424) through joint pole (423) articulated this moment drives elastic plate (425) and a side contact of non-woven fabrics, and with smooth flat board (420) mutually support with it and shakeout the operation, make the absorbent moisture of non-woven fabrics reduce, and can avoid receiving the condition that steam appears the fold, the quality of non-woven fabrics printing and dyeing has been increased, above-mentioned process, riser (422) can drive spacing pinion rack (429) and reciprocate, when spacing pinion rack (429) rebound, spacing pinion rack (429) drive half gear (49) and rotate, make feed board (413) rebound on the non-woven fabrics, the frequent reciprocation can increase the effect that the coating is uniformly coated on the non-woven fabric, and the steam can be uniformly spread on the non-woven fabric, so that the printing and dyeing can be realized;

secondly, when the non-woven fabric is wound on the two second shafts (811), in the process of conveying the non-woven fabric, because the two second shafts are arranged in the vertical direction and the non-woven fabric is conveyed horizontally, the two second shafts (811) can be in a tightened state under the action of the compression spring (88), the printed and dyed fabric can be tensioned, so that the moisture on the upper surface is separated from the non-woven fabric under the condition of tensioning force, in addition, the folds on the non-woven fabric can be treated under the action of the tensioning force, so that the fabric of the non-woven fabric is in a flat state, and a shaping cover (812) is further arranged, the inner wall of the shaping cover (812) is combined with the arc-shaped surface of the second shafts (811), so that the non-woven fabric can be sufficiently conveyed to be subjected to the action of pressing force, and;

a third step; the non-woven fabric penetrates between the two sponge plates (97), the two sponge plates (97) can stably press and compact the non-woven fabric under the elastic action of the two arc-shaped elastic strips (93), the non-woven fabric passes through the sponge plates (97) and is completely contacted with the sponge plates (97), and the sponge plates (97) can wipe moisture on the non-woven fabric, so that the drying degree of the non-woven fabric can be further increased;

the fourth step; the non-woven fabric is wound along a shaft four (103) arranged up and down and is in a wave-shaped conveying state, the non-woven fabric passes through a conveying channel formed between hot air hoods (104) arranged correspondingly, a fan set (102) is started, airflow generated by the fan set (102) is dispersed into the upper hot air hood (104) by an air inlet pipe (110), an air outlet (111) arranged on the air inlet pipe (110) faces to an open mouth at the top of an air distribution block (105) and is dispersed into a plurality of mounting grooves (108) from the inner cavity of the air distribution block, a heating rod (109) in the mounting groove (108) is electrified to form high temperature, the airflow blows the high temperature from the mounting groove (108) to an air outlet groove and is contacted with the two sides of the non-woven fabric, so that the temperature of the surface of the non-woven fabric is increased, the moisture on the non-woven fabric is evaporated, and part of the high-temperature airflow formed in the upper hot air hood (104) is blown, the hot air cover (104) at the lower part dries the other surface of the non-woven fabric, and at the moment, the two surfaces of the non-woven fabric can be dried.

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