CN107641981A - A kind of multicolor reflection dyeing method - Google Patents

Abstract

The invention provides a kind of multicolor reflection dyeing method.It is excessively simple that it solves the step of existing dyeing and printing process, without corresponding technological parameter, it is necessary to by experiential operating, the technical problem such as cumbersome.This multicolor reflection dyeing method, is comprised the following steps that：A, the purchase existing cotton of in the market washs composite material, and fabric is cleared up by vacuum cleaner；B, 20 40 parts of 6 18 parts of reactive dye, 10 20 parts of starch, 3 10 parts of urea, 2 12 parts of emulsion thickening and water are weighed to be put into beater and be beaten, printing paste is made；C, required pattern is formed by printing paste spray printing to fabric by printing system；D, the fabric after stamp is evaporated into processing in the case where temperature is 92 104 DEG C；E, the fabric after evaporating is washed, washing times are 14 times；F, high temperature baking is carried out to the fabric after washing by baking oven, that is, obtains finished product.The present invention has the advantages of printing and dyeing facilitate.

Description

A kind of multicolor reflection dyeing method

Technical field

The present invention relates to a kind of dyeing method, particularly a kind of multicolor reflection dyeing method.

Background technology

With continuous improvement of the people to material life, people increasingly like to gorgeous color, when particularly pursuing Young man still, like wearing the dress ornament that color is colorful or level is distinct.

Through retrieval, as Chinese patent literature discloses a kind of dyeing and printing process of multicolour cloth【Application number： 201010293914.3；Publication number：CN 102041693A】.The dyeing and printing process of this multicolour cloth, described cloth include Fiber bodies, background color layer and table chromatograph, the dyeing and printing process of the multicolour cloth comprise the following steps：A. printing and dyeing background color layer, b. prints Contaminate table chromatograph, c. washing process, d. reduction carrying out washing treatment, e. cleaning clothes.

Although the dyeing and printing process disclosed in the patent can form multicoloured cloth, the mistake the step of dyeing and printing process It is cumbersome without corresponding technological parameter, it is necessary to by experiential operating in simple, therefore, design a kind of multicolor reflection print Dyeing method is necessary.

The content of the invention

The purpose of the present invention is above mentioned problem be present for existing technology, it is proposed that a kind of multicolor reflection dyeing method, The dyeing method has the characteristics of printing and dyeing facilitate.

The purpose of the present invention can be realized by following technical proposal：A kind of multicolor reflection dyeing method, it is characterised in that Comprise the following steps that：

A, the purchase existing cotton of in the market washs composite material, and fabric is cleared up by vacuum cleaner；

B, reactive dye 6-18 parts, starch 10-20 parts, urea 3-10 parts, emulsion thickening 2-12 parts and water 20-40 parts is weighed to put Enter and be beaten into beater, printing paste is made；

C, required pattern is formed by printing paste spray printing to fabric by printing system；

D, the fabric after stamp is evaporated into processing in the case where temperature is 92-104 DEG C；

E, the fabric after evaporating is washed, washing times are 1-4 times；

F, high temperature baking is carried out to the fabric after washing by baking oven, that is, obtains finished product.

Using above method, by stamp, the step such as evaporate, wash and bakee, so that it may realize its printing and dyeing, and each step is joined Number is more detailed, and printing and dyeing are convenient.

Reactive dye in the step b include 3 kinds of colors, are respectively red, green and blueness.

Beating time in the step b is 8-12min.

Stoving temperature in the step f is 135-155 DEG C.

Printing system in the step c includes frame, and mounting bracket is fixed with frame, and printing spray is provided with mounting bracket Head, the conveying device that fabric can be conveyed to printing head is provided with frame, and conveying device includes rotating shaft, the first rotating disk and second Rotating disk, rotating shaft are horizontally set in frame, and roller end can drive its rotating mechanism rotated to be connected with one, the first rotating disk and the Two rotating disks are separately fixed on rotating shaft both ends, are provided between the first rotating disk and the second rotating disk and are put for some of placed side material volume Axle is put, axle one end is placed and is arranged on by the first demountable structure on the first rotating disk, it is detachable by second to place the axle other end Structure setting is provided with to drive on the second rotating disk, in frame places the drive mechanism that axle rotates.

The material of the mounting bracket is stainless steel.

The operation principle of printing system is as follows：The placement axle one end for being placed with fabric volume is consolidated by the first demountable structure Determine onto the first rotating disk, the axle other end will be placed and be fixed to by the second demountable structure on the second rotating disk, pass through drive mechanism Drive wherein one to place axle to rotate, fabric is transported at printing head it is printed, when this root places the fabric of axle After having printed, axis of rotation is driven by rotating mechanism, rotating shaft drives the first rotating disk and the second rotating disk to rotate, and makes another placement Axle goes to operating position, and drive mechanism drives another to place axle and rotated, and continuous uninterrupted conveying operation, production efficiency can be achieved It is high.

The rotating mechanism includes stepper motor, driving wheel, driven pulley and timing belt, and stepper motor is fixed in frame, Driving wheel is fixed on the output shaft of stepper motor, and driven pulley is fixed in rotating shaft, and timing belt is set in driving wheel and driven pulley On.

When needing to make axis of rotation, the output shaft rotation of stepper motor is controlled, the output shaft of stepper motor drives actively Wheel rotates, and driving wheel drives driven pulley to rotate by timing belt, and driven pulley drives axis of rotation, can make axis of rotation.

The drive mechanism includes driving gear, some driven gears, servomotor and installing plate, installing plate and is arranged on machine On frame, installing plate can drive the lift cylinder of its oscilaltion to be connected with one, and servomotor is fixed on a mounting board, servomotor Output shaft be horizontally disposed with, driving gear is fixed on the output shaft of servomotor, and some driven gears are separately fixed at accordingly Placement axle on, and driving gear can be meshed with driven gear.

When needing to rotate placement axle, the piston rod of lift cylinder is controlled to drive installing plate to move up and down, installing plate band Dynamic servomotor moves up and down, and servomotor drives driving gear to move up and down, and driving gear and driven gear is in contact；Control The output shaft rotation of servomotor processed, the output shaft of servomotor drive driving gear to rotate, and driving gear drives driven gear Rotate, driven gear drives corresponding axle of placing to rotate, and can rotate placement axle.

It is provided with the controlling organization that servomotor can be controlled to act in the frame, controlling organization includes storage cloth box, up Cheng Kaiguan, lower stroke switch, detection bar and controller, storage cloth box are arranged in frame by retaining spring, and detection bar is fixed on Store up on cloth box, the adjustment structure that upper stroke switch and lower stroke switch both can adjusts distances by one is arranged in frame, inspection Between upper stroke switch and lower stroke switch, detection bar can be in contact measuring staff with upper stroke switch, lower stroke switch respectively, Servomotor, upper stroke switch and lower stroke switch are connected with the controller.

Using above structure, place the fabric on axle and account in the presence of on storage cloth box, with the increase of fabric, storage cloth tape moves inspection Measuring staff is moved down, and signal is passed to controller by detection bar and lower stroke switch contact, lower stroke switch, and controller control is watched Motor is taken to be stopped, as cloth is gradually transported at printing head, storage cloth tape moves detection bar and moved up, detection bar and Upper stroke switch is contacted, and signal is passed to controller by upper stroke switch, and controller control servomotor is started working, controlling party Just.

The adjustment structure includes guide rail, top shoe, sliding block, drive cylinder, regulating block, upper connecting rod and lower link, leads Rail is fixed in frame vertically, and top shoe and sliding block are separately positioned on guide rail, and upper stroke switch is fixed on top shoe, under Travel switch is fixed on sliding block, and the cylinder body of drive cylinder is fixed in frame, and the piston rod of drive cylinder is horizontally disposed with, and is driven The take offence piston rod end of cylinder is connected with regulating block, and regulating block is between top shoe and sliding block, upper connecting rod one end and tune Locking nub is hinged, and the upper connecting rod other end and top shoe are hinged, and lower link one end and regulating block are hinged, the lower link other end and Sliding block is hinged.

Using above structure, the piston rod of drive cylinder is controlled to move back and forth, the piston rod of drive cylinder drives regulating block Move back and forth, regulating block make upper stroke switch and lower stroke switch closer or far from, can adjust detection bar detection sensitivity, adjust Section is convenient.

First demountable structure includes the first installation axle, the first limited block and the first spring, first installation axle one end It is fixed on the first rotating disk, the first installation axle other end sidepiece offers the first mounting groove, and the first peace can be put into by placing axle one end In tankage, the first installation axle other end sidepiece is further opened with the first stopper slot to be connected with the first mounting groove, the first spring and First limited block is successively set in the first stopper slot, and is placed axle one end energy and be leant with the first limited block；Described second can Detaching structure includes the second installation axle, the second limited block and second spring, and second installation axle one end is fixed on the second rotating disk, the Two installation axle other end sidepieces offer the second mounting groove, and placing the axle other end can be put into the second mounting groove, the second installation axle Other end sidepiece is further opened with the second stopper slot to be connected with the second mounting groove, and second spring and the second limited block are set gradually In the second stopper slot, and place axle other end energy and be leant with the second limited block.

When needs, which will place axle, to be fixed, the first limited block of pressing makes the first spring-compressed, will place axle one end and is put into In first mounting groove, meanwhile, the second limited block of pressing compresses second spring, will place the axle other end and is put into the second mounting groove In, it can will place axle and position, convenient disassembly.

Being additionally provided with the frame can be to the ink-feeding device of progress ink conveying at printing head, and ink-feeding device includes matching somebody with somebody Black case, upper spacer, lower clapboard, charge pipe and delivery pipe, it is fixed on black case in frame, upper spacer and lower clapboard are successively set on With in black case, and upper spacer and lower clapboard will be divided into stir chamber, middle temporary storage cavity, lower feed chamber, upper stir chamber with black box cavity Charge door be connected with charge pipe one end, the charge pipe other end can be connected with the external world, and charge pump is additionally provided with charge pipe, The inlet of lower feed chamber is connected with delivery pipe one end, and the delivery pipe other end is connected with printing head, is also set up in delivery pipe There is delivery pump, there is the first communicating pipe that upper stir chamber can be connected with middle temporary storage cavity on upper spacer, gone back on the first communicating pipe The first magnetic valve and the first check valve are provided with, has middle temporary storage cavity can be connected with lower feed chamber second to connect on lower clapboard Siphunculus, second solenoid valve and the second check valve are additionally provided with the second communicating pipe, upper installing hole, upper peace are further opened with upper spacer Fill and flexible upper shake piece is set at hole, the first vibrating motor is fixed with upper shake piece, and the first vibrating motor is positioned at upper It is further opened with lower mounting hole in stir chamber, on lower clapboard, flexible lower shake piece is set at lower mounting hole, and lower shake piece Elasticity is more than the elasticity of upper shake piece, and the second vibrating motor is fixed with lower shake piece, and the second vibrating motor be located in keep in Intracavitary.

When needing, to when conveying ink at printing head, to open charge pump, by charge pipe by feedstock transportation to upper stirring Intracavitary, control the first vibrating motor work, the first vibrating motor make to shake piece and produce to shake up and down, raw material are stirred, The ink prepared is transported in middle temporary storage cavity by the first communicating pipe and temporarily deposited, control the second vibrating motor work, the Two vibrating motors make lower shake piece produce shake up and down, avoid the ink in middle temporary storage cavity from precipitating, pass through for the second communicating pipe It is transported in lower feed chamber, opens delivery pump, ink is transported at printing head by delivery pipe, so as to realizes that ink supply is made Industry, ink supply are quick；Due to the effect of the first vibrating motor, the second vibrating motor, upper shake piece and lower shake piece, stirring can be made The synchronous shake up and down of three chamber, middle temporary storage cavity, lower feed chamber chambers, and upper shake piece and lower shake piece can be deformed, and can make it The volume of three can be allocated as needed, and space availability ratio is high.

Rabbling mechanism is additionally provided with the upper stir chamber, rabbling mechanism includes rotating bar, mounting disc and swivel becket, rotates Bar is vertically arranged in stir chamber, and upper stir chamber is stretched out in rotating bar upper end can drive its reducing motor rotated to be connected with one, Rotating bar lower end is connected with mounting disc, and some through holes are offered in mounting disc, and mounting disc lower surface is fixed with stirring vane, installation Disk upper surface offers chute in a ring, and swivel becket is arranged in chute, sliding if swivel becket sidepiece has the projection of dry elasticity Some pulp-collecting box can be further fixed on swivel becket, and pulp-collecting box can be located at charging with the stopper of bump contact by also having in groove Mouthful underface, be further opened with some material paths on pulp-collecting box.

When needing to be stirred it, the output shaft rotation of reducing motor, the output shaft band turn of reducing motor are controlled Lever rotates, and rotating bar drives mounting disc to rotate, and because stopper stops projection, makes to go out between swivel becket and mounting disc Existing differential is rotated, and the raw material part in charge pipe is dropped in corresponding pulp-collecting box, and upper stir chamber is output to from material path Everywhere, meanwhile, mounting disc drives stirring vane to rotate, and so as to which raw material is stirred, mixing effect is good.

Connecting spring, connecting spring upper end and upper shake piece phase are additionally provided between the upper shake piece and lower shake piece Even, connecting spring lower end is connected with lower shake piece.

Using above structure, by the connection function of connecting spring, can make to shake piece and lower shake piece between the two on Lower linkage.

The 3rd check valve is additionally provided with the delivery pipe.

Flexible accessory plate, connection strap and lower feed of the accessory plate surrounding by elasticity are also set up in the lower feed chamber Cavity wall is connected, and is further fixed on push-rod electric machine in lower feed chamber, the push rod of push-rod electric machine straight up, the push rod end of push-rod electric machine Portion is connected by connecting rod with accessory plate middle part, the via hole of some spirals is offered on accessory plate, the aperture of via hole is by outer Inwardly diminish successively.

Using above structure, the push rod of push-rod electric machine is controlled to move down, the push rod of push-rod electric machine drives accessory plate downward It is mobile, accessory plate is formed concave inward structure, cooperation aperture ecto-entad diminishes successively and the via hole of spiral, can make lower feed chamber Ink inside everywhere is synchronous to flowing at inlet, so as to avoid the ink at lower feed chamber because inwall causes it to lag Property, auxiliary is convenient.

Compared with prior art, this multicolor reflection dyeing method has the advantage：In the present invention by stamp, evaporate, water The step such as case and baking, so that it may its printing and dyeing is realized, and each step parameter is more detailed, printing and dyeing are convenient.

Brief description of the drawings

Fig. 1 is the dimensional structure diagram of the present invention.

Fig. 2 is the planar structure schematic diagram of rotating mechanism in the present invention.

Fig. 3 is the planar structure schematic diagram of controlling organization in the present invention.

Fig. 4 is the explosive view that the present invention removes part.

Fig. 5 is the planar structure schematic diagram of ink-feeding device in the present invention.

Fig. 6 is the dimensional structure diagram of rabbling mechanism in the present invention.

In figure, 1, frame；2nd, mounting bracket；3rd, lift cylinder；4th, printing head；5th, the first rotating disk；6th, rotating shaft；7th, place Axle；8th, driving gear；9th, driven gear；10th, the second rotating disk；11st, servomotor；12nd, installing plate；13rd, support；14th, timing belt； 15th, driven pulley；16th, driving wheel；17th, stepper motor；18th, retaining spring；19th, guide rail；20th, lower stroke switch；21st, sliding block； 22nd, lower link；23rd, drive cylinder；24th, regulating block；25th, upper connecting rod；26th, top shoe；27th, upper stroke switch；28th, detection bar； 29th, cloth box is stored up；30th, controller；31st, the first installation axle；31a, the first mounting groove；31b, the first stopper slot；32nd, the second installation Axle；32a, the second mounting groove；32b, the second stopper slot；33rd, second spring；34th, the second limited block；35th, the first limited block；36、 First spring；37th, with black case；37a, upper stir chamber；37b, middle temporary storage cavity；37c, lower feed chamber；38th, the second check valve；39th, Two communicating pipes；41st, second solenoid valve；42nd, lower clapboard；43rd, the first check valve；44th, the first communicating pipe；45th, the first magnetic valve； 46th, upper spacer；47th, charge pump；48th, charge pipe；49th, the first vibrating motor；50th, upper shake piece；51st, connecting spring；52nd, second Vibrating motor；53rd, lower shake piece；54th, connection strap；55th, the 3rd check valve；56th, delivery pump；57th, delivery pipe；58th, push-rod electric machine； 59th, accessory plate；61st, swivel becket；61a, projection；62nd, mounting disc；62a, chute；63rd, pulp-collecting box；63a, material path；64th, slow down Motor；65th, rotating bar；66th, stopper；67th, stirring vane.

Embodiment

It is the specific embodiment of the present invention and with reference to accompanying drawing below, technical scheme is further described, But the present invention is not limited to these embodiments.

This multicolor reflection dyeing method, is comprised the following steps that：

A, the purchase existing cotton of in the market washs composite material, and fabric is cleared up by vacuum cleaner；

B, reactive dye 6-18 parts, starch 10-20 parts, urea 3-10 parts, emulsion thickening 2-12 parts and water 20-40 parts is weighed to put Enter and be beaten into beater, printing paste is made；In the present embodiment, 9 parts of reactive dye, 13 parts of starch, urea 7 are weighed 28 parts of part, 6 parts of emulsion thickening and water are put into beater and are beaten, and printing paste is made；Reactive dye and emulsion thickening use The current material that in the market can be bought；

C, required pattern is formed by printing paste spray printing to fabric by printing system；

D, the fabric after stamp is evaporated into processing in the case where temperature is 92-104 DEG C；In the present embodiment, by the face after stamp Material evaporates processing at being 102 DEG C in temperature；

E, the fabric after evaporating is washed, washing times are 1-4 times；In the present embodiment, by the fabric after evaporating Washed, washing times are 3 times；

F, high temperature baking is carried out to the fabric after washing by baking oven, that is, obtains finished product.

Using this method, by stamp, the step such as evaporate, wash and bakee, so that it may realize its printing and dyeing, and each step parameter More in detail, printing and dyeing are convenient.

Reactive dye in step b include 3 kinds of colors, are respectively red, green and blueness.

Beating time in step b is 8-12min；In the present embodiment, the beating time in step b is 9min.

Stoving temperature in step f is 135-155 DEG C；In the present embodiment, the stoving temperature in step f is 152 DEG C.

As shown in figs 1 to 6, the printing system in step c includes frame 1, and mounting bracket 2 is fixed with frame 1；Mounting bracket 2 Material be stainless steel；Printing head 4, the existing production that printing head 4 can be bought using in the market are provided with mounting bracket 2 Product；The conveying device of fabric can be conveyed to printing head 4 by being provided with frame 1, and conveying device includes rotating shaft 6, the and of the first rotating disk 5 Second rotating disk 10, rotating shaft 6 are horizontally set in frame 1, and the end of rotating shaft 6 can drive its rotating mechanism rotated to be connected with one, the One rotating disk 5 and the second rotating disk 10 are separately fixed on the both ends of rotating shaft 6, what the first rotating disk 5 and the second rotating disk 10 were bolted Mode is separately fixed on the both ends of rotating shaft 6；It is provided between first rotating disk 5 and the second rotating disk 10 for some of placed side material volume Axle 7 is placed, in the present embodiment, the quantity for placing axle 7 is three；The one end of axle 7 is placed to be arranged on by the first demountable structure On first rotating disk 5, place the other end of axle 7 and be arranged on by the second demountable structure on the second rotating disk 10, energy is provided with frame 1 The drive mechanism that axle 7 rotates is placed in driving.

Rotating mechanism includes stepper motor 17, driving wheel 16, driven pulley 15 and timing belt 14, and stepper motor 17 is fixed on machine On frame 1, stepper motor 17 is fixed in frame 1 by bolted connection；Driving wheel 16 is fixed on the defeated of stepper motor 17 On shaft, driving wheel 16 is fixed on the output shaft of stepper motor 17 by bolted connection；Driven pulley 15, which is fixed on, to be turned On axle 6, driven pulley 15 is fixed in rotating shaft 6 by bolted connection；Timing belt 14 is set in driving wheel 16 and driven pulley On 15.

Drive mechanism includes driving gear 8, some driven gears 9, servomotor 11 and installing plate 12, and installing plate 12 is set In frame 1, installing plate 12 can drive the lift cylinder 3 of its oscilaltion to be connected with one, and lift cylinder 3 is fixed by support 13 In frame 1, straight down, the piston rod end of lift cylinder 3 is connected the piston rod of lift cylinder 3 with installing plate 12；Servo Motor 11 is fixed on installing plate 12, and servomotor 11 is fixed on installing plate 12 by bolted connection；Servomotor 11 output shaft is horizontally disposed with, and driving gear 8 is fixed on the output shaft of servomotor 11, and driving gear 8 passes through key connection Mode is fixed on the output shaft of servomotor 11；Some driven gears 9 are separately fixed on corresponding placement axle 7, in this reality Apply in example, the quantity of driven gear 9 is three；And driving gear 8 can be meshed with driven gear 9.

It is provided with the controlling organization that servomotor 11 can be controlled to act in frame 1, controlling organization includes storage cloth box 29, up Cheng Kaiguan 27, lower stroke switch 20, detection bar 28 and controller 30, storage cloth box 29 are arranged in frame 1 by retaining spring 18, Detection bar 28 is fixed on storage cloth box 29, and detection bar 28 is fixed on storage cloth box 29 by bolted connection；Up stroke is opened The adjustment structure that pass 27 and lower stroke switch 20 can adjust both distances by one is arranged in frame 1, and detection bar 28 is positioned at upper Between travel switch 27 and lower stroke switch 20, detection bar 28 can be in contact with upper stroke switch 27, lower stroke switch 20 respectively, Servomotor 11, upper stroke switch 27 and lower stroke switch 20 are connected with the controller 30, and in the present embodiment, controller 30 is adopted The program of the single-chip microcomputer that can be bought with the market, single-chip microcomputer controlled motor and travel switch is existing, and its program should not program Editor.

Adjustment structure include guide rail 19, top shoe 26, sliding block 21, drive cylinder 23, regulating block 24, upper connecting rod 25 and under Connecting rod 22, guide rail 19 are fixed in frame 1 vertically, and guide rail 19 is fixed in frame 1 by bolted connection；Top shoe 26 It is separately positioned on sliding block 21 on guide rail 19, upper stroke switch 27 is fixed on top shoe 26, and upper stroke switch 27 passes through spiral shell The mode connect is tethered to be fixed on top shoe 26；Lower stroke switch 20 is fixed on sliding block 21, and lower stroke switch 20 passes through spiral shell The mode connect is tethered to be fixed on sliding block 21；The cylinder body of drive cylinder 23 is fixed in frame 1, and the cylinder body of drive cylinder 23 leads to Bolted mode is crossed to be fixed in frame 1；The piston rod of drive cylinder 23 is horizontally disposed with, the tailpiece of the piston rod of drive cylinder 23 Portion is connected with regulating block 24, and the piston rod end of drive cylinder 23 is connected with regulating block 24 by bolted connection；And adjust Between top shoe 26 and sliding block 21, the one end of upper connecting rod 25 and regulating block 24 are hinged locking nub 24, the other end of upper connecting rod 25 It is hinged with top shoe 26, the one end of lower link 22 and regulating block 24 are hinged, and the other end of lower link 22 and sliding block 21 are hinged.

First demountable structure includes the first installation axle 31, the first limited block 35 and the first spring 36, the first installation axle 31 One end is fixed on the first rotating disk 5, and the other end sidepiece of the first installation axle 31 offers the first mounting groove 31a, places one end energy of axle 7 It is put into the first mounting groove 31a, the other end sidepiece of the first installation axle 31 is further opened with first to be connected with the first mounting groove 31a Stopper slot 31b, the first spring 36 and the first limited block 35 are successively set in the first stopper slot 31b, and place axle 7 one end can and First limited block 35 leans；Second demountable structure includes the second installation axle 32, the second limited block 34 and second spring 33, the The one end of two installation axle 32 is fixed on the second rotating disk 10, and the other end sidepiece of the second installation axle 32 offers the second mounting groove 32a, puts Putting the other end of axle 7 can be put into the second mounting groove 32a, and the other end sidepiece of the second installation axle 32 is further opened with and the second mounting groove The second stopper slot 32b that 32a connects, the limited block 34 of second spring 33 and second are successively set in the second stopper slot 32b, and Placing the other end of axle 7 can lean with the second limited block 34.

Being additionally provided with frame 1 can include with ink to the ink-feeding device of progress ink conveying at printing head 4, ink-feeding device Case 37, upper spacer 46, lower clapboard 42, charge pipe 48 and delivery pipe 57, it is fixed on black case 37 in frame 1, in the present embodiment, It is fixed on by bolted connection in frame 1 with black case 37；Upper spacer 46 and lower clapboard 42 are successively set on black case 37 It is interior, and upper spacer 46 and lower clapboard 42 will be divided into stir chamber 37a, middle temporary storage cavity 37b, lower feed chamber 37c with the black inner chamber of case 37, Upper stir chamber 37a charge door is connected with the one end of charge pipe 48, and the other end of charge pipe 48 can be connected with the external world, charge pipe 48 On be additionally provided with charge pump 47, lower feed chamber 37c inlet is connected with the one end of delivery pipe 57, the other end of delivery pipe 57 and beats Print shower nozzle 4 to be connected, delivery pump 56 is additionally provided with delivery pipe 57, have on upper spacer 46 and upper stir chamber 37a can be kept in in The first communicating pipe 44 that chamber 37b is connected, the first magnetic valve 45 and the first check valve 43 are additionally provided with the first communicating pipe 44, under There is the second communicating pipe 39 that middle temporary storage cavity 37b can be connected with lower feed chamber 37c on dividing plate 42, gone back on the second communicating pipe 39 The check valve 38 of second solenoid valve 41 and second is provided with, upper installing hole is further opened with upper spacer 46, is provided with upper installing hole The upper shake piece 50 of elasticity, in the present embodiment, the current material that upper shake piece 50 can be bought using in the market；Upper shake piece The first vibrating motor 49 is fixed with 50, and the first vibrating motor 49 is located in upper stir chamber 37a, is further opened with lower clapboard 42 Lower mounting hole, flexible lower shake piece 53 is set, and in the present embodiment, lower shake piece 53 can using in the market at lower mounting hole With the current material bought；And the elasticity of lower shake piece 53 is more than the elasticity of upper shake piece 50, and the is fixed with lower shake piece 53 Two vibrating motors 52, and the second vibrating motor 52 is located in middle temporary storage cavity 37b.

Rabbling mechanism is additionally provided with upper stir chamber 37a, rabbling mechanism includes rotating bar 65, mounting disc 62 and swivel becket 61, rotating bar 65 is vertically arranged in stir chamber 37a, and upper stir chamber 37a and one is stretched out in the upper end of rotating bar 65 can drive its turn Dynamic reducing motor 64 is connected, and in the present embodiment, reducing motor 64 is fixed on frame 1, and the output shaft of reducing motor 64 is vertical Downwards, the upper end of rotating bar 65 is connected with the output shaft end of reducing motor 64；The lower end of rotating bar 65 is connected with mounting disc 62, at this In embodiment, the lower end of rotating bar 65 is connected by way of welding with mounting disc 62；Some through holes are offered in mounting disc 62, In the present embodiment, the quantity of through hole is 80；The lower surface of mounting disc 62 is fixed with stirring vane 67, in the present embodiment, peace The lower surface of sabot 62 is fixed with stirring vane 67 by bolted connection, and the quantity of stirring vane 67 is three；Mounting disc 62 upper surfaces offer chute 62a in a ring, and swivel becket 61 is arranged in chute 62a, and the sidepiece of swivel becket 61 has some bullets Property projection 61a, in the present embodiment, projection 61a quantity is 12；Also having in chute 62a can contact with projection 61a Stopper 66, be further fixed on some pulp-collecting box 63 on swivel becket 61, in the present embodiment, the quantity of pulp-collecting box 63 is five； And pulp-collecting box 63 can be located at the underface of charge door, and some material path 63a are further opened with pulp-collecting box 63, in the present embodiment, Material path 63a quantity is ten.

Connecting spring 51, the upper end of connecting spring 51 and upper shake piece are additionally provided between upper shake piece 50 and lower shake piece 53 50 are connected, and the lower end of connecting spring 51 is connected with lower shake piece 53；, can by the connection function of connecting spring 51 using the structure Make to shake piece 50 and the lower shake linkage from top to bottom between the two of piece 53.

The 3rd check valve 55 is additionally provided with delivery pipe 57.

Flexible accessory plate 59, the He of connection strap 54 that the surrounding of accessory plate 59 passes through elasticity are also set up in lower feed chamber 37c Lower feed chamber 37c inwalls are connected, and are further fixed on push-rod electric machine 58 on lower feed chamber 37c, the push rod of push-rod electric machine 58 straight up, The push rod end of push-rod electric machine 58 is connected by connecting rod with the middle part of accessory plate 59, and the auxiliary of some spirals is offered on accessory plate 59 Hole is helped, in the present embodiment, the quantity of via hole is 50；The aperture ecto-entad of via hole diminishes successively；Using the knot Structure, control push-rod electric machine 58 push rod drive accessory plate 59 move down, make accessory plate 59 formed concave inward structure, coordinate aperture by Diminish successively outside to inside and the via hole of spiral, the ink in lower feed chamber 37c everywhere can be made synchronous to flowing at inlet, from And the ink at lower feed chamber 37c is avoided because inwall causes it hysteresis quality occur, auxiliary is convenient.

The operation principle of printing system is as follows：Charge pump 47 is opened, by charge pipe 48 by feedstock transportation to upper stir chamber In 37a, the output shaft of control reducing motor 64 drives rotating bar 65 to rotate, and rotating bar 65 drives mounting disc 62 to rotate, due to resistance Block 66 stops to projection 61a, makes occur differential rotation between swivel becket 61 and mounting disc 62, the raw material in charge pipe 48 A part is dropped in corresponding pulp-collecting box 63, and upper stir chamber 37a is output to from material path 63a everywhere, meanwhile, mounting disc 62 drive stirring vanes 67 rotate；The first vibrating motor 49 is controlled to work, the first vibrating motor 49 makes to shake in the generation of piece 50 Lower shake, raw material is stirred, and the ink prepared is transported in middle temporary storage cavity 37b by the first communicating pipe 44 and temporarily deposited Put, the second vibrating motor 52 of control works, and the second vibrating motor 52 makes lower shake piece 53 produce shake up and down, avoids middle temporary storage cavity Ink in 37b precipitates, and is transported to by the second communicating pipe 39 in lower feed chamber 37c, opens delivery pump 56, passes through conveying Ink is transported at printing head 4 by pipe 57；Pressing the first limited block 35 compresses the first spring 36, will place the one end of axle 7 and puts Into the first mounting groove 31a, meanwhile, the second limited block 34 of pressing compresses second spring 33, will place the end of axle 7 two and is put into second In mounting groove 32a, axle 7 will be placed and positioned；The piston rod of control lift cylinder 3 drives installing plate 12 to move down, installing plate 12 drive servomotors 11 move down, and servomotor 11 drives driving gear 8 to move down, and makes driving gear 8 and driven tooth Wheel 9 is in contact；The output shaft of control servomotor 11 drives driving gear 8 to rotate, and driving gear 8 drives driven gear 9 to rotate, Driven gear 9 drives wherein one to place axle 7 and rotated, and fabric is transported at printing head 4 it is printed, place axle 7 On fabric account in the presence of on storage cloth box 29, with the increase of fabric, storage cloth box 29 drives detection bar 28 to move down, detection bar 28 Contacted with lower stroke switch 20, signal is passed to controller 30 by lower stroke switch 20, and controller 30 controls servomotor 11 to stop Only work, as cloth is gradually transported at printing head 4, storage cloth box 29 drives detection bar 28 to move up, the He of detection bar 28 Upper stroke switch 27 is contacted, and signal is passed to controller 30 by upper stroke switch 27, and controller 30 controls servomotor 11 to start Work；After the fabric that this root places axle 7 has printed, the output shaft of control stepper motor 17 drives driving wheel 16 to rotate, actively Wheel 16 drives driven pulley 15 to rotate by timing belt 14, and driven pulley 15 drives rotating shaft 6 to rotate, and rotating shaft 6 drives the first rotating disk 5 and the Two rotating disks 10 rotate, and make another to place axle 7 and go to operating position, drive mechanism drives another to place axle 7 and rotated, can be achieved Continuous uninterrupted conveying operation；In the present embodiment, the peak that the operating position of axle 7 can go to for placement axle 7 is placed.

Specific embodiment described herein is only to spirit explanation for example of the invention.Technology belonging to the present invention is led The technical staff in domain can be made various modifications or supplement to described specific embodiment or be replaced using similar mode Generation, but without departing from the spiritual of the present invention or surmount scope defined in appended claims.

Claims (10)

1. a kind of multicolor reflection dyeing method, it is characterised in that comprise the following steps that：

A, the purchase existing cotton of in the market washs composite material, and fabric is cleared up by vacuum cleaner；

B, reactive dye 6-18 parts, starch 10-20 parts, urea 3-10 parts, emulsion thickening 2-12 parts and water 20-40 parts is weighed to be put into It is beaten in beater, printing paste is made；

C, required pattern is formed by printing paste spray printing to fabric by printing system；

D, the fabric after stamp is evaporated into processing in the case where temperature is 92-104 DEG C；

E, the fabric after evaporating is washed, washing times are 1-4 times；

F, high temperature baking is carried out to the fabric after washing by baking oven, that is, obtains finished product.

2. multicolor reflection dyeing method according to claim 1, it is characterised in that the reactive dye bag in the step b 3 kinds of colors are included, are respectively red, green and blueness.

3. multicolor reflection dyeing method according to claim 1, it is characterised in that the beating time in the step b is 8-12min。

4. multicolor reflection dyeing method according to claim 1, it is characterised in that the stoving temperature in the step f is 135-155℃。

5. multicolor reflection dyeing method according to claim 1, it is characterised in that the printing system bag in the step c Including rack, mounting bracket is fixed with frame, printing head is provided with mounting bracket, being provided with frame can convey to printing head The conveying device of fabric, conveying device include rotating shaft, the first rotating disk and the second rotating disk, rotating shaft and are horizontally set in frame, rotating shaft End can drive its rotating mechanism rotated to be connected with one, and the first rotating disk and the second rotating disk are separately fixed on rotating shaft both ends, the Some placement axles for placed side material volume are provided between one rotating disk and the second rotating disk, it is detachable by first to place axle one end Structure setting is placed the axle other end and is arranged on by the second demountable structure on the second rotating disk, set in frame on the first rotating disk It is equipped with to drive and places the drive mechanism that axle rotates.

6. multicolor reflection dyeing method according to claim 5, it is characterised in that the material of the mounting bracket is stainless Steel.

7. multicolor reflection dyeing method according to claim 5, it is characterised in that the rotating mechanism includes stepping electricity Machine, driving wheel, driven pulley and timing belt, stepper motor are fixed in frame, and driving wheel is fixed on the output shaft of stepper motor, Driven pulley is fixed in rotating shaft, and timing belt is set on driving wheel and driven pulley.

8. multicolor reflection dyeing method according to claim 5, it is characterised in that the drive mechanism includes driving tooth Wheel, some driven gears, servomotor and installing plate, installing plate are arranged in frame, and installing plate and one can drive it to rise up and down The lift cylinder of drop is connected, and servomotor is fixed on a mounting board, and the output shaft of servomotor is horizontally disposed with, and driving gear is fixed On the output shaft of servomotor, some driven gears be separately fixed at it is corresponding place on axle, and driving gear can with it is driven Gear is meshed.

9. multicolor reflection dyeing method according to claim 8, it is characterised in that be provided with to control in the frame and watch The controlling organization of motor action is taken, controlling organization includes storage cloth box, upper stroke switch, lower stroke switch, detection bar and controller, Storage cloth box is arranged in frame by retaining spring, and detection bar is fixed on storage cloth box, and upper stroke switch and lower stroke switch lead to An adjustment structure that can adjust both distances is crossed to be arranged in frame, detection bar be located at upper stroke switch and lower stroke switch it Between, detection bar can be in contact with upper stroke switch, lower stroke switch respectively, servomotor, upper stroke switch and lower stroke switch It is connected with the controller.

10. multicolor reflection dyeing method according to claim 5, it is characterised in that being additionally provided with the frame can be to The ink-feeding device of ink conveying is carried out at printing head, ink-feeding device is included with black case, upper spacer, lower clapboard, charge pipe and defeated Pipe is sent, is fixed on black case in frame, upper spacer and lower clapboard are successively set on in black case, and upper spacer and lower clapboard will match somebody with somebody Black box cavity is divided into stir chamber, middle temporary storage cavity, lower feed chamber, and the charge door of upper stir chamber is connected with charge pipe one end, added The expects pipe other end can be connected with the external world, and charge pump, the inlet of lower feed chamber and delivery pipe one end are additionally provided with charge pipe It is connected, the delivery pipe other end is connected with printing head, delivery pump is additionally provided with delivery pipe, having on upper spacer can stir by The first communicating pipe that chamber is connected with middle temporary storage cavity is mixed, the first magnetic valve and the first check valve are additionally provided with the first communicating pipe, There is the second communicating pipe that middle temporary storage cavity can be connected with lower feed chamber on lower clapboard, second is additionally provided with the second communicating pipe Magnetic valve and the second check valve, upper installing hole is further opened with upper spacer, flexible upper shake piece is set at upper installing hole, on The first vibrating motor is fixed with shake piece, and the first vibrating motor is located in upper stir chamber, and lower peace is further opened with lower clapboard Hole is filled, flexible lower shake piece is set at lower mounting hole, and the elasticity of lower shake piece is more than the elasticity of upper shake piece, lower shake The second vibrating motor is fixed with piece, and the second vibrating motor is located in middle temporary storage cavity.