CN108411628A - A kind of processing method of nano self-cleaning blended yarn weaved fabric - Google Patents

Abstract

The present invention provides a kind of processing methods of nano self-cleaning blended yarn weaved fabric.It solves the problems, such as that the step of existing preparation method is excessively complicated.The processing method of this nano self-cleaning blended yarn weaved fabric, includes the following steps：A, in parts by weight, by 4 12 parts of 40 60 parts of polyester fiber, 8 18 parts of 20 30 part, day bamboo fibre of cotton fiber and Modal fibre blended unions at blended yarn weaved fabric；B, it weighs：2 8% organic fluorine, 1.2 2.3% nano-titanium dioxide, 0.3 0.9% nano silicon dioxide, 1.8 4.6% silane coupling agents, 0.7 1.5% triethanolamine, 1 4% propylene glycol and 80 90% water；C, each raw material is put into togerther in agitating device, treatment fluid is made；D, treatment fluid is added in squeeze device, blended yarn weaved fabric is put into squeeze device；E, the blended yarn weaved fabric padded is put into baking oven；F, the blended yarn weaved fabric dried is put into baker；G, the blended yarn weaved fabric baked is subjected to clot by packing device.The present invention has the advantages that process time is short.

Description

A kind of processing method of nano self-cleaning blended yarn weaved fabric

Technical field

The invention belongs to fabric technical field, specially a kind of processing method of nano self-cleaning blended yarn weaved fabric.

Background technology

As the improvement of people's living standards, textile fabric demand is more and more intended to it is functional, superior, therefore, Being mixed into the proportion of the functional textile of high-tech content fiber in people's lives can be higher and higher, and tech Textiles have become For the inexorable trend of development.Blended i.e. blended chemical ＆ blended fabric, it is natural fiber mixed to be that chemical fibre is waited until with other cotton wools, silk, fiber crops Close the textile product that is made into of spinning, the style of existing terylene has a strong point of cotton fabric again, such as polyester-mixed cotton cloth, washs a mao gabardine.

By repeatedly retrieving, a kind of preparation method of blended yarn weaved fabric is disclosed in patent document, application No. is 201610381832.1.The preparation method of this blended yarn weaved fabric, it is characterised in that：This technique is as follows：1) whole Through → gait, plug in reed, inserted sheet → arrow shaft weaving, the high branch slubbing yarn for propping up 25/1 public affairs on rapier loom is with 2/2 twill Basic organization, the looming weaving by the way of single-warp single-abb, upper machine breadth are 178cm, and warp density on machine is 225/10cm, filling density For 216/10cm；2) singe-mono- boil that-braying-is bis-, which to boil ,-dries-photocatalyst working fluid pads-and dry-TEFLON three-prevention finishings- Bake-it is ripe repair-bristle-cropping-bristle-dewing-tank steaming, in addition, the dosage 30g/l-50g/l of photocatalyst working fluid, pick-up rate 75%-85% keeps vehicle 25m/min-30m/min, 120 DEG C -135 DEG C of temperature, TEFLON in the use of photocatalyst working fluid The mangle 75-85% of three-prevention finishing processing, speed keep 18-22m/min, 160-180 DEG C of temperature, last fabric specification obtained For：Yarn count 96/2-100/2Nm, total tightness degree 145-165, through close root/10 centimetre 615-796, root/10 centimetre filling density 400-358, Grammes per square metre 340-390 grams ms；3) through washing, soaping, homochromy blended yarn weaved fabric is obtained；4) drying property of wool fabric is surveyed Examination：Step 1：Two pieces of the sample of 10cm × 20cm is taken to be used as test sample on the woolen sample that 40cm leads to width；Step 2： Sample is placed in washing appearance device, 300ml tetrachloro-ethylenes are added as dry cleaning agent, are put into after sealing in dry-cleaning instrument, dry-cleaning It takes out, is then washed repeatedly twice after 30min.Step 3：The loose wool yarn of sample selvedge, sample is flat on after cracking-off dry-cleaning 20 ± 2 DEG C of temperature, in the environment of humidity 65 ± 3%, balance is put on balance after 12 hours and weighs, and claims to obtain weight before sample leaching； Step 4：Reagent 500ml (preparation of reagents methods are added in beaker：0.5ml bleeding agent FFA are added in 499.5ml distilled water), Sample after dry-cleaning is placed in beaker abundant moisture absorption 1 minute；Step 5：By the sample after moisture absorption, a folding is two along its length It is hung on airer for clothes, the airer for clothes for hanging with sample is placed in 20 ± 2 DEG C of temperature, under the environmental condition of humidity 65 ± 3%, and when recording Between, sample weight is measured after 30 minutes, before sample restores leaching until weight；Step 6：Sample is recorded to restore before soaking The time of weight, as fabric spontaneously dry the time.

Although preparation method disclosed in the patent can make fabric while dye, the mistake the step of preparation method It in complicated, needs to spend a large amount of preparation time, therefore, urgent need designs a kind of processing side of nano self-cleaning blended yarn weaved fabric Method.

Invention content

(1) the technical issues of solving

In view of the deficiencies of the prior art, the present invention provides a kind of processing methods of nano self-cleaning blended yarn weaved fabric, this adds Work method has the characteristics that process time is short.

(2) technical solution

To achieve the above object, the present invention provides the following technical solutions：A kind of processing side of nano self-cleaning blended yarn weaved fabric Method, which is characterized in that include the following steps：

A, in parts by weight, 40-60 parts of polyester fiber, 20-30 parts of cotton fiber, bamboo fibre 8-18 parts of day and Modal is fine 4-12 parts of blended unions are tieed up into blended yarn weaved fabric；

B, by mass percentage, it weighs：The organic fluorine of 2-8%, the nano-titanium dioxide of 1.2-2.3%, 0.3- 0.9% nano silicon dioxide, the silane coupling agent of 1.8-4.6%, the triethanolamine of 0.7-1.5%, 1-4% propylene glycol and The water of 80-90%；

C, each raw material is put into togerther in agitating device, is stirred evenly, treatment fluid is made；

D, treatment fluid is added in squeeze device, blended yarn weaved fabric is put into squeeze device, the side rolled using two leachings two Formula, pick-up 70-75%；

E, the blended yarn weaved fabric padded is put into baking oven, drying temperature is 60-70 DEG C；

F, the blended yarn weaved fabric dried is put into baker, baking temperature is 135-150 DEG C；

G, the blended yarn weaved fabric baked is subjected to clot by packing device, you can obtain nano self-cleaning blended yarn weaved fabric.

Mixing time in the step c is 20-30min.

Time of padding in the step d is 50-90s.

Drying time in the step e is 30-40min.

The time that bakes in the step f is 5-10min.

Agitating device in the step c includes pedestal, and agitator tank is provided on pedestal, and agitator tank includes that both ends connect Babinet, left plate and right plate, babinet is fixed on the base by support leg, and left plate passes through the connector sleeve one and case of elasticity Body one end is connected, and left plate can also make its driving mechanism one moved back and forth be connected with one, the connector sleeve that right plate passes through elasticity Two are connected with the babinet other end, and right plate can also make its driving mechanism two moved back and forth be connected with one, be vertically arranged in babinet There is diaphragm, diaphragm surrounding is connected by the connection ring of elasticity with cabinet wall, and babinet is separated by diaphragm Left mixing part and right mixing part, diaphragm can make its driving mechanism three moved up and down be connected, have on diaphragm with one Flowing hole one for being connected to left mixing part and right mixing part, flowing hole one is in horn-like, a big opening end direction left side for flowing hole one Side plate, the osculum end of flowing hole one have the mistake for being connected to left mixing part and right mixing part towards right plate on diaphragm Discharge orifice two, flowing hole two is in horn-like, and the big opening end of flowing hole two is towards right plate, and the osculum end of flowing hole two is towards left side There is feed inlet one and feed inlet two, feed inlet one to be connected with left mixing part for plate, babinet top, feed inlet two and right mixing part It is connected, solenoid valve one and solenoid valve two is respectively arranged at feed inlet one and feed inlet two, lower box has discharge port one With discharge port two, discharge port one is connected with left mixing part, and discharge port two is connected with right mixing part, discharge port one and discharge port Solenoid valve three and solenoid valve four are respectively arranged at two, being additionally provided on pedestal can stir what the material in agitator tank was stirred Mix mechanism.

The operation principle of agitating device is as follows：Raw material is added to from feed inlet one and feed inlet two in babinet, drive is passed through Motivation structure one drive left plate move right, so that the volume of left mixing part is tapered into, the raw material in left mixing part from water conservancy diversion every The flowing hole one of plate enters in right mixing part, meanwhile, control driving mechanism three drives diaphragm to move up and down, diaphragm Flowing hole one also move up and down therewith, when raw material enters right mixing part from left mixing part under the action of flowing hole one, can will It is transported under the upper of right mixing part, neutralization everywhere；Or drive right plate to be moved to the left by driving mechanism two, make right mixing part Volume taper into, the raw material in right mixing part is entered from the flowing hole two of diaphragm in left mixing part, meanwhile, control Driving mechanism three drives diaphragm to move up and down, and the flowing hole two of diaphragm also moves up and down therewith, in flowing hole two When the lower raw material of effect enters left mixing part from right mixing part, it can be transported under the upper of left mixing part, neutralization everywhere；Cooperation is stirred Mechanism is mixed, raw material can be stirred evenly, mixing effect is good.

The material of the diaphragm is stainless steel.

Using the above material, its service life can be greatly prolonged.

The rabbling mechanism includes positioning seat, lifter plate one, lifter plate two, teeter column one in a circular table shape, in a circular table shape Teeter column two, connecting tube one, connecting tube two, power motor one, power motor two, rotation strip one, rotation strip two, drive block one With drive block two, lifter plate one is arranged at left mixing part, and the lower end of teeter column one is fixed on lifter plate one, in teeter column one Portion has cavity one, and one side of teeter column is further opened with several through-holes one being connected with cavity one, and through-hole one is twist Distribution, one end of connecting tube one are connected with the osculum end of flowing hole two, and the other end of connecting tube one is connected with cavity one, even Check valve one is additionally provided on take over one, power motor one is fixed on the upper end of teeter column one, and the output shaft of power motor one is perpendicular Straight upward, the output shaft end of power motor one is connected with the middle part of rotation strip one, and being fixed with a left side on one end of rotation strip one leads Flowing plate one is fixed with left deflector two on the other end of rotation strip one, and both left deflector one and left deflector two form eight Font, left deflector one and left deflector two can close through-hole one, and lifter plate two is arranged at right mixing part, teeter column two Lower end be fixed on lifter plate two, the inside of teeter column two has cavity two, and two side of teeter column is further opened with several and cavity Two through-holes two being connected, and through-hole two is twist distributed, one end of connecting tube two is connected with the osculum end of flowing hole one, The other end of connecting tube two is connected with cavity two, and check valve two is additionally provided in connecting tube two, and power motor two, which is fixed on, to be stirred Mix the upper end of column two, the output shaft of power motor two straight up, in the output shaft end and rotation strip two of power motor two Portion is connected, and right deflector one is fixed on one end of rotation strip two, right deflector two is fixed on the other end of rotation strip two, and Both right deflector one and right deflector two form splayed, and right deflector one and right deflector two can close through-hole two, Positioning seat is set on the base, and positioning seat is located at the surface of babinet, and positioning seat one end passes through one phase of connecting rod one and lifter plate Even, the positioning seat other end is connected by connecting rod two with lifter plate two, and positioning seat can also drive lower mobile mobile knot thereon with one Structure is connected, and babinet top is installed with mounting hole one, and mounting hole one is located at left mixing part, is arranged at mounting hole one flexible Flow deflector one, drive block one is arranged on babinet, and drive block one can drive the push-rod electric machine one of movement thereon time to be connected with one, And the inclined surface of drive block one can be in contact with flow deflector one, babinet top is installed with mounting hole two, and mounting hole two is located at At right mixing part, flexible flow deflector two is set, drive block two is arranged on babinet, drive block two and an energy at mounting hole two Its push-rod electric machine two moved up and down is driven to be connected, and the inclined surface of drive block two can be in contact with flow deflector two.

Using the above structure, when raw material enters right mixing part from left mixing part, enter from flowing hole one by connecting tube two It into cavity two, and is exported from through-hole two, forms spiral liquid flow at right mixing part, control the output shaft rotation of power motor two Dynamic, the output shaft rotation of power motor two, the output shaft of power motor two drives rotation strip two to rotate, and rotation strip two drives the right side to lead Flowing plate one and right deflector two rotate, and so that partial through holes two is instantaneously blocked, form irregular spiral liquid flow, meanwhile, control The push rod of push-rod electric machine one moves up and down, and the push rod of push-rod electric machine one drives drive block one to move up and down, and drive block one makes water conservancy diversion Piece one is deformed, so as to carrying out water conservancy diversion from the raw material in left mixing part；When raw material enters left mixing part from right mixing part, It enters in cavity one from flowing hole two by connecting tube one, and is exported from through-hole one, form spiral liquid at left mixing part Stream, the output shaft rotation of control power motor one, the output shaft rotation of power motor one, the output shaft band turn of power motor one Dynamic item one rotates, and rotation strip one drives left deflector one and left deflector two to rotate, and partial through holes one is made instantaneously to be blocked, and is formed Irregular spiral liquid flow, meanwhile, the push rod of control push-rod electric machine two moves up and down, and the push rod of push-rod electric machine two drives drive block Two move up and down, and drive block two makes flow deflector two form deformation, so as to carrying out water conservancy diversion from the raw material in right mixing part.

Positioning seat is driven to move up and down by moving structure, positioning seat drives lifter plate one to move up and down by connecting rod one, Meanwhile positioning seat drives lifter plate two to move up and down by connecting rod two, and institute is arrived so as to adjust lifter plate one and lifter plate two The position needed.

The moving structure includes mounting bracket, stepper motor, gear, rack, guide rod and guide sleeve, and mounting bracket is fixed on babinet On, guide rod is fixed on mounting bracket vertically, is led and is set on guide rod, and rack is fixed on mounting bracket vertically, and rack with lead Bar is mutually parallel, and stepper motor is fixed on guide sleeve, and the output shaft of stepper motor is horizontally disposed, and gear is fixed on stepper motor Output shaft end, and wheel and rack is meshed, positioning seat is connected with guide sleeve.

When needing that positioning seat is made to move up and down, the output shaft rotation of stepper motor, the output shaft band of stepper motor are controlled Moving gear rotates, and gear, which is gradually meshed with rack, makes guide sleeve be moved up and down along to guide rod, and guide sleeve drives and moved down on positioning seat It is dynamic, so as to make positioning seat move up and down.

There is graduation mark on the guide rod.

Using the above structure, it can quickly know that the position of positioning seat, instruction are intuitive by graduation mark.

The guide rod both ends are further fixed on limited block.

Using the above structure, the position of guide sleeve can be limited by limited block.

The driving mechanism one includes holder one, cylinder one, guide rail one and sliding block one, and holder one is fixed on the base, leads Rail one is horizontally fixed on holder one, and sliding block one is arranged on guide rail one, and cylinder one is fixed on holder one, the piston of cylinder one Bar is horizontally disposed, and the piston rod end of cylinder one is connected with sliding block one, and left plate is connected by spring one with sliding block one.

When needing that left plate is made to move, the piston rod movement of control cylinder one, the piston rod band movable slider one of cylinder one It is moved along guide rail one, sliding block one drives left plate to move by spring one, so as to make left plate move.

The driving mechanism two includes holder two, cylinder two, guide rail two and sliding block two, and holder two is fixed on the base, leads Rail two is horizontally fixed on holder two, and sliding block two is arranged on guide rail two, and cylinder two is fixed on holder two, the piston of cylinder two Bar is horizontally disposed, and the piston rod end of cylinder two is connected with sliding block two, and right plate is connected by spring two with sliding block two.

When needing that right plate is made to move, the piston rod movement of control cylinder two, the piston rod band movable slider two of cylinder two It is moved along guide rail two, sliding block two drives right plate to move by spring two, so as to make right plate move.

The driving mechanism three includes holder three, cylinder three and mounting blocks, and holder three is fixed on the base, and cylinder three is fixed On holder three, straight up, the piston rod end of cylinder three is connected the piston rod of cylinder three with mounting blocks, and diaphragm passes through Connecting rod is connected with mounting blocks.

When needing that diaphragm is made to move up and down, the piston rod of control cylinder three moves up and down, the piston rod of cylinder three Mounting blocks are driven to move up and down, mounting blocks drive connecting rod to move up and down, and connecting rod drives diaphragm to move up and down, so as to Diaphragm is set to move up and down.

It is further fixed on vibrating motor one on the left plate, vibrating motor two is further fixed on right plate.

Using the above structure, left plate can be made to vibrate back and forth by vibrating motor one, right side can be made by vibrating motor two Plate vibrates back and forth.

Supplementary structure is additionally provided in the agitator tank, supplementary structure includes supplemental cartridge one, supplemental cartridge two, elastic flow deflector One, elastic flow deflector two, vibrating motor three, vibrating motor four, vibrating mass one and vibrating mass two, supplemental cartridge one are fixed on lifter plate On one, and there are one side of supplemental cartridge several via holes one, elastic flow deflector one to pass through one inner wall phase of clamping ring one and supplemental cartridge Connect, and elastic flow deflector one is located at the surface of rotation strip one, the section undulate of elastic flow deflector one, elastic flow deflector one On be opened in several deflector holes one, vibrating motor three is fixed on the middle part of rotation strip one, and vibrating mass one passes through spring three and vibration Motor three is connected, and vibrating mass one leans with elastic flow deflector one, and the both ends of rotation strip one are additionally provided with several auxiliary rods one, The lower end of auxiliary rod one is connected with rotation strip one, and the upper end of auxiliary rod one can be in contact with elastic flow deflector one, on auxiliary rod one Also there is hairbrush one；Supplemental cartridge two is fixed on lifter plate two, and two side of supplemental cartridge has several via holes two, elastic water conservancy diversion Piece two is connected by clamping ring two with two inner wall of supplemental cartridge, and elastic flow deflector two is located at the surface of rotation strip two, elastic conducting The section undulate of flow two is opened in several deflector holes two on elastic flow deflector two, and vibrating motor four is fixed on rotation strip Two middle part, vibrating mass two are connected by spring four with vibrating motor four, and vibrating mass two and elastic flow deflector two-phase are against turning The both ends of dynamic item two are additionally provided with several auxiliary rods two, and the lower end of auxiliary rod two is connected with rotation strip two, the upper end of auxiliary rod two It can be contacted with elastic flow deflector two-phase, also there is hairbrush two on auxiliary rod two.

Using the above structure, when rotation strip one rotates, control vibrating motor three works, and vibrating motor three drives vibrating mass One up-down vibration, vibrating mass one drive one up-down vibration of elastic flow deflector, make the raw material at teeter column one from deflector hole one repeatedly By, meanwhile, rotation strip one drives auxiliary rod one to rotate, and auxiliary rod one makes elastic flow deflector one generate local deformation, so as to Auxiliary water conservancy diversion is carried out to the raw material at teeter column one；When rotation strip two rotates, control vibrating motor four works, vibrating motor four Two up-down vibration of vibrating mass is driven, vibrating mass two drives two up-down vibration of elastic flow deflector, makes raw material at teeter column two from leading Discharge orifice two passes through repeatedly, meanwhile, rotation strip two drives auxiliary rod two to rotate, and auxiliary rod two makes elastic flow deflector two generate local change Shape, so as to carry out auxiliary water conservancy diversion to the raw material at teeter column two, auxiliaring effect is good.

(3) advantageous effect

The present invention provides a kind of processing methods of nano self-cleaning blended yarn weaved fabric, have following advantageous effect：By mixed It spins and interweaves, prepare treatment fluid, pad, dry, baking and clot, so that it may realize the processing operation of blended yarn weaved fabric, and mixed Textile fabric has preferable self-cleaning performance, process time short.

Description of the drawings

Fig. 1 is the planar structure schematic diagram of agitating device.

Fig. 2 is the partial enlarged view at A in Fig. 1.

Fig. 3 is the planar structure schematic diagram that agitating device removes part.

In figure, 1, pedestal；2, holder one；3, guide rail one；4, cylinder one；5, support leg；6, solenoid valve three；7, babinet；7a、 Feed inlet one；7b, feed inlet two；7c, discharge port one；7d, discharge port two；8, mounting blocks；9, cylinder three；11, holder three；12、 Connecting rod；13, solenoid valve four；14, cylinder two；15, holder two；16, guide rail two；17, sliding block two；18, spring two；19, it vibrates Motor two；21, right plate；22, connector sleeve two；23, solenoid valve two；24, flow deflector two；25, push-rod electric machine two；26, drive block Two；27, connection ring；28, positioning seat；29, drive block one；31, push-rod electric machine one；32, flow deflector one；33, solenoid valve one；34、 Connector sleeve one；35, left plate；36, vibrating motor one；37, sliding block one；38, spring one；39, power motor one；41, left water conservancy diversion Plate one；42, teeter column one；42a, through-hole one；43, connecting tube one；44, left deflector two；45, lifter plate one；46, check valve One；47, check valve two；48, lifter plate two；49, right deflector two；51, connecting tube two；52, teeter column two；52a, through-hole two； 53, right deflector one；54, power motor two；55, supplemental cartridge two；55a, via hole two；56, clamping ring two；57, rotation strip two； 58, vibrating motor four；59, spring four；61, vibrating mass two；62, elastic flow deflector two；63, hairbrush two；64, auxiliary rod two；65、 Connecting rod two；67, diaphragm；67a, flowing hole one；67b, flowing hole two；68, connecting rod one；69, auxiliary rod one；71, hairbrush one； 72, elastic flow deflector one；73, vibrating mass one；74, spring three；75, vibrating motor three；76, rotation strip one；77, clamping ring one； 78, supplemental cartridge one；78a, via hole one；79, mounting bracket；81, limited block；82, rack；83, gear；84, stepper motor；85、 Guide rod；86, guide sleeve.

Specific implementation mode

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

The processing method of this nano self-cleaning blended yarn weaved fabric, includes the following steps：

A, in parts by weight, 40-60 parts of polyester fiber, 20-30 parts of cotton fiber, bamboo fibre 8-18 parts of day and Modal is fine 4-12 parts of blended unions are tieed up into blended yarn weaved fabric；In the preset implementation, in parts by weight, by 50 parts of polyester fiber, cotton fiber 25 11 parts of part, 13 parts of day bamboo fibre and Modal fibre blended unions are at blended yarn weaved fabric；

B, by mass percentage, it weighs：The organic fluorine of 2-8%, the nano-titanium dioxide of 1.2-2.3%, 0.3- 0.9% nano silicon dioxide, the silane coupling agent of 1.8-4.6%, the triethanolamine of 0.7-1.5%, 1-4% propylene glycol and The water of 80-90%；In the preset implementation, by mass percentage, it weighs：6% organic fluorine, 1.7% nano-silica Change titanium, 0.6% nano silicon dioxide, 3.1% silane coupling agent, 1.1% triethanolamine, 3.5% propylene glycol and 84% water；Organic fluorine and silane coupling agent are using the existing product that can be bought in the market；

C, each raw material is put into togerther in agitating device, is stirred evenly, treatment fluid is made；

D, treatment fluid is added in squeeze device, blended yarn weaved fabric is put into squeeze device, the side rolled using two leachings two Formula, pick-up 70-75%；In the preset implementation, treatment fluid is added in squeeze device, blended yarn weaved fabric is put into and is padded In device, in such a way that two leachings two are rolled, pick-up 72%；

E, the blended yarn weaved fabric padded is put into baking oven, drying temperature is 60-70 DEG C；In the preset implementation, will The blended yarn weaved fabric padded is put into baking oven, and drying temperature is 65 DEG C；

F, the blended yarn weaved fabric dried is put into baker, baking temperature is 135-150 DEG C；In this specific implementation In, the blended yarn weaved fabric dried is put into baker, baking temperature is 140 DEG C；

G, the blended yarn weaved fabric baked is subjected to clot by packing device, you can obtain nano self-cleaning blended yarn weaved fabric.

Mixing time in step c is 20-30min；In the preset implementation, the mixing time in step c is 25min.

Time of padding in step d is 50-90s；In the preset implementation, the time of padding in step d is 70s.

Drying time in step e is 30-40min；In the preset implementation, the drying time in step e is 35min.

The time that bakes in step f is 5-10min；In the preset implementation, the time that bakes in step f is 8min.

As shown in Figure 1-Figure 3, the agitating device in step c includes pedestal 1, and agitator tank is provided on pedestal 1, stirs luggage Babinet 7, left plate 35 and right plate 21 that both ends connect are included, babinet 7 is fixed on by support leg 5 on pedestal 1, left plate 35 It is connected with 7 one end of babinet by the connector sleeve 1 of elasticity, in the preset implementation, connector sleeve 1 uses in the market can be with The existing product bought；Left plate 35 can also make its driving mechanism one moved back and forth be connected with one, and right plate 21 passes through elasticity Connector sleeve 2 22 be connected with 7 other end of babinet, in the preset implementation, connector sleeve 2 22 is using showing of can buying in the market There is product；Right plate 21 can also make its driving mechanism two moved back and forth be connected with one, and diaphragm is vertically arranged in babinet 7 67,67 surrounding of diaphragm is connected by the connection ring 27 of elasticity with 7 inner wall of babinet, and in the preset implementation, connection ring 27 is adopted With the existing product that can be bought in the market；And babinet 7 is separated into left mixing part and right mixing part by diaphragm 67, water conservancy diversion every Plate 67 can make its driving mechanism three moved up and down be connected with one, have on diaphragm 67 and stirred with the right side for being connected to left mixing part Mix one 67a of flowing hole in portion, one 67a of flowing hole is in horn-like, and the big opening end of one 67a of flowing hole is towards left plate 35, flowing hole The osculum end of one 67a has the flowing hole for being connected to left mixing part and right mixing part towards right plate 21, on diaphragm 67 Two 67b, two 67b of flowing hole are in horn-like, and the big opening end of two 67b of flowing hole is towards right plate 21, the osculum end of two 67b of flowing hole Towards left plate 35,7 top of babinet is connected with two 7b of one 7a of feed inlet and feed inlet, one 7a of feed inlet with left mixing part, Two 7b of feed inlet is connected with right mixing part, and solenoid valve 1 and electromagnetism are respectively arranged at two 7b of one 7a of feed inlet and feed inlet Valve 2 23,7 lower part of babinet are connected with two 7d of one 7c of discharge port and discharge port, one 7c of discharge port with left mixing part, discharge port Two 7d are connected with right mixing part, and solenoid valve 36 and solenoid valve 4 13 are respectively arranged at two 7d of one 7c of discharge port and discharge port, The rabbling mechanism that can be stirred to the material in agitator tank is additionally provided on pedestal 1.

The material of diaphragm 67 is stainless steel；Using the material, its service life can be greatly prolonged.

Rabbling mechanism includes positioning seat 28, lifter plate 1, lifter plate 2 48, teeter column 1 in a circular table shape, is in circle The teeter column 2 52 of mesa-shaped, connecting tube 1, connecting tube 2 51, power motor 1, power motor 2 54, rotation strip 1, Rotation strip 2 57, drive block 1 and drive block 2 26, lifter plate 1 are arranged at left mixing part, the lower end of teeter column 1 It is fixed on lifter plate 1, in the preset implementation, the lower end of teeter column 1 is fixed on lifter plate by welding On one 45；The inside of teeter column 1 has a cavity one, one 42 side of teeter column be further opened with it is several be connected with cavity one lead to One 42a of hole, in the preset implementation, the quantity of one 42a of through-hole is 20；And one 42a of through-hole is twist distributed, connecting tube One 43 one end is connected with the osculum end of two 67b of flowing hole, and the other end of connecting tube 1 is connected with cavity one, connecting tube Check valve 1 is additionally provided on one 43, power motor 1 is fixed on the upper end of teeter column 1, in the preset implementation, moves Force motor 1 is fixed on the upper end of teeter column 1 by bolted connection；The output shaft of power motor 1 vertically to On, the output shaft end of power motor 1 is connected with the middle part of rotation strip 1, and a left side is fixed on one end of rotation strip 1 Deflector 1 is fixed with left deflector 2 44, and left deflector 1 and left deflector two on the other end of rotation strip 1 Both 44 form splayed, and left deflector 1 and left deflector 2 44 can close one 42a of through-hole, and lifter plate 2 48 is arranged At right mixing part, the lower end of teeter column 2 52 is fixed on lifter plate 2 48, in the preset implementation, under teeter column 2 52 End is fixed on by welding on lifter plate 2 48；2 52 inside of teeter column has cavity two, and 2 52 side of teeter column is also Several two 52a of through-hole being connected with cavity two are offered, in the preset implementation, the quantity of two 52a of through-hole is 20；And Two 52a of through-hole is twist distributed, and one end of connecting tube 2 51 is connected with the osculum end of one 67a of flowing hole, connecting tube 2 51 The other end be connected with cavity two, check valve 2 47 is additionally provided in connecting tube 2 51, power motor 2 54 is fixed on stirring The upper end of column 2 52, in the preset implementation, power motor 2 54 are fixed on teeter column 2 52 by bolted connection Upper end；The output shaft of power motor 2 54 straight up, the middle part of the output shaft end and rotation strip 2 57 of power motor 2 54 It is connected, right deflector 1 is fixed on one end of rotation strip 2 57, right deflector is fixed on the other end of rotation strip 2 57 2 49, and both right deflector 1 and right deflector 2 49 form splayed, 2 49 energy of right deflector 1 and right deflector Two 52a of through-hole is closed, positioning seat 28 is arranged on pedestal 1, and positioning seat 28 is located at the surface of babinet 7, positioning seat 28 One end is connected by connecting rod 1 with lifter plate 1, and 28 other end of positioning seat is connected by connecting rod 2 65 with lifter plate 2 48, Positioning seat 28 can also drive the moving structure of lower movement to be thereon connected with one, and 7 top of babinet is installed with mounting hole one, and installs Hole one is located at left mixing part, and flexible flow deflector 1, in the preset implementation, flow deflector 1 are arranged at mounting hole one Using the existing product that can be bought in the market；Drive block 1 is arranged on babinet 7, and drive block 1 and one can drive thereon The push-rod electric machine 1 of lower movement is connected, and the inclined surface of drive block 1 can be in contact with flow deflector 1, and 7 top of babinet is opened It is provided with mounting hole two, and mounting hole two is located at right mixing part, flexible flow deflector 2 24 is set at mounting hole two, at this In specific implementation, flow deflector 2 24 is using the existing product that can be bought in the market；Drive block 2 26 is arranged on babinet 7, drives Motion block 2 26 can drive the push-rod electric machine 2 25 of lower movement to be thereon connected with one, and the inclined surface energy and flow deflector of drive block 2 26 2 24 are in contact.

Moving structure includes mounting bracket 79, stepper motor 84, gear 83, rack 82, guide rod 85 and guide sleeve 86, mounting bracket 79 It is fixed on babinet 7, in the preset implementation, mounting bracket 79 is fixed on by bolted connection on babinet 7；Guide rod 85 is perpendicular Directly be fixed on mounting bracket 79, guide sleeve 86 be arranged on guide rod 85, rack 82 is fixed on vertically on mounting bracket 79, and rack 82 with Guide rod 85 is mutually parallel, and stepper motor 84 is fixed on guide sleeve 86, and in the preset implementation, stepper motor 84 is bolted Mode be fixed on guide sleeve 86；The output shaft of stepper motor 84 is horizontally disposed, and gear 83 is fixed on the output of stepper motor 84 Shaft end, and gear 83 is meshed with rack 82, positioning seat 28 is connected with guide sleeve 86.

There is graduation mark on guide rod 85；Using the structure, the position of positioning seat 28 can be quickly known by graduation mark, indicated Intuitively.

85 both ends of guide rod are further fixed on limited block 81, in the preset implementation, the side that 85 both ends of guide rod are bolted Formula is further fixed on limited block 81；Using the structure, the position of guide sleeve 86 can be limited by limited block 81.

Driving mechanism one includes holder 1, cylinder 1, guide rail 1 and sliding block 1, and holder 1 is fixed on pedestal 1, In the preset implementation, holder 1 is fixed on by bolted connection on pedestal 1；Guide rail 1 is horizontally fixed on holder one On 2, sliding block 1 is arranged on guide rail 1, and cylinder 1 is fixed on holder 1, and in the preset implementation, cylinder 1 passes through Bolted mode is fixed on holder 1；The piston rod of cylinder 1 is horizontally disposed, the piston rod end of cylinder 1 and cunning Block 1 is connected, and left plate 35 is connected by spring 1 with sliding block 1.

Driving mechanism two includes holder 2 15, cylinder 2 14, guide rail 2 16 and sliding block 2 17, and holder 2 15 is fixed on pedestal On 1, in the preset implementation, holder 2 15 is fixed on by bolted connection on pedestal 1；Guide rail 2 16 is horizontally fixed on On holder 2 15, sliding block 2 17 is arranged on guide rail 2 16, and cylinder 2 14 is fixed on holder 2 15, in the preset implementation, Cylinder 2 14 is fixed on by bolted connection on holder 2 15；The piston rod of cylinder 2 14 is horizontally disposed, cylinder 2 14 Piston rod end be connected with sliding block 2 17, right plate 21 is connected by spring 2 18 with sliding block 2 17.

Driving mechanism three includes holder 3 11, cylinder 39 and mounting blocks 8, and holder 3 11 is fixed on pedestal 1, in this tool During body is implemented, holder 3 11 is fixed on by bolted connection on pedestal 1；Cylinder 39 is fixed on holder 3 11, at this In specific implementation, cylinder 39 is fixed on by bolted connection on holder 3 11；The piston rod of cylinder 39 straight up, The piston rod end of cylinder 39 is connected with mounting blocks 8, and diaphragm 67 is connected by connecting rod 12 with mounting blocks 8.

It is further fixed on vibrating motor 1 on left plate 35, vibrating motor 2 19 is further fixed on right plate 21；Using this Structure, can be such that left plate 35 vibrates back and forth by vibrating motor 1, right plate 21 can be made to shake back and forth by vibrating motor 2 19 It is dynamic.

Supplementary structure is additionally provided in agitator tank, supplementary structure includes supplemental cartridge 1, supplemental cartridge 2 55, elastic flow deflector One 72, elastic flow deflector 2 62, vibrating motor 3 75, vibrating motor 4 58, vibrating mass 1 and vibrating mass 2 61, it is specific at this In implementation, elastic flow deflector 1 and elastic flow deflector 2 62 are using the existing product that can be bought in the market；Supplemental cartridge 1 It is fixed on lifter plate 1, and one 78 side of supplemental cartridge has one 78a of several via holes, in the preset implementation, via hole The quantity of one 78a is 60；Elastic flow deflector 1 is connected by clamping ring 1 with one 78 inner wall of supplemental cartridge, and elastic conducting Flow 1 is located at the surface of rotation strip 1, the section undulate of elastic flow deflector 1, on elastic flow deflector 1 Several deflector holes one are opened in, in the preset implementation, the quantity of deflector hole one is ten；Vibrating motor 3 75 is fixed on rotation The middle part of item 1, vibrating mass 1 are connected by spring 3 74 with vibrating motor 3 75, and vibrating mass 1 and elastic water conservancy diversion Piece 1 leans, and the both ends of rotation strip 1 are additionally provided with several auxiliary rods 1, in the preset implementation, auxiliary rod 1 Quantity be four；The lower end of auxiliary rod 1 is connected with rotation strip 1, and the upper end of auxiliary rod 1 can be with elastic flow deflector One 72 are in contact, and also have hairbrush 1 on auxiliary rod 1；Supplemental cartridge 2 55 is fixed on lifter plate 2 48, and supplemental cartridge two 55 sides have two 55a of several via holes, and in the preset implementation, the quantity of two 55a of via hole is 60；Elastic flow deflector 2 62 are connected by clamping ring 2 56 with 2 55 inner wall of supplemental cartridge, and elastic flow deflector 2 62 be located at rotation strip 2 57 just on Side, the section undulate of elastic flow deflector 2 62 are opened in several deflector holes two on elastic flow deflector 2 62, specific real at this The quantity of Shi Zhong, deflector hole two are ten；Vibrating motor 4 58 is fixed on the middle part of rotation strip 2 57, and vibrating mass 2 61 passes through bullet Spring 4 59 is connected with vibrating motor 4 58, and vibrating mass 2 61 leans with elastic flow deflector 2 62, the both ends of rotation strip 2 57 Several auxiliary rods 2 64 are additionally provided with, in the preset implementation, the quantity of auxiliary rod 2 64 is four；The lower end of auxiliary rod 2 64 It is connected with rotation strip 2 57, the upper end of auxiliary rod 2 64 can be in contact with elastic flow deflector 2 62, also have on auxiliary rod 2 64 Hairbrush 2 63.

The operation principle of agitating device is as follows：Raw material is added to from one 7a of feed inlet and two 7b of feed inlet in babinet 7, is led to Crossing vibrating motor 1 can be such that left plate 35 vibrates back and forth, control the piston rod band movable slider 1 of cylinder 1 along guide rail 1 It moves right, sliding block 1 drives left plate 35 to move right by spring 1, and the volume of left mixing part is made to taper into, left Raw material in mixing part is entered from one 67a of flowing hole of diaphragm 67 in right mixing part, meanwhile, control the work of cylinder 39 Stopper rod drives mounting blocks 8 to move up and down, and mounting blocks 8 drive connecting rod 12 to move up and down, and connecting rod 12 drives on diaphragm 67 One 67a of flowing hole of lower movement, diaphragm 67 is also moved up and down therewith, and raw material is stirred from a left side under the action of one 67a of flowing hole When the portion of mixing enters right mixing part, it can be transported under the upper of right mixing part, neutralization everywhere；Or it can be made by vibrating motor 2 19 Right plate 21 vibrates back and forth, and the piston rod band movable slider 2 17 for controlling cylinder 2 14 is moved to the left along guide rail 2 16, sliding block two 17 drive right plate 21 to be moved to the left by spring 2 18, so that the volume of right mixing part is tapered into, the raw material in right mixing part It is entered in left mixing part from two 67b of flowing hole of diaphragm 67, meanwhile, the piston rod of control cylinder 39 drives mounting blocks 8 It moves up and down, mounting blocks 8 drive connecting rod 12 to move up and down, and connecting rod 12 drives diaphragm 67 to move up and down, diaphragm 67 two 67b of flowing hole is also moved up and down therewith, and raw material enters left mixing part from right mixing part under the action of two 67b of flowing hole When, it can be transported under the upper of left mixing part, neutralization everywhere；Coordinate rabbling mechanism, raw material can be stirred evenly.

The output shaft driven gear 83 for controlling stepper motor 84 rotates, and gear 83, which is gradually meshed with rack 82, makes guide sleeve 86 It is moved up and down along to guide rod 85, guide sleeve 86 drives positioning seat 28 to move up and down, and positioning seat 28 is driven by connecting rod 1 and lifted Plate 1 moves up and down, meanwhile, positioning seat 28 drives lifter plate 2 48 to move up and down by connecting rod 2 65, by one 45 He of lifter plate Lifter plate 2 48, which is adjusted, arrives desired position；When raw material enters right mixing part from left mixing part, pass through connection from one 67a of flowing hole Pipe 2 51 enters in cavity two, and is exported from two 52a of through-hole, and spiral liquid flow is formed at right mixing part, controls power electric The output shaft of machine 2 54 rotates, and the output shaft of power motor 2 54 drives rotation strip 2 57 to rotate, and rotation strip 2 57 drives the right side to lead Flowing plate 1 and right deflector 2 49 rotate, and so that two 52a of partial through holes is instantaneously blocked, form irregular spiral liquid flow；Control Vibrating motor 3 75 processed drives one 73 up-down vibration of vibrating mass, vibrating mass 1 to drive one 72 up-down vibration of elastic flow deflector, make Raw material at teeter column 1 passes through repeatedly from deflector hole one, meanwhile, rotation strip 1 drives auxiliary rod 1 to rotate, auxiliary rod One 69 make elastic flow deflector 1 generate local deformation, and auxiliary water conservancy diversion is carried out to the raw material at teeter column 1, meanwhile, control pushes away The push rod of bar motor 1 drives drive block 1 to move up and down, and drive block 1 makes flow deflector 1 be deformed, so as to To carrying out water conservancy diversion from the raw material in left mixing part；When raw material enters left mixing part from right mixing part, pass through company from two 67b of flowing hole Take over 1 enters in cavity one, and is exported from one 42a of through-hole, and spiral liquid flow is formed at left mixing part, controls power The output shaft of motor 1 rotates, and the output shaft of power motor 1 drives rotation strip 1 to rotate, and rotation strip 1 drives left Deflector 1 and left deflector 2 44 rotate, and so that one 42a of partial through holes is instantaneously blocked, form irregular spiral liquid flow； Controlling vibrating motor 4 58 drives 2 61 up-down vibration of vibrating mass, vibrating mass 2 61 to drive 2 62 up-down vibration of elastic flow deflector, The raw material at teeter column 2 52 is set to pass through repeatedly from deflector hole two, meanwhile, rotation strip 2 57 drives auxiliary rod 2 64 to rotate, auxiliary Bar 2 64 makes elastic flow deflector 2 62 generate local deformation, and auxiliary water conservancy diversion is carried out to the raw material at teeter column 2 52, meanwhile, control The push rod of push-rod electric machine 2 25 drives drive block 2 26 to move up and down, and drive block 2 26 makes flow deflector 2 24 form deformation, to from Raw material in right mixing part carries out water conservancy diversion.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with Understanding without departing from the principles and spirit of the present invention can carry out these embodiments a variety of variations, modification, replace And modification, the scope of the present invention is defined by the appended.

Claims (10)

1. a kind of processing method of nano self-cleaning blended yarn weaved fabric, which is characterized in that include the following steps：

A, in parts by weight, by 40-60 parts of polyester fiber, 20-30 parts of cotton fiber, bamboo fibre 8-18 parts of day and Modal fibre 4- 12 parts of blended unions are at blended yarn weaved fabric；

B, by mass percentage, it weighs：The organic fluorine of 2-8%, the nano-titanium dioxide of 1.2-2.3%, 0.3-0.9% Nano silicon dioxide, the silane coupling agent of 1.8-4.6%, the triethanolamine of 0.7-1.5%, the propylene glycol of 1-4% and 80-90% Water；

C, each raw material is put into togerther in agitating device, is stirred evenly, treatment fluid is made；

D, treatment fluid is added in squeeze device, blended yarn weaved fabric is put into squeeze device, in such a way that two leachings two are rolled, rolled Remaining rate is 70-75%；

E, the blended yarn weaved fabric padded is put into baking oven, drying temperature is 60-70 DEG C；

F, the blended yarn weaved fabric dried is put into baker, baking temperature is 135-150 DEG C；

G, the blended yarn weaved fabric baked is subjected to clot by packing device, you can obtain nano self-cleaning blended yarn weaved fabric.

2. the processing method of nano self-cleaning blended yarn weaved fabric according to claim 1, which is characterized in that in the step c Mixing time be 20-30min.

3. the processing method of nano self-cleaning blended yarn weaved fabric according to claim 1, which is characterized in that in the step d Pad the time be 50-90s.

4. the processing method of nano self-cleaning blended yarn weaved fabric according to claim 1, which is characterized in that in the step e Drying time be 30-40min.

5. the processing method of nano self-cleaning blended yarn weaved fabric according to claim 1, which is characterized in that in the step f Bake the time be 5-10min.

6. the processing method of nano self-cleaning blended yarn weaved fabric according to claim 1, which is characterized in that in the step c Agitating device include pedestal, agitator tank is provided on pedestal, agitator tank includes babinet, left plate and the right side that both ends connect Plate, babinet are fixed on the base by support leg, and left plate is connected by the connector sleeve one of elasticity with babinet one end, and left plate is also Its driving mechanism one moved back and forth can be made to be connected with one, right plate is connected by the connector sleeve two of elasticity with the babinet other end, Right plate can also make its driving mechanism two moved back and forth be connected with one, and diaphragm, diaphragm are vertically arranged in babinet Surrounding is connected by the connection ring of elasticity with cabinet wall, and babinet is separated into left mixing part and right mixing part by diaphragm, Diaphragm can make its driving mechanism three moved up and down be connected with one, have for being connected to left mixing part and the right side on diaphragm The flowing hole one of mixing part, flowing hole one is in horn-like, and the big opening end of flowing hole one is towards left plate, the osculum end of flowing hole one It is in loudspeaker to have the flowing hole two for being connected to left mixing part and right mixing part, flowing hole two towards right plate, on diaphragm Shape, the big opening end of flowing hole two is towards right plate, and towards left plate, babinet top has feed inlet one at the osculum end of flowing hole two With feed inlet two, feed inlet one is connected with left mixing part, and feed inlet two is connected with right mixing part, feed inlet one and feed inlet Solenoid valve one and solenoid valve two are respectively arranged at two, lower box has discharge port one and discharge port two, discharge port one and a left side Mixing part is connected, and discharge port two is connected with right mixing part, and solenoid valve three is respectively arranged at discharge port one and discharge port two With solenoid valve four, the rabbling mechanism that can be stirred to the material in agitator tank is additionally provided on pedestal.

7. the processing method of nano self-cleaning blended yarn weaved fabric according to claim 6, which is characterized in that the diaphragm Material be stainless steel.

8. the processing method of nano self-cleaning blended yarn weaved fabric according to claim 6, which is characterized in that the rabbling mechanism Including positioning seat, lifter plate one, lifter plate two, teeter column one in a circular table shape, teeter column two in a circular table shape, connecting tube one, Connecting tube two, power motor one, power motor two, rotation strip one, rotation strip two, drive block one and drive block two, lifter plate one It is arranged at left mixing part, the lower end of teeter column one is fixed on lifter plate one, and one inside of teeter column has cavity one, teeter column One side is further opened with several through-holes one being connected with cavity one, and through-hole one is twist distributed, one end of connecting tube one It is connected with the osculum end of flowing hole two, the other end of connecting tube one is connected with cavity one, and list is additionally provided in connecting tube one To valve one, power motor one is fixed on the upper end of teeter column one, the output shaft of power motor one straight up, power motor one Output shaft end is connected with the middle part of rotation strip one, is fixed with left deflector one on one end of rotation strip one, rotation strip one it is another Left deflector two is fixed on one end, and both left deflector one and left deflector two form splayed, left deflector one and a left side Deflector two can close through-hole one, and lifter plate two is arranged at right mixing part, and the lower end of teeter column two is fixed on lifter plate On two, there is two inside of teeter column cavity two, two side of teeter column to be further opened with several through-holes two being connected with cavity two, and Through-hole two is twist distributed, and one end of connecting tube two is connected with the osculum end of flowing hole one, the other end of connecting tube two and Cavity two is connected, and check valve two is additionally provided in connecting tube two, and power motor two is fixed on the upper end of teeter column two, power electric Straight up, the output shaft end of power motor two is connected the output shaft of machine two with the middle part of rotation strip two, and the one of rotation strip two It is fixed with right deflector one on end, right deflector two, and right deflector one and right water conservancy diversion are fixed on the other end of rotation strip two Both plates two form splayed, and right deflector one and right deflector two can close through-hole two, and positioning seat is set on the base, And positioning seat is located at the surface of babinet, positioning seat one end is connected by connecting rod one with lifter plate one, and the positioning seat other end passes through Connecting rod two is connected with lifter plate two, and positioning seat can also drive the moving structure of lower movement to be thereon connected with one, and babinet top opens up It is equipped with mounting hole one, and mounting hole one is located at left mixing part, flexible flow deflector one, drive block one are set at mounting hole one It is arranged on babinet, drive block one can drive the push-rod electric machine one of lower movement to be thereon connected with one, and the inclined surface of drive block one It can be in contact with flow deflector one, babinet top is installed with mounting hole two, and mounting hole two is located at right mixing part, mounting hole two Flexible flow deflector two is arranged in place, and drive block two is arranged on babinet, and drive block two can drive pushing away for lower movement thereon with one Bar motor two is connected, and the inclined surface of drive block two can be in contact with flow deflector two.

9. the processing method of nano self-cleaning blended yarn weaved fabric according to claim 8, which is characterized in that the moving structure Including mounting bracket, stepper motor, gear, rack, guide rod and guide sleeve, mounting bracket is fixed on babinet, and guide rod is fixed on peace vertically It shelves, leads and be set on guide rod, rack is fixed on mounting bracket vertically, and rack is mutually parallel with guide rod, stepper motor Be fixed on guide sleeve, the output shaft of stepper motor is horizontally disposed, and gear is fixed on the output shaft end of stepper motor, and gear with Rack is meshed, and positioning seat is connected with guide sleeve.

10. the processing method of nano self-cleaning blended yarn weaved fabric according to claim 1, which is characterized in that on the guide rod With graduation mark.