CN107984870A - A kind of production method of high abrasion flock suede composite material - Google Patents

Abstract

The present invention provides a kind of production method of high abrasion flock suede composite material.It, which solves existing artificial suede velvet fabric, does not have corresponding production method, makes the technical problem such as cumbersome.The production method of this high abrasion flock suede composite material, high abrasion flock suede composite material include outer layer and internal layer, comprise the following steps：A, outer layer is made：Polyurethane is coated with elastic island substrate of chammy suede by squeeze device, drying and shaping is carried out with drying and setting machine, sanding is carried out with sanding device, obtains outer layer；B, internal layer is purchased：The TC cloth of surfacing is chosen as internal layer；C, gluing：Glue is uniformly coated with outer layer bottom surface；D, it is bonded：Internal layer surface is fitted on outer layer bottom surface, obtains semi-finished product fabric；E, it is hot-forming：Semi-finished product fabric is subjected to thermocompression forming on hot press；F, bake and bank up with earth：Semi-finished product fabric is baked and banked up with earth in an oven, obtains high abrasion flock suede composite material.The present invention has the advantages that easy to make.

Description

A kind of production method of high abrasion flock suede composite material

Technical field

The present invention relates to a kind of production method of high abrasion flock suede composite material.

Background technology

Flock suede fabric is to use special textile raw material, and the tool for coordinating special dyeing and finishing processing method to be process There is the weaving face fabric of mannerism, be one of more popular high-grade fabric of domestic market.The feel of flock suede and outer To see all quite like natural suede, its surface pattern structure also approximation natural suede is fine and closely woven smooth after special final finishing, It is soft and full, it is more more robust than natural chamois leather, also it is more easy to maintain；It is widely used in modern fashion, footwear material, toy and furniture dress Decorations.

Through retrieval, as Chinese patent literature discloses a kind of two-color artificial chamois flannel face fabric【Application number： 201320875102.9；Publication number：CN 203754917U】.This two-color artificial chamois flannel face fabric, it is characterised in that：Warp is adopted With low elastic polyester filament, weft washs compound sea island filament using sun；Above-mentioned warp uses 75D/36F semi-gloss low elastic polyester filaments, the latitude Line washs compound sea island filament using double weft 180D/60F sun；Once set in above-mentioned warp and weft four and be woven into satin weave list Member.

Although the artificial suede velvet fabric wrinkle resistance disclosed in the patent is good, which does not have Corresponding production method, making is cumbersome, and therefore, it is to have to design a kind of production method of high abrasion flock suede composite material very much It is necessary.

The content of the invention

The purpose of the present invention is for existing technology, there are the above problem, it is proposed that a kind of high abrasion flock suede is compound The production method of fabric, the production method have the characteristics that easy to make.

The purpose of the present invention can be realized by following technical proposal：A kind of making of high abrasion flock suede composite material Method, high abrasion flock suede composite material include outer layer and internal layer, it is characterised in that comprise the following steps：

A, outer layer is made：Polyurethane is coated with elastic island substrate of chammy suede by squeeze device, uses drying and setting machine Drying and shaping is carried out, sanding is carried out with sanding device, obtains outer layer；

B, internal layer is purchased：The TC cloth of surfacing is chosen as internal layer；

C, gluing：Glue, glue-spread 18-24g/m are uniformly coated with outer layer bottom surface²；

D, it is bonded：Internal layer surface is fitted on outer layer bottom surface, obtains semi-finished product fabric；

E, it is hot-forming：Semi-finished product fabric is subjected to thermocompression forming on hot press, temperature control is at 72-90 DEG C, pressure For 2-5Mpa；

F, bake and bank up with earth：Semi-finished product fabric is baked and banked up with earth in an oven, it is 0.5-1h to bake and bank up with earth the time, obtains high abrasion Glove suede Suede composite material.

Using above method, by making outer layer, buying internal layer, gluing, fitting, hot-forming and bake and bank up with earth, just The making of high abrasion flock suede composite material can be completed, it is easy to make.

TC cloth thickness in the step b is 0.4-0.6mm.

Glue in the step c is PU glue.

Oven temperature in the step f is controlled at 40-60 DEG C.

Squeeze device in the step a includes workbench, is fixed with workbench and rolls hopper, rolls to be fixed with hopper and determines Position frame, locating rack middle part, which is provided with, pads roller, and padding roll end can drive its dynamic structure rotated to be connected with one, locating rack two End is both provided with guide roll, rolls and adjustable plate is provided with hopper, adjustable plate will roll hopper and be divided into work department and adjustment portion, adjustable plate Its driving structure one moved back and forth can be also driven to be connected with one.

The principle of squeeze device is as follows：Adjustable plate is driven to move back and forth by driving structure one, adjustable plate is right as needed The length of work department is adjusted, and by padding roller by polyurethane-coated to fabric, without human intervention, pads conveniently.

The driving structure one includes column one, guide rod one, guide sleeve one and cylinder one, and column one is fixed on the table, Guide rod one is horizontally fixed on column one, and guide sleeve one is arranged on guide rod one, and cylinder one is fixed on column one, the work of cylinder one Stopper rod is horizontally disposed with, and the piston rod end of cylinder one is connected with guide sleeve one, and adjustable plate is connected by connecting rod one with sliding block one.

When needing to move back and forth adjustable plate, the piston rod of control cylinder one moves back and forth, the piston rod band of cylinder one Dynamic guide sleeve one moves back and forth along guide rod one, and guide sleeve one drives connecting rod one to move back and forth, and connecting rod one drives adjustable plate to move back and forth, So as to move back and forth adjustable plate.

The dynamic structure includes servomotor, drive sprocket, driven sprocket and chain belt, and servomotor is fixed on workbench On, the output shaft of servomotor is horizontally disposed with, and drive sprocket is fixed on the output shaft end of servomotor, and driven sprocket is fixed on Roll end is padded, chain belt is set in outside drive sprocket and driven sprocket.

When needing to make leaching roll rotation, the output shaft of servomotor is controlled to rotate, the output shaft of servomotor drives master Movable sprocket rotates, and drive sprocket drives driven sprocket to rotate by chain belt, and driven sprocket drives leaching roll rotation, so as to make leaching Roll rotation.

Batcher and separation can be included to the feed supplement mechanism for rolling hopper feed supplement, feed supplement mechanism by being provided with the workbench Piece, batcher are fixed on the table, and dispensing upper box part has feed inlet, is provided with solenoid valve one at feed inlet, under batcher Portion has discharge port, and discharge outlet is provided with solenoid valve two, and discharge port is connected by feed supplement pipe with hopper is rolled, in feed supplement pipe also Delivery pump is provided with, shim is vertically arranged in batcher, and dispensing box cavity is divided into left dispensing chamber and right dispensing by shim Chamber, shim include the press section of upper separating part, lower separating part and elasticity, and upper separating part is fixed on dispensing upper box part, upper separation There is the communicating pipe one that can connect left dispensing chamber and right dispensing chamber, one end of communicating pipe one is provided with check valve one and flow in portion Regulating valve one, the other end end of communicating pipe one is blind end, and the other end sidepiece of communicating pipe one has some delivery outlets one, and Delivery outlet one is twist distributed, and lower separating part is fixed on dispensing lower box part, have on lower separating part can connect left dispensing chamber with The communicating pipe two of right dispensing chamber, the other end of communicating pipe two are provided with check valve two and flow control valve two, and the one of communicating pipe two End end is blind end, and one end sidepiece of communicating pipe two has some delivery outlets two, and delivery outlet two is twist distributed, extruding Portion upper end is connected with upper separating part, and press section lower end is connected with lower separating part, and press section can also make its drive deformed back and forth with one Dynamic structure two is connected.

Using above structure, press section is set to deform to the right by driving structure two, press section extrudes right dispensing chamber, Raw material in right dispensing chamber entered in communicating pipe two from the bottom to top, and was output to from delivery outlet two in left dispensing chamber, was formed Spiral shape liquid stream；Press section is set to deform to the left by driving structure two, press section extrudes left dispensing chamber, in left dispensing chamber Raw material from top to bottom enter in communicating pipe one, and be output to from delivery outlet one in right dispensing chamber, form spiral shape liquid stream, Above-mentioned action is repeated, quickly can be stirred evenly the raw material in batcher, obtained coating can be transported to from feed supplement pipe to be rolled in hopper, Dispensing effect is good.

Locating rod one is fixed with the communicating pipe one, also there is flight one between communicating pipe one and locating rod one, even Helical duct one is formed between siphunculus one, locating rod one and flight one.

Using above structure, by forming helical duct one between communicating pipe one, locating rod one and flight one, original can be made Material forms spiral liquid flow when being flowed in communicating pipe one.

Locating rod two is fixed with the communicating pipe two, also there is flight two between communicating pipe two and locating rod two, even Helical duct two is formed between siphunculus two, locating rod two and flight two.

Using above structure, by forming helical duct two between communicating pipe two, locating rod two and flight two, original can be made Material forms spiral liquid flow when being flowed in communicating pipe two.

The rotation direction of the flight one is oppositely oriented with delivery outlet one, the rotation direction of flight two and the rotation direction of delivery outlet two Conversely.

The driving structure two includes column two, guide rod two, guide sleeve two and cylinder two, and column two is fixed on the table, Guide rod two is horizontally fixed on column two, and guide sleeve two is arranged on guide rod two, and cylinder two is fixed on column two, the work of cylinder two Stopper rod is horizontally disposed with, and the piston rod end of cylinder two is connected with guide sleeve two, and press section is connected by connecting rod two with sliding block two.

When needing to make press section deform to the right, the piston rod of control cylinder two moves right, the piston rod band of cylinder two Dynamic guide sleeve two moves right along guide rod two, and guide sleeve two drives connecting rod two to move right, and connecting rod two makes press section deform to the right；When When needing to make the press section deform to the left, the piston rod of control cylinder two is moved to the left, and the piston rod of cylinder two drives two edge of guide sleeve Guide rod two to be moved to the left, guide sleeve two drives connecting rod two to be moved to the left, and connecting rod two makes press section deform to the left.

Support plate is further fixed on the press section.

Using above structure, Auxiliary support can be carried out to press section by support plate.

The column two is additionally provided with instruction structure, and instruction structure includes pointer, and pointer is fixed on guide sleeve two, pointer Instruction unit is vertically oriented to guide rod two, has graduation mark one on guide rod two.

Using above structure, the graduation mark one of guide rod two is directed toward by pointer, can quickly know the deformation of press section, Instruction is directly perceived.

Also there is wobble structure, wobble structure includes mounting rod, shuttle board, spring one and vibration electricity on the upper separating part Machine one, mounting rod is horizontally fixed on separating part, and the upper end of spring one is connected with mounting rod, the lower end of spring one and shuttle board It is connected, and shuttle board is located at the lower section of delivery outlet one, and some through holes are further opened with shuttle board, vibrating motor one is fixed on shake On plate.

Using above structure, control vibrating motor one works, and vibrating motor one drives shuttle board to shake up and down, passes through shake The effect of plate, can carry out shake up and down, so as to reduce the time needed for raw material stirring to the raw material exported in delivery outlet one.

Be further fixed on controller on the workbench, servomotor, cylinder one and cylinder two-way cross circuit with the control Device is connected.

Using above structure, servomotor, cylinder one and cylinder two can control to act by controller, intelligence degree It is high.

The processing pond for rolling hopper wastewater treatment is further fixed on the workbench, processing pond one end has input port, The processing pond other end has a delivery outlet, and stent is fixed with by connecting rod three on workbench, and stent is located above processing pond, stent On be provided with Mobile base, Mobile base can drive its moving mechanism moved back and forth to be connected with one, be fixed with Mobile base push rod electricity Machine one, the push rod end of push-rod electric machine one is connected with lifting frame, lifts and cleaning box is provided with frame, and cleaning box can be located at processing In pond, there are some through holes on cleaning box, cleaning box can drive its rotary electric machine rotated to be connected, is additionally provided with stent with one The vibrational structure that can vibrate cleaning box, vibrational structure include oscillating plate, spring two, vibrating motor two, iron plate and electromagnet, bullet The upper end of spring two is connected with electromagnet, and the lower end of spring two is connected with oscillating plate, and oscillating plate is close to the processing pond other end, vibration Motor two is fixed on oscillating plate top, and electromagnet is fixed on oscillating plate lower part, and iron plate is fixed on cleaning box bottom, and iron plate can be with Electromagnet is in contact.

The push rod of control push-rod electric machine one moves up and down, and the push rod of push-rod electric machine one drives lifting frame to move up and down, and lifts Frame drives cleaning box to move up and down, and cleaning box is located in processing pond, drives Mobile base to move back and forth by moving mechanism, mobile Seat drives cleaning box to move back and forth, and the impurity for handling pool surface is collected by cleaning box, after cleaning box is collected completely, makes cleaning box It is moved to outside processing pond and is located at the underface of oscillating plate, cleaning box upset is made downward by rotary electric machine, will by electromagnet Iron plate is held, and control vibrating motor two works, and vibrating motor two makes cleaning box produce vibration, and the impurity in cleaning box is shaken, So as to clear up processing pond, high treating effect.

The material of the cleaning box is stainless steel.

Using above structure, it can make cleaning box that there is longer service life.

The moving mechanism includes guide rail, sliding block, stepper motor, gear, rack and mounting bar, and mounting bar is fixed on stent On, guide rail is horizontally fixed on mounting bar, and sliding block is arranged on guide rail, and rack is horizontally fixed on mounting bar, and rack is with leading Rail is parallel to each other, and stepper motor is fixed on sliding block, and the output shaft of stepper motor is horizontally disposed with, and gear is fixed on stepper motor Output end, and wheel and rack is meshed, Mobile base is fixed on sliding block.

When needing to move back and forth Mobile base, the output shaft of stepper motor is controlled to rotate, the output shaft band of stepper motor Moving gear rotates, and wheel and rack is progressively engaged to make sliding block move back and forth along guide rail, and sliding block drives Mobile base to move back and forth, from And Mobile base can be moved back and forth.

There are rust inhibitor paint coatings outside the iron plate.

Using above structure, iron plate can be avoided to be corroded by rust inhibitor paint coatings.

Indicating arm is vertically arranged with the processing pond, there is graduation mark two on indicating arm.

Using above structure, the liquid level of processing pond can be conveniently checked by the graduation mark two on indicating arm, instruction is directly See.

Sanding device in the step a includes rack, and feeding mechanism, sanding mechanism, dedusting are disposed with rack Mechanism and discharging mechanism, sanding mechanism include mounting bracket, sanding roller and pressure roller, and mounting bracket is fixed in rack, and sanding roller rotates Mounting bracket lower part is arranged on, sanding roll end can drive its Power Component rotated to be connected with one, and pressure roller is rotatably arranged on installation Frame top, pressure roller can drive its moving assembly moved up and down to be connected with one, and pressure roller can be in contact with sanding roller；Dedusting mechanism It is vertical including dedusting plate, guide rod one, guide sleeve one, support spring, vibrating motor three, sweep-up pipe and exhaust fan, guide rod one It is fixed in rack, and guide rod one is located at mounting bracket side, guide sleeve one is arranged on guide rod one, and support spring is set in On guide rod one, support spring lower end is connected with rack, and support spring upper end is connected with guide sleeve one, and dedusting plate passes through coupling bar It is horizontally fixed on guide sleeve one, there is dedusting chamber inside dedusting plate, if dedusting plate top offers what is be connected with dedusting chamber Dry air admission hole, sweep-up pipe one end are connected with dedusting chamber, and the sweep-up pipe other end is connected with exhaust fan, is additionally provided with sweep-up pipe Filter bag.

The principle of sanding device is as follows：Fabric is input between sanding roller and pressure roller by feeding mechanism, passes through Power Component Sanding roller is driven to rotate, sanding roller carries out fabric sanding, and discharging mechanism exports the good fabric of sanding, so as to fulfill fabric Sanding operation；During fabric sanding, control vibrating motor three vibrates, and vibrating motor three drives dedusting plate up-down vibration, Floating material caused by fabric sanding is shaken by dedusting plate, meanwhile, exhaust fan is opened, by sweep-up pipe by the floating at dedusting plate Thing is drawn into filter bag, so as to make web surface keep cleaning, good dedusting effect.

Barometric damper is additionally provided with the sweep-up pipe.

Using above structure, the air-flow size in sweep-up pipe is adjusted by barometric damper, it is easy to adjust.

The dedusting plate top also has the combing column of some protrusions, and the material for combing column is rubber.

Using above structure, the fine hair of fabric that can be good to sanding by combing column combs, meanwhile, it can make in fine hair The floating material in portion preferably drops.

Also it is arranged with limited block on the guide rod one, and limited block is located at the top of guide sleeve one, screw thread on limited block Positioning bolt is connected with, positioning bolt end can lean with the sidepiece of guide rod one.

Using above structure, position progress when can be moved up by limited block to guide sleeve one is effectively spacing, so that The oscillating region of controllable dedusting plate.

The Power Component includes power motor, driving wheel and driven wheel, and power motor is fixed on mounting bracket, power electric The output shaft of machine is horizontally disposed with, and driving wheel is fixed on the output shaft end of power motor, and driven wheel is fixed on sanding roll end, and Driving wheel is meshed with driven wheel.

When needing to rotate sanding roller, the output shaft of power motor is controlled to rotate, the output shaft of power motor drives master Wheel rotation, driving wheel drive driven wheel to rotate, and driven wheel drives sanding roller to rotate, so as to rotate sanding roller.

The moving assembly includes push-rod electric machine two, guide rod two and guide sleeve two, and guide rod two is fixed on installation vertically On frame, guide sleeve two is set on guide rod two, and push-rod electric machine two is fixed on mounting bracket, the push rod of push-rod electric machine two vertically to Under, the push rod end of push-rod electric machine two is connected with guide sleeve two, and pressure roller is rotatably arranged on guide sleeve two by connection seat.

When needing to adjust the position of pressure roller, the push rod of control push-rod electric machine two moves up and down, the push rod of push-rod electric machine two Guide sleeve two is driven to move up and down, guide sleeve two drives connection seat to move up and down, and connection seat band dynamic pressure roller moves up and down, so as to Adjust the position of pressure roller.

Compared with prior art, the production method of this high abrasion flock suede composite material has the advantages that this：In the present invention By making outer layer, buying internal layer, gluing, fitting, hot-forming and bake and bank up with earth, so that it may complete high abrasion flock suede and answer The making of fabric is closed, it is easy to make.

Brief description of the drawings

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

Fig. 2 is the planar structure schematic diagram that hopper is rolled in squeeze device.

Fig. 3 is the planar structure schematic diagram of dynamic structure in squeeze device.

Fig. 4 is the planar structure schematic diagram of feed supplement mechanism in squeeze device.

Fig. 5 is the dimensional structure diagram that part is removed in squeeze device.

Fig. 6 is the dimensional structure diagram of cleaning box in squeeze device.

Fig. 7 is the dimensional structure diagram of moving mechanism in squeeze device.

Fig. 8 is the planar structure schematic diagram of sanding device.

Fig. 9 is the planar structure schematic diagram that part is removed in sanding device.

In figure, 1, workbench；2nd, hopper is rolled；2a, work department；2b, adjustment portion；3rd, controller；4th, locating rack；5th, pad Roller；6th, guide roll；7th, cylinder one；8th, guide rod one；9th, guide sleeve one；10th, column one；11st, connecting rod one；12nd, adjustable plate；13rd, servo Motor；14th, drive sprocket；15th, chain belt；16th, driven sprocket；17th, shim；17a, lower separating part；17b, press section；17c, on Separating part；18th, communicating pipe two；18a, delivery outlet two；19th, locating rod two；20th, flight two；21st, flow control valve two；22nd, it is single To valve two；23rd, feed supplement pipe；24th, delivery pump；25th, solenoid valve two；26th, batcher；26a, discharge port；26b, feed inlet；27th, prop up Fagging；28th, connecting rod two；29th, cylinder two；30th, column two；31st, guide sleeve two；32nd, pointer；33rd, guide rod two；34th, vibrating motor one； 35th, shuttle board；36th, spring one；37th, mounting rod；38th, solenoid valve one；39th, communicating pipe one；39a, delivery outlet one；40th, flight One；41st, locating rod one；42nd, flow control valve one；43rd, check valve one；44th, processing pond；46th, rotary electric machine；47th, frame is lifted； 48th, connecting rod three；49th, electromagnet；50th, oscillating plate；51st, vibrating motor two；52nd, spring two；53rd, stent；54th, push-rod electric machine one； 55th, Mobile base；56th, cleaning box；57th, indicating arm；58th, iron plate；59th, mounting bar；60th, rack；61st, gear；62nd, stepper motor； 63rd, sliding block；64th, guide rail；71st, rack；72nd, mounting bracket；73rd, sanding roller；74th, vibrating motor three；75th, filter bag；76th, air-flow tune Save valve；77th, sweep-up pipe；78th, exhaust fan；79th, support spring；81st, guide rod one；82nd, guide sleeve one；83rd, positioning bolt；84、 Limited block；85th, coupling bar；86th, dedusting plate；86a, air admission hole；86b, comb column；88th, pressure roller；89th, power motor；91st, actively Wheel；92nd, driven wheel；93rd, connection seat；94th, guide rod two；95th, guide sleeve two；96th, push-rod electric machine two.

Embodiment

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

The production method of this high abrasion flock suede composite material, high abrasion flock suede composite material include outer layer and interior Layer, comprises the following steps：

A, outer layer is made：Polyurethane is coated with elastic island substrate of chammy suede by squeeze device, uses drying and setting machine Drying and shaping is carried out, sanding is carried out with sanding device, obtains outer layer；In the present embodiment, elastic island substrate of chammy suede uses The existing fabric that in the market can be bought, polyurethane use the current material that in the market can be bought；

B, internal layer is purchased：The TC cloth of surfacing is chosen as internal layer；

C, gluing：Glue, glue-spread 18-24g/m are uniformly coated with outer layer bottom surface²；In the present embodiment, at outer layer bottom Face is uniformly coated with glue, glue-spread 20g/m²；

D, it is bonded：Internal layer surface is fitted on outer layer bottom surface, obtains semi-finished product fabric；

E, it is hot-forming：Semi-finished product fabric is subjected to thermocompression forming on hot press, temperature control is at 72-90 DEG C, pressure For 2-5Mpa；In the present embodiment, semi-finished product fabric is subjected to thermocompression forming on hot press, temperature control is at 76 DEG C, pressure For 3Mpa；

F, bake and bank up with earth：Semi-finished product fabric is baked and banked up with earth in an oven, it is 0.5-1h to bake and bank up with earth the time, obtains high abrasion Glove suede Suede composite material, in the present embodiment, semi-finished product fabric is baked and banked up with earth in an oven, and it is 0.7h to bake and bank up with earth the time, is obtained high resistance to Grind flock suede composite material.

Using this method, by making outer layer, buying internal layer, gluing, fitting, hot-forming and bake and bank up with earth, so that it may The making of high abrasion flock suede composite material is completed, it is easy to make.

TC cloth thickness in step b is 0.4-0.6mm, and in the present embodiment, the TC cloth thickness in step b is 0.5mm.

Glue in step c is PU glue, and in the present embodiment, PU glue uses the current material that in the market can be bought.

Oven temperature in step f is controlled at 40-60 DEG C, and in the present embodiment, the oven temperature in step f is controlled 45 ℃。

As shown in Fig. 1-Fig. 7, the squeeze device in step a includes workbench 1, is fixed with workbench 1 and rolls hopper 2, rolled Locating rack 4 is fixed with hopper 2, the middle part of locating rack 4 is provided with workbench 1, and 1 end of workbench can drive the dynamic of its rotation with one Power structure is connected, and 4 both ends of locating rack are both provided with guide roll 6, rolls and adjustable plate 12 is provided with hopper 2, and adjustable plate 12 will roll material Groove 2 is divided into work department 2a and adjustment portion 2b, and adjustable plate 12 can also drive its driving structure one moved back and forth to be connected with one.

Driving structure one includes column 1, guide rod 1, guide sleeve 1 and cylinder 1, and column 1 is fixed on workbench 1 On, in the present embodiment, column 1 is fixed on workbench 1 by welding；Guide rod 1 is horizontally fixed on column one On 10, in the present embodiment, guide rod 1 is fixed on column 1 by bolted connection；Guide sleeve 1 is arranged on guide rod On one 8, cylinder 1 is fixed on column 1, and in the present embodiment, cylinder 1 is fixed on vertical by bolted connection On column 1；The piston rod of cylinder 1 is horizontally disposed with, and the piston rod end of cylinder 1 is connected with guide sleeve 1, and adjustable plate 12 is logical Connecting rod 1 is crossed with guide sleeve 1 to be connected.

Dynamic structure includes servomotor 13, drive sprocket 14, driven sprocket 16 and chain belt 15, and servomotor 13 is fixed on On workbench 1, in the present embodiment, servomotor 13 is fixed on workbench 1 by bolted connection；Servomotor 13 Output shaft be horizontally disposed with, drive sprocket 14 is fixed on the output shaft end of servomotor 13, and driven sprocket 16, which is fixed on, to be padded 5 end of roller, chain belt 15 are set in outside drive sprocket 14 and driven sprocket 16；When needing to make to pad the rotation of roller 5, control servo electricity The output shaft of machine 13 drives drive sprocket 14 to rotate, and drive sprocket 14 drives driven sprocket 16 to rotate by chain belt 15, driven chain The drive of wheel 16 is padded roller 5 and is rotated, and is rotated so as to make to pad roller 5.

Batcher 26 and shim can be included to the feed supplement mechanism for rolling 2 feed supplement of hopper, feed supplement mechanism by being provided with workbench 1 17, batcher 26 is fixed on workbench 1, and in the present embodiment, batcher 26 is fixed on workbench 1 by welding On；26 top of batcher has feed inlet 26b, and solenoid valve 1 is provided with feed inlet 26b, and 26 lower part of batcher has discharging Solenoid valve 2 25 is provided with mouth 26a, discharge port 26a, discharge port 26a is connected by feed supplement pipe 23 with hopper 2 is rolled, feed supplement pipe Delivery pump 24 is additionally provided with 23, shim 17 is vertically arranged in batcher 26, and 26 inner cavity of batcher is divided into by shim 17 Left dispensing chamber and right dispensing chamber, shim 17 includes upper separating part 17c, lower separating part 17a and the press section 17b of elasticity, upper to divide Every portion, 17c is fixed on 26 top of batcher, has the communicating pipe one that can connect left dispensing chamber and right dispensing chamber on upper separating part 17c 39, one end of communicating pipe 1 is provided with check valve 1 and flow control valve 1, and the other end end of communicating pipe 1 is Blind end, the other end sidepiece of communicating pipe 1 has some one 39a of delivery outlet, and one 39a of delivery outlet is twist distributed, In the present embodiment, the quantity of one 39a of delivery outlet is 20；Lower separating part 17a is fixed on 26 lower part of batcher, lower separating part There is the communicating pipe 2 18 that can connect left dispensing chamber and right dispensing chamber, the other end of communicating pipe 2 18 is provided with check valve on 17a 2 22 and flow control valve 2 21, one end end of communicating pipe 2 18 is blind end, if one end sidepiece of communicating pipe 2 18 has Dry two 18a of delivery outlet, and two 18a of delivery outlet is twist distributed, in the present embodiment, the quantity of two 18a of delivery outlet is 20 It is a；Press section 17b upper ends are connected with upper separating part 17c, and press section 17b lower ends are connected with lower separating part 17a, and press section 17b is also With one its driving structure two deformed back and forth can be made to be connected；Using the structure, the piston rod of control cylinder 2 29 drives guide sleeve two 31 move right along guide rod 2 33, and guide sleeve 2 31 drives connecting rod 2 28 to move right, and connecting rod 2 28 makes press section 17b become to the right Shape, press section 17b extrude right dispensing chamber, and the raw material in right dispensing chamber entered in communicating pipe 2 18 from the bottom to top, lead to Formation helical duct two between communicating pipe 2 18, locating rod 2 19 and flight 2 20 is crossed, raw material is flowed in communicating pipe 2 18 Spiral liquid flow is formed when dynamic, and is output to from two 18a of delivery outlet in left dispensing chamber, is formed and spiral shell reverse in communicating pipe 2 18 Revolve shape liquid stream；The piston rod of control cylinder 2 29 drives guide sleeve 2 31 to be moved to the left along guide rod 2 33, and guide sleeve 2 31, which drives, to be connected Bar 2 28 is moved to the left, and connecting rod 2 28 makes press section 17b deform to the left, and press section 17b extrudes left dispensing chamber, left dispensing Raw material in chamber was from top to bottom entered in communicating pipe 1, by communicating pipe 1, locating rod 1 and flight 1 it Between formed helical duct one, spiral liquid flow is formed when raw material is flowed in communicating pipe 1, and exported from one 39a of delivery outlet Into right dispensing chamber, formation and spiral shape liquid stream reverse in communicating pipe 1, repeat above-mentioned action, can be quickly by batcher 26 In raw material stir evenly, obtained coating can be transported to from feed supplement pipe 23 to be rolled in hopper 2, and dispensing effect is good.

Locating rod 1 is fixed with communicating pipe 1, also there is flight one between communicating pipe 1 and locating rod 1 40, helical duct one is formed between communicating pipe 1, locating rod 1 and flight 1.

Locating rod 2 19 is fixed with communicating pipe 2 18, also there is flight two between communicating pipe 2 18 and locating rod 2 19 20, helical duct two is formed between communicating pipe 2 18, locating rod 2 19 and flight 2 20.

The rotation direction of flight 1 is oppositely oriented with one 39a's of delivery outlet, rotation direction and two 18a of delivery outlet of flight 2 20 It is oppositely oriented.

Driving structure two includes column 2 30, guide rod 2 33, guide sleeve 2 31 and cylinder 2 29, and column 2 30 is fixed on work On platform 1, guide rod 2 33 is horizontally fixed on column 2 30, and guide sleeve 2 31 is arranged on guide rod 2 33, and cylinder 2 29 is fixed on vertical On column 2 30, the piston rod of cylinder 2 29 is horizontally disposed with, and the piston rod end of cylinder 2 29 is connected with guide sleeve 2 31, press section 17b is connected by connecting rod 2 28 with guide sleeve 2 31.

Support plate 27 is further fixed on press section 17b；Using the structure, press section 17b can be carried out by support plate 27 Auxiliary support.

Column 2 30 is additionally provided with instruction structure, and instruction structure includes pointer 32, and pointer 32 is fixed on guide sleeve 2 31, In the present embodiment, pointer 32 is fixed on guide sleeve 2 31 by welding；The instruction unit of pointer 32 is vertically oriented to guide rod two 33, there is graduation mark one on guide rod 2 33；Using the structure, the graduation mark one of guide rod 2 33 is directed toward by pointer 32, can be quick Know the deformation of press section 17b, instruction is directly perceived.

Also there is wobble structure, wobble structure includes mounting rod 37, shuttle board 35, one 36 and of spring on upper separating part 17c Vibrating motor 1, mounting rod 37 are horizontally fixed on separating part 17c, and in the present embodiment, mounting rod 37 is connected by bolt The mode connect is fixed on separating part 17c；The upper end of spring 1 is connected with mounting rod 37, the lower end of spring 1 and shake Plate 35 is connected, and shuttle board 35 is located at the lower section of one 39a of delivery outlet, some through holes is further opened with shuttle board 35, in this implementation In example, the quantity of through hole is 40；Vibrating motor 1 is fixed on shuttle board 35, in the present embodiment, vibrating motor one 34 are fixed on shuttle board 35 by bolted connection；Using the structure, control vibrating motor 1 drives shuttle board 35 Shake up and down, by the effect of shuttle board 35, can carry out shake up and down, so as to reduce to the raw material exported in one 39a of delivery outlet Time needed for raw material stirring.

Be further fixed on controller 3 on workbench 1, servomotor 13, cylinder 1 and cylinder 2 29 by circuit with the control Device 3 processed be connected, in the present embodiment, the microcontroller that controller 3 can be bought using in the market, microcontroller control motor and The program of cylinder is existing, its program need not update；Using the structure, by controller 3 can control servomotor 13, Cylinder 1 and cylinder 2 29 act, and intelligence degree is high.

The processing pond 44 for rolling 2 wastewater treatment of hopper is further fixed on workbench 1, in the present embodiment, on workbench 1 Processing pond 44 is fixed with by bolted connection；44 one end of processing pond has input port, and 44 other end of processing pond has defeated Export, stent 53 is fixed with by connecting rod 3 48 on workbench 1, and stent 53 is located at the top of processing pond 44, is set on stent 53 There is Mobile base 55, Mobile base 55 can drive its moving mechanism moved back and forth to be connected with one, and push rod electricity is fixed with Mobile base 55 Machine 1, in the present embodiment, is fixed with push-rod electric machine 1 by bolted connection on Mobile base 55；Push-rod electric machine one 54 push rod end is connected with lifting frame 47, in the present embodiment, what the push rod end of push-rod electric machine 1 was bolted Mode is connected with lifting frame 47；Cleaning box 56 is provided with lifting frame 47, and cleaning box 56 can be located in processing pond 44, cleaning box There are some through holes, in the present embodiment, the quantity of through hole is 100 on 56；Cleaning box 56 and one can drive turn that it is rotated Dynamic motor 46 is connected, and in the present embodiment, rotary electric machine 46 is fixed on lifting frame 47, and the output shaft level of rotary electric machine 46 is set Put, the output shaft end of rotary electric machine 46 is connected with cleaning box 56；Shaking for the vibration of cleaning box 56 can be made by being additionally provided with stent 53 Dynamic structure, vibrational structure include oscillating plate 50, spring 2 52, vibrating motor 2 51, iron plate 58 and electromagnet 49, spring 2 52 Upper end is connected with electromagnet 49, and the lower end of spring 2 52 is connected with oscillating plate 50, and oscillating plate 50 is close to 44 other end of processing pond, Vibrating motor 2 51 is fixed on 50 top of oscillating plate, and in the present embodiment, vibrating motor 2 51 is solid by bolted connection It is scheduled on 50 top of oscillating plate；Electromagnet 49 is fixed on 50 lower part of oscillating plate, and in the present embodiment, electromagnet 49 is bolted Mode be fixed on 50 lower part of oscillating plate；Iron plate 58 is fixed on 56 bottom of cleaning box, and in the present embodiment, iron plate 58 passes through bolt The mode of connection is fixed on 56 bottom of cleaning box；And iron plate 58 can be in contact with electromagnet 49.

The push rod of control push-rod electric machine 1 drives lifting frame 47 to move up and down, and lifting frame 47 drives and moved down on cleaning box 56 It is dynamic, cleaning box 56 is located in processing pond 44, the output shaft driven gear 61 of control stepper motor 62 rotates, gear 61 and rack 60 it is progressively engaged sliding block 63 is moved back and forth along guide rail 64, sliding block 63 drive Mobile base 55 move back and forth, Mobile base 55 drives Cleaning box 56 moves back and forth, and the impurity on 44 surface of processing pond is collected by cleaning box 56, after cleaning box 56 is collected completely, makes cleaning Box 56 is moved to outside processing pond 44 and is located at the underface of oscillating plate 50, cleaning box 56 is overturn downward by rotary electric machine 46, Iron plate 58 is held by electromagnet 49, control vibrating motor 2 51 makes cleaning box 56 produce vibration, will be miscellaneous in cleaning box 56 Matter shakes, so as to clear up processing pond 44, high treating effect.

The material of cleaning box 56 is stainless steel；Using the structure, it can make cleaning box 56 that there is longer service life.

Moving mechanism includes guide rail 64, sliding block 63, stepper motor 62, gear 61, rack 60 and mounting bar 59, mounting bar 59 It is fixed on stent 53, in the present embodiment, mounting bar 59 is fixed on stent 53 by bolted connection；64 water of guide rail Flat to be fixed on mounting bar 59, in the present embodiment, guide rail 64 is fixed on mounting bar 59 by bolted connection；Sliding block 63 are arranged on guide rail 64, and rack 60 is horizontally fixed on mounting bar 59, in the present embodiment, what rack 60 was bolted Mode is fixed on mounting bar 59；And rack 60 is parallel to each other with guide rail 64, stepper motor 62 is fixed on sliding block 63, stepping electricity The output shaft of machine 62 is horizontally disposed with, and gear 61 is fixed on the output end of stepper motor 62, and gear 61 is meshed with rack 60, Mobile base 55 is fixed on sliding block 63.

The outside of iron plate 58 has rust inhibitor paint coatings, and in the present embodiment, rust inhibitor paint coatings can be bought using in the market To existing coating spraying form；Using the structure, by rust inhibitor paint coatings iron plate 58 can be avoided to be corroded.

Indicating arm 57 is vertically arranged with processing pond 44, there is graduation mark two on indicating arm 57；Using the structure, pass through finger Show that the graduation mark two on bar 57 can conveniently check the liquid level of processing pond 44, instruction is directly perceived.

The principle of squeeze device is as follows：The piston rod of control cylinder 1 drives guide sleeve 1 to move back and forth along guide rod 1, Guide sleeve 1 drives connecting rod 1 to move back and forth, and connecting rod 1 drives adjustable plate 12 to move back and forth, and adjustable plate 12 is as needed to work The length for making portion 2a is adjusted, and by padding roller 5 by polyurethane-coated to fabric, without human intervention, pads conveniently.

As illustrated in figs. 8-9, the sanding device in step a includes rack 71, be disposed with rack 71 feeding mechanism, Sanding mechanism, dedusting mechanism and discharging mechanism, in the present embodiment, feeding mechanism and discharging mechanism using the prior art, Realize outputting and inputting for fabric；Sanding mechanism includes mounting bracket 72, sanding roller 73 and pressure roller 88, in the present embodiment, The product that sanding roller 73 can be bought using in the market；Mounting bracket 72 is fixed in rack 71, in the present embodiment, installation Frame 72 is fixed in rack 71 by bolted connection；Sanding roller 73 is rotatably arranged on 72 lower part of mounting bracket, sanding roller 73 End can drive its Power Component rotated to be connected with one, and pressure roller 88 is rotatably arranged on 72 top of mounting bracket, 88 and one energy of pressure roller Its moving assembly moved up and down is driven to be connected, and pressure roller 88 can be in contact with sanding roller 73；Dedusting mechanism include dedusting plate 86, Guide rod 1, guide sleeve 1, support spring 79, vibrating motor 3 74, sweep-up pipe 77 and exhaust fan 78, guide rod 1 are perpendicular Directly it is fixed in rack 71, in the present embodiment, guide rod 1 is fixed in rack 71 by bolted connection；And lead It is located at 72 side of mounting bracket to bar 1, guide sleeve 1 is arranged on guide rod 1, and support spring 79 is set in guide rod On one 81,79 lower end of support spring is connected with rack 71, and 79 upper end of support spring is connected with guide sleeve 1, and dedusting plate 86 passes through Coupling bar 85 is horizontally fixed on guide sleeve 1, and the inside of dedusting plate 86 has dedusting chamber, and 86 top of dedusting plate offers and removes Some air admission hole 86a that dirt chamber is connected, in the present embodiment, the quantity of air admission hole 86a is 20；77 one end of sweep-up pipe and Dedusting chamber is connected, and 77 other end of sweep-up pipe is connected with exhaust fan 78, and filter bag 75 is additionally provided with sweep-up pipe 77.

Barometric damper 76 is additionally provided with sweep-up pipe 77；Using the structure, dust suction is adjusted by barometric damper 76 Air-flow size in pipe 77, it is easy to adjust.

86 top of dedusting plate also has the combing column 86b of some protrusions, and in the present embodiment, the quantity for combing column 86b is 60；The material for combing column 86b is rubber；Using the structure, the fine hair of fabric that can be good to sanding by combing column 86b into Row combs, meanwhile, the floating material inside fine hair can be made preferably to drop.

Limited block 84 is also arranged with guide rod 1, and limited block 84 is located at the top of guide sleeve 1, limited block 84 On be threaded with positioning bolt 83,83 end of positioning bolt can lean with the sidepiece of guide rod 1；Using the structure, lead to The position progress that limited block 84 is crossed when can be moved up to guide sleeve 1 is effectively spacing, so that the vibration of controllable dedusting plate 86 Scope.

Power Component includes power motor 89, driving wheel 91 and driven wheel 92, and power motor 89 is fixed on mounting bracket 72, In the present embodiment, power motor 89 is fixed on mounting bracket 72 by bolted connection；The output shaft of power motor 89 Horizontally disposed, driving wheel 91 is fixed on the output shaft end of power motor 89, and in the present embodiment, driving wheel 91 passes through key connection Mode be fixed on the output shaft end of power motor 89；Driven wheel 92 is fixed on 73 end of sanding roller, in the present embodiment, from Driving wheel 92 is fixed on 73 end of sanding roller by way of key connection；And driving wheel 91 is meshed with driven wheel 92.

Moving assembly includes push-rod electric machine 2 96, guide rod 2 94 and guide sleeve 2 95, and guide rod 2 94 is fixed on vertically On mounting bracket 72, in the present embodiment, guide rod 2 94 is fixed on mounting bracket 72 by bolted connection；Guide sleeve two 95 are set on guide rod 2 94, and push-rod electric machine 2 96 is fixed on mounting bracket 72, and in the present embodiment, push-rod electric machine 2 96 is logical Bolted mode is crossed to be fixed on mounting bracket 72；Straight down, push-rod electric machine 2 96 pushes away the push rod of push-rod electric machine 2 96 Boom end is connected with guide sleeve 2 95, and pressure roller 88 is rotatably arranged on guide sleeve 2 95 by connection seat 93；Pressed when needing to adjust During the position of roller 88, the push rod of control push-rod electric machine 2 96 drives guide sleeve 2 95 to move up and down, and guide sleeve 2 95 drives connection Seat 93 moves up and down, and connection seat 93 is moved up and down with dynamic pressure roller 88, so that the position of adjustable pressure roller 88.

The principle of sanding device is as follows：Fabric is input between sanding roller 73 and pressure roller 88 by feeding mechanism, controls power The output shaft of motor 89 drives driving wheel 91 to rotate, and driving wheel 91 drives driven wheel 92 to rotate, and driven wheel 92 drives sanding roller 73 Rotate, sanding roller 73 carries out fabric sanding, and discharging mechanism exports the good fabric of sanding, makees so as to fulfill the sanding of fabric Industry；During fabric sanding, control vibrating motor 3 74 vibrates, and vibrating motor 3 74 drives 86 up-down vibration of dedusting plate, Floating material caused by fabric sanding is shaken by dedusting plate 86, meanwhile, exhaust fan 78 is opened, by sweep-up pipe 77 by dedusting plate 86 The floating material at place is drawn into filter bag 75, so as to make web surface keep cleaning, good dedusting effect.

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 do various modifications or additions to described specific embodiment or replace in a similar way Generation, but without departing from spirit of the invention or beyond the scope of the appended claims.

Claims (10)

1. a kind of production method of high abrasion flock suede composite material, high abrasion flock suede composite material includes outer layer and interior Layer, it is characterised in that comprise the following steps：

A, outer layer is made：Polyurethane is coated with elastic island substrate of chammy suede by squeeze device, is carried out with drying and setting machine Drying and shaping, carries out sanding with sanding device, obtains outer layer；

B, internal layer is purchased：The TC cloth of surfacing is chosen as internal layer；

C, gluing：Glue, glue-spread 18-24g/m are uniformly coated with outer layer bottom surface²；

D, it is bonded：Internal layer surface is fitted on outer layer bottom surface, obtains semi-finished product fabric；

E, it is hot-forming：Semi-finished product fabric is subjected to thermocompression forming on hot press, temperature control is at 72-90 DEG C, pressure 2- 5Mpa；

F, bake and bank up with earth：Semi-finished product fabric is baked and banked up with earth in an oven, it is 0.5-1h to bake and bank up with earth the time, obtains high abrasion flock suede and answers Close fabric.

2. the production method of high abrasion flock suede composite material according to claim 1, it is characterised in that the step TC cloth thickness in b is 0.4-0.6mm.

3. the production method of high abrasion flock suede composite material according to claim 1, it is characterised in that the step Glue in c is PU glue.

4. the production method of high abrasion flock suede composite material according to claim 1, it is characterised in that the step Oven temperature in f is controlled at 40-60 DEG C.

5. the production method of high abrasion flock suede composite material according to claim 1, it is characterised in that the step Squeeze device in a includes workbench, is fixed with workbench and rolls hopper, rolled and locating rack is fixed with hopper, in the middle part of locating rack It is provided with and pads roller, padding roll end can drives its dynamic structure rotated to be connected with one, and locating rack both ends are both provided with guiding Roller, rolls and adjustable plate is provided with hopper, and adjustable plate will roll hopper and be divided into work department and adjustment portion, and adjustable plate can also drive it with one The driving structure one moved back and forth is connected.

6. the production method of high abrasion flock suede composite material according to claim 5, it is characterised in that the driving Structure one includes column one, guide rod one, guide sleeve one and cylinder one, and column one is fixed on the table, and guide rod one is horizontally fixed on On column one, guide sleeve one is arranged on guide rod one, and cylinder one is fixed on column one, and the piston rod of cylinder one is horizontally disposed with, gas The piston rod end of cylinder one is connected with guide sleeve one, and adjustable plate is connected by connecting rod one with sliding block one.

7. the production method of high abrasion flock suede composite material according to claim 5, it is characterised in that the power Structure includes servomotor, drive sprocket, driven sprocket and chain belt, and servomotor is fixed on the table, servomotor it is defeated Shaft is horizontally disposed with, and drive sprocket is fixed on the output shaft end of servomotor, and driven sprocket, which is fixed on, pads roll end, chain belt It is set in outside drive sprocket and driven sprocket.

8. the production method of high abrasion flock suede composite material according to claim 1, it is characterised in that the step Sanding device in a includes rack, and feeding mechanism, sanding mechanism, dedusting mechanism and discharging mechanism are disposed with rack, mill Hair mechanism includes mounting bracket, sanding roller and pressure roller, and mounting bracket is fixed in rack, and sanding roller is rotatably arranged on mounting bracket lower part, Sanding roll end can drive its Power Component rotated to be connected with one, and pressure roller is rotatably arranged on mounting bracket top, pressure roller and an energy Its moving assembly moved up and down is driven to be connected, and pressure roller can be in contact with sanding roller；Dedusting mechanism includes dedusting plate, guide rod First, guide sleeve one, support spring, vibrating motor three, sweep-up pipe and exhaust fan, guide rod one is fixed in rack vertically, and is led It is located at mounting bracket side to bar one, guide sleeve one is arranged on guide rod one, and support spring is set on guide rod one, supports bullet Spring lower end is connected with rack, and support spring upper end is connected with guide sleeve one, and dedusting plate is horizontally fixed on guide sleeve by coupling bar On one, there is dedusting chamber inside dedusting plate, dedusting plate top offers some air admission holes being connected with dedusting chamber, sweep-up pipe one End is connected with dedusting chamber, and the sweep-up pipe other end is connected with exhaust fan, and filter bag is additionally provided with sweep-up pipe.

9. the production method of high abrasion flock suede composite material according to claim 8, it is characterised in that the dust suction Barometric damper is additionally provided with pipe.

10. the production method of high abrasion flock suede composite material according to claim 8, it is characterised in that described to remove Dirt plate top also has the combing column of some protrusions, and the material for combing column is rubber.