CN203602787U - Opening and reclaiming system for non-woven fabric leftover materials - Google Patents

Abstract

The utility model discloses an opening and reclaiming system for non-woven fabric leftover materials. The opening and reclaiming system comprises a non-woven fabric leftover material guide device, a spraying humidification device of an opener, the opener and a fiber opening and pneumatic packing device. The non-woven fabric leftover material guide device is connected with a non-woven fabric leftover material coiling disk, the spraying humidification device of the opener is arranged between the non-woven fabric leftover material guide device and the opener, the discharge end of the opener is connected with a feed port of a cyclone collector through a vapor-fiber separator, and a discharge port of the cyclone collector is connected with the fiber opening and pneumatic packing device. According to the opening and reclaiming system, quick opening and collecting of non-woven fabric leftover material strips can be achieved, the waste is fully utilized, labor intensity of operators is reduced, production fields can be kept free of pollution, the production efficiency and economic benefits are improved, and the opening and reclaiming system is especially applied to large-batch production workshops.

Description

Nonwoven fabric leftover pieces shredding recovery system

Technical field

The utility model relates to textile machine equipment technical field, particularly a kind of nonwoven fabric leftover pieces shredding recovery system.

Background technology

In prior art, textile enterprise utilizes various textile fabrics in process of production, for example nonwoven fabric carries out production and processing, the many leftover bits that produce in production process can not be recycled for manufacturer, just fall as waste disposal, raw material resources are wasted, increase enterprise's production cost, also reduced Business Economic Benefit, waste disposal operation is numerous and diverse simultaneously, in processing procedure, even there is secondary pollution, particularly for the higher manufacturing enterprise of the cost of raw material, and the large enterprise of production scale, the waste quantity that leftover bits cause is more, if can recycle in time, will produce good economic benefit.Although what have can recovery section fiber leftover bits, production efficiency is low, reclaims work on the spot environment severe, and fibre dust is many, has also affected the quality that reclaims product, causes the generation of defective work.

Summary of the invention

The purpose of this utility model is exactly the problems referred to above that exist for solving prior art, and a kind of nonwoven fabric leftover pieces shredding recovery system is provided; Can realize quick shredding, the collection of nonwoven fabric corner material strip, make full use of waste material, alleviate operator's labour intensity, keep production scene pollution-free, improve production efficiency and economic benefit, be particularly suitable for producing in enormous quantities workshop and use.

The technical scheme of the utility model technical solution problem is:

A kind of nonwoven fabric leftover pieces shredding recovery system, comprise nonwoven fabric leftover pieces material guide device, the spraying humidifier of opener, opener, the pneumatic packing apparatus of opening fiber, on described nonwoven fabric leftover pieces material guide device, be connected with nonwoven fabric leftover pieces looping disk, the spraying humidifier of described opener is located between nonwoven fabric leftover pieces material guide device and opener, the discharge end of opener is connected with the charging aperture of cyclone collector by Aerodynamic fiber separator, and the discharging opening of cyclone collector is connected with the pneumatic packing apparatus of opening fiber.

The pneumatic packing apparatus of described opening fiber comprises frame, described frame and antetheca, rear wall, left side wall, right side wall, top cover, and base plate is connected to form inner enclosed cavity, described frame top cover is provided with the first cylinder for opening fiber packing, frame left side wall is provided with controller, the first gas solenoid directional control valve, controller is connected with the motor of cyclone collector, the first gas solenoid directional control valve is connected with controller, the first gas solenoid directional control valve is connected source of high pressure air with the first cylinder, described rear wall is provided with air inlet, described air inlet is connected with the opening fiber escape pipe of cyclone collector, the movable rod of the first cylinder is connected with fiber platen, described fiber platen profile coordinates with the inwall of enclosed cavity, fiber platen moves up and down at closed inner chamber, described antetheca top is provided with cavity gas outlet, cavity gas outlet is provided with fibrous filter net, cavity gas outlet be connected with the pipeline of telescopic plastic blast pipe, the end of blast pipe is connected with dust collection bag.

Described nonwoven fabric leftover pieces material guide device comprises sub-stent, sub-stent is provided with the looping disk fixed axis of horizontal positioned, fixed axis is distributed in the both sides of each sub-stent symmetrically, looping disk is connected with fixed axis by bearing, described looping disk is to rotate clockwise, on the lateral frame near above looping disk, be provided with deflector chute, deflector chute is located at a side of guide direction of feed.

The spraying humidifier of described opener comprises nozzle, high-pressure pump, nozzle stationary pipes, the water inlet end of described nozzle stationary pipes is connected with high-pressure pump through high-voltage tube, water side is connected with nozzle, high-pressure pump water inlet is connected with water outlet of water tank through water inlet pipe, delivery port is provided with filter, described high-voltage tube is provided with Pressure gauge, it is characterized in that, described nozzle stationary pipes is located on stationary pipes support, described stationary pipes support comprises two heel posts, two heel posts connect by upper beam, wherein nozzle stationary pipes is connected with crossbeam, nozzle is located at the top of opening fiber, between nozzle and nozzle stationary pipes, be provided with switch valve, the water inlet end of described nozzle stationary pipes is higher than water side, the end of nozzle stationary pipes is provided with plug.

The beneficial effects of the utility model:

1. the utility model has formed fast pipeline system, can realize concentrating and efficient control of technological process, realize quick shredding, the collection of nonwoven fabric corner material strip, make full use of waste material, alleviate operator's labour intensity, keep production scene pollution-free, improved production efficiency and economic benefit, be particularly suitable for producing in enormous quantities workshop and use.

2. the pneumatic packing apparatus of opening fiber and cyclone collector are used in combination, the fiber that cyclone collector can be collected is packed in time, and the transhipment operation in the middle of having reduced, has avoided fiber in indoor leakage and pollution, production on-site environment is good, has reduced production cost and operator's labour intensity.By the lifting action of pneumatic control backboard, when packing, can be rapidly existing air inlet be blocked by backboard, avoid follow-up fiber enter or block.Be provided with transparent observation window at cyclone collector near the mouth of pipe place of giving vent to anger, can observe in time in pipeline, whether have the obstruction of fiber cleaning in time.The mouth of pipe place of giving vent to anger at cyclone collector increases auxiliary exhaust mouth and is provided with fibrous filter net, unnecessary gas can be discharged in time and do not lose fiber, keeps the steady air current in baling press, is beneficial to collect fiber.Because unnecessary wind and dust enter filter bag rather than directly enter the interior space, avoid indoor because arranging wind-induced dust pollution.Arrange after sealing strip, antetheca and left side wall, right side wall, top cover and base plate are sealed and matched well, avoid the production scene that leaks into of fiber and dust.Antetheca and left side wall, right side wall syndeton are simple, easy accessibility, and locking convenient, reliability are high.

3. described in, nonwoven fabric leftover pieces material-guider structure is simple, fixing reliable, rotary resistance is little, particularly formed by multiple material guide structures that longitudinally and laterally connect, be applicable to the long and narrow feature of nonwoven fabric leftover pieces, can quickly and easily as far as possible many nonwoven fabric leftover pieces be supplied with to leftover pieces simultaneously and carry out shredding operation to opener, operating efficiency is high.Multiple sub-stents connect into entirety by detachable syndeton, and overall structure stability is higher, take production space little, need and place size according to production scale, can adjust neatly, to adapt to the requirement of production and work-yard.The cirque structure of deflector chute or circular arc chamfering structure can avoid fiber cutting off or excessive wear and the fibre damage and the flaw that cause when this position.

4. the spray amount of the spraying humidifier of opener can regulate, easy to adjust, and humidification good uniformity is convenient to dismounting, replacing and maintenance, avoids the long-term deposition of water in jet pipe and the flaw of the fiber that causes, is applicable to the needs of large-scale production.Between each nozzle and nozzle stationary pipes, be provided with switch valve, once certain nozzle break down after, be convenient to dismounting and change.The water inlet end of described nozzle stationary pipes is higher than water side, and the end of nozzle stationary pipes is provided with plug, and pipe internal drainage is convenient, when bleeding off fast the water accumulating in pipe after end-of-job, avoids going bad, affects the quality of subsequent product.The water spraying direction of nozzle is vertical with opening fiber moving direction, has realized direct sprinkling, has improved spray effect, has improved spraying efficiency, has improved the whole efficiency of production line.The spool of nozzle adopts titanium alloy material manufacture, carries pressure limiting starter gate valve, and shell adopts copper or stainless steel making, and spraying is thin, weares and teares little, and the pressure loss is little, avoids stopping up and dripping.

Accompanying drawing explanation

Fig. 1 is system architecture schematic diagram of the present utility model;

Fig. 2 is the pneumatic packing apparatus structural representation of opening fiber;

Fig. 3 is the partial sectional view of Fig. 2;

Fig. 4 is the structural representation of the antetheca side of Fig. 2;

Fig. 5 is nonwoven fabric leftover pieces material-guider structure schematic diagram of the present utility model;

Fig. 6 is the spraying humidifier structural representation of opener of the present utility model.

The specific embodiment

In order to understand better the utility model, explain in detail embodiment of the present utility model below in conjunction with accompanying drawing.

In conjunction with Fig. 1, a kind of nonwoven fabric leftover pieces shredding recovery system, comprise nonwoven fabric leftover pieces material guide device, the spraying humidifier of opener, opener, the pneumatic packing apparatus of opening fiber, on described nonwoven fabric leftover pieces material guide device, be connected with nonwoven fabric leftover pieces looping disk, the spraying humidifier of described opener is located between nonwoven fabric leftover pieces material guide device and opener, the discharge end of opener is connected with the charging aperture of cyclone collector by Aerodynamic fiber separator, and the discharging opening of cyclone collector is connected with the pneumatic packing apparatus of opening fiber.

As shown in Figures 1 to 4, the pneumatic packing apparatus of described opening fiber comprises frame, frame is by frame antetheca 73, rear wall 71, left side wall 721, right side wall 722, top cover 74, and base plate 72 is connected to form inner enclosed cavity, described frame top cover 74 is provided with the first cylinder 76 for opening fiber packing, frame left side wall 721 is provided with controller 79, the first gas solenoid directional control valve 710, controller 79 is connected with the motor of cyclone collector 712, the first gas solenoid directional control valve 710 is connected with controller, the first gas solenoid directional control valve 710 is connected source of high pressure air 731 with the first cylinder 76, described rear wall 71 is provided with air inlet 720, described air inlet 720 is connected with the opening fiber escape pipe of cyclone collector 712, cyclone collector 712 tops are provided with collector air inlet 723, top cover is provided with exhaust outlet, wherein the exhaust outlet of top cover is connected with indoor collector 714 through discharge duct, or be directly discharged to the exterior space, collector air inlet 723 is connected with the air outlet of opening fiber blower fan, the movable rod of the first cylinder 76 is connected with fiber platen 717, described fiber platen 717 profiles coordinate with the inwall of enclosed cavity, fiber platen 717 moves up and down at closed inner chamber, described antetheca 73 tops are provided with cavity gas outlet 729, described cavity gas outlet 729 is provided with fibrous filter net 716, when the movable rod of the first cylinder 76 is during in contraction state, the position of cavity gas outlet is lower than the bottom surface of fiber platen, cavity gas outlet 729 is connected with the pipeline 724 with telescopic plastic blast pipe 725, the end of pipeline 724 is connected with dust collection bag 715.

The opening fiber escape pipe of described cyclone collector 712 is being provided with near the mouth of pipe place of giving vent to anger the observation window 719 of being made up of safety glass, and a side of observation window is provided with auxiliary exhaust mouth 713, and described auxiliary exhaust mouth 713 is provided with fibrous filter net.

Rear wall 71 air inlet 720 places of described frame are provided with backboard 718, rear wall is provided with gathering sill 726, described backboard 718 coordinates with gathering sill 726, be provided with the second cylinder 77 at frame top cover 74 near rear wall 71 1 sides, the movable rod of described the second cylinder 77 is connected with backboard 718, frame left side wall 721 is provided with the second gas solenoid directional control valve 711, the second gas solenoid directional control valves 711 and is connected with controller, and described the second gas solenoid directional control valve 711 is connected source of high pressure air with the second cylinder 77.

The edge of antetheca 73 is provided with rubber weather strip.Keep antetheca 73 and left side wall 721, right side wall 722, top cover 74 and base plate 72 to be sealed and matched well, avoid the production scene that leaks into of fiber and dust.

Described antetheca 73 is door connection structure, and the right side of antetheca 73 is hinged by bearing pin 727 and right side wall, is provided with bearing pin 730 at left side wall 721, is provided with the hook 728 of rotation in antetheca 73 left sides, and hook 728 is connected with bearing pin 723 locking that realizes antetheca and left side wall.Antetheca 73 also can adopt following door connection structure: the right side of antetheca 73 is hinged by bearing pin and right side wall, left side wall is provided with sidewall latch hole, antetheca left side is provided with antetheca pin hole, and sidewall latch hole, antetheca pin hole connect via bearing pin 78 locking that realizes dodge gate.

When use, open antetheca 73, opening fiber packaging bag is put at the bottom of enclosed cavity on 72 supporting surface, by antetheca 73 and left side wall, right side wall is fastening reliable, operating gas reversal valve, adjust the movable rod of two cylinders, make it in punctured position, the air inlet 720 of rear wall is opened, the gauge tap of cyclone collector closes, cyclone collector work, carry opening fiber to baling press, after opening fiber completely wraps, operate the second gas solenoid directional control valve 711 and close air inlet, operating the first gas solenoid directional control valve 710 moves down the movable rod of the first cylinder 76 again, by opening fiber compacting, then open antetheca 73, take out opening fiber packaging bag.In the time that cyclone collector is worked, excessive wind is discharged from auxiliary exhaust mouth 713, by the telescopic plastic blast pipe 725 being connected with cavity gas outlet 722, tiny fibre dust etc. is collected to dust collection bag 715, the environmental pollution of avoiding dust to be directly discharged into workshop, to cause simultaneously.By observation window 719, can find in time whether to exist fiber to block, can take in time cleaning measure once block.

As shown in Figure 5, described nonwoven fabric leftover pieces material guide device, comprise sub-stent 51, sub-stent 51 is provided with the looping disk fixed axis 53 of horizontal positioned, fixed axis 53 is distributed in the both sides of each sub-stent 51 symmetrically, and looping disk 52 is connected with fixed axis 53 by bearing 54, and described looping disk 52 is to rotate clockwise, on the lateral frame 56 near above looping disk 52, be provided with deflector chute 55, deflector chute 55 is located at a side of guide direction of feed.

Described fixed axis 53 is provided with many in same level along support fore-and-aft direction (being longitudinally in the present embodiment figure), wherein every fixed axis 53 is provided with corresponding deflector chute 55, described sub-stent 51 front portions are provided with concentrates deflector chute 510, concentrates deflector chute 510 to be located on the link 59 in deflector chute 55 fronts that many horizontal fixed axis in same level are corresponding.The leftover pieces 57 that are wound around on described each looping disk 52 pull out afterwards, are aggregated into concentrated deflector chute by deflector chute 55 guiding separately, after being gathered by concentrated deflector chute, be transported to opener and carry out shredding operation, the diagram direction of arrow is the moving direction that leftover pieces 57 are transported to opener.

Described multiple sub-stent is laterally being provided with multiplely, between multiple adjacent sub-stents, connects into integrally-built total body support frame by the syndeton 58 of bottom.Overall structure stability is higher.

Described syndeton 58 is that detachable is connected with laterally adjacent sub-stent.

Described syndeton is connecting axle, and connecting axle two ends are provided with external screw thread, and sub-stent bottom is provided with internal thread, and connecting axle couples together horizontal adjacent sub-stent by screw thread.

Described syndeton is channel-section steel or angle steel, and the bottom of described channel-section steel or angle steel and sub-stent is bolted.

The corresponding setting of quantity of the quantity of described concentrated deflector chute 510 and transverse branch frame 51, the corresponding multiple transverse branch framves 1 of multiple concentrated deflector chutes 510 are located on the relevant position of independent rack 9 side by side.

Described deflector chute is cirque structure or hollow cylinder, between the inwall of described hollow cylinder and both ends of the surface, passes through circular arc chamfering.

As shown in Figure 6, the spraying humidifier of described opener, comprise nozzle 62, high-pressure pump 67, nozzle stationary pipes 61, the water inlet end of described nozzle stationary pipes 61 is connected with high-pressure pump 67 through high-voltage tube 68, water side is connected with nozzle 62, high-pressure pump 67 water inlets are connected with water outlet of water tank through water inlet pipe, delivery port is provided with filter, described high-voltage tube 68 is provided with Pressure gauge 69, described nozzle stationary pipes 61 is located on stationary pipes support 64, described stationary pipes support 64 comprises two heel posts 66, two heel posts 66 connect by upper beam, wherein nozzle stationary pipes 61 is connected with crossbeam, nozzle 62 is located at the top of leftover pieces opening fiber 610, the height of described crossbeam on column 66 can regulate.Described nozzle stationary pipes 61 is provided with multiple nozzles 62, between each nozzle 62 and nozzle stationary pipes 61, is provided with switch valve 63, and the water inlet end of described nozzle stationary pipes 61 is higher than water side, and the end of nozzle stationary pipes 61 is provided with plug 65.

Described nozzle 62 adopts ultra micro atomizer, and the spool of described nozzle adopts titanium alloy material manufacture and carries pressure limiting starter gate valve, and shell adopts copper or stainless steel making. and have spraying thin, wear and tear little, the pressure loss is little, avoids stopping up and dripping.

Described nozzle 62 outsides are provided with protective cover.

The water spraying direction of described nozzle 62 is vertical with opening fiber 610 moving directions.　

Described nozzle stationary pipes 61 is connected with the upper beam of stationary pipes support 64 by stainless steel band 611.

Described nozzle 62 is provided with adjusting knob that can adjustable spraying amount.

The utility model, in the time of work, is first wound into looping disk by nonwoven fabric corner material strip; Again the looping disk that is wound around nonwoven fabric corner material strip is fixed on leftover pieces material guide device; Then extract the initiating terminal of nonwoven fabric corner material strip from leftover pieces material guide device, after the spraying humidifier liquid feeding of opener is processed, feeding opener; Corner material strip, through the licker-in feeding opener of opener, becomes the needed staple fibre of subsequent production technique through cylinder shredding operation; Staple fibre after shredding pumps to Aerodynamic fiber separator through blower fan, and the air that other are unnecessary and dust pump to filter bag through blower fan; Opening fiber is transported to cyclone collector by Aerodynamic fiber separator, and cyclone collector lower pipeline output opening fiber enters pneumatic packaging machine, collects, compresses packing in pneumatic packaging machine, and unnecessary wind enters filter bag through air channel.

By reference to the accompanying drawings the specific embodiment of utility model is described although above-mentioned; but the not restriction to the utility model protection domain; on the basis of the technical solution of the utility model, those skilled in the art do not need to pay various modifications that creative work can make or distortion still in protection domain of the present utility model.

Claims (4)

1. a nonwoven fabric leftover pieces shredding recovery system, it is characterized in that, comprise nonwoven fabric leftover pieces material guide device, the spraying humidifier of opener, opener, the pneumatic packing apparatus of opening fiber, on described nonwoven fabric leftover pieces material guide device, be connected with nonwoven fabric leftover pieces looping disk, the spraying humidifier of described opener is located between nonwoven fabric leftover pieces material guide device and opener, the discharge end of opener is connected with the charging aperture of cyclone collector by Aerodynamic fiber separator, and the discharging opening of cyclone collector is connected with the pneumatic packing apparatus of opening fiber.

2. nonwoven fabric leftover pieces shredding recovery system as claimed in claim 1, it is characterized in that, the pneumatic packing apparatus of described opening fiber comprises frame, described frame and antetheca, rear wall, left side wall, right side wall, top cover, and base plate is connected to form inner enclosed cavity, described frame top cover is provided with the first cylinder for opening fiber packing, frame left side wall is provided with controller, the first gas solenoid directional control valve, controller is connected with the motor of cyclone collector, the first gas solenoid directional control valve is connected with controller, the first gas solenoid directional control valve is connected source of high pressure air with the first cylinder, described rear wall is provided with air inlet, described air inlet is connected with the opening fiber escape pipe of cyclone collector, the movable rod of the first cylinder is connected with fiber platen, described fiber platen profile coordinates with the inwall of enclosed cavity, fiber platen moves up and down at closed inner chamber, described antetheca top is provided with cavity gas outlet, cavity gas outlet is provided with fibrous filter net, cavity gas outlet is connected with discharge duct, the end of discharge duct is connected with dust collection bag.

3. nonwoven fabric leftover pieces shredding recovery system as claimed in claim 1, it is characterized in that, described nonwoven fabric leftover pieces material guide device comprises sub-stent, sub-stent is provided with the looping disk fixed axis of horizontal positioned, fixed axis is distributed in the both sides of each sub-stent symmetrically, and looping disk is connected with fixed axis by bearing, and described looping disk is to rotate clockwise, on the lateral frame near above looping disk, be provided with deflector chute, deflector chute is located at a side of guide direction of feed.

4. nonwoven fabric leftover pieces shredding recovery system as claimed in claim 1, it is characterized in that, the spraying humidifier of described opener comprises nozzle, high-pressure pump, nozzle stationary pipes, the water inlet end of described nozzle stationary pipes is connected with high-pressure pump through high-voltage tube, water side is connected with nozzle, high-pressure pump water inlet is connected with water outlet of water tank through water inlet pipe, delivery port is provided with filter, described high-voltage tube is provided with Pressure gauge, described nozzle stationary pipes is located on stationary pipes support, described stationary pipes support comprises two heel posts, two heel posts connect by upper beam, wherein nozzle stationary pipes is connected with crossbeam, nozzle is located at the top of opening fiber, between nozzle and nozzle stationary pipes, be provided with switch valve, the water inlet end of described nozzle stationary pipes is higher than water side, the end of nozzle stationary pipes is provided with plug.

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