CN103587989A - Non-woven fabric offcut recycling device - Google Patents

Abstract

The invention discloses a non-woven fabric offcut recycling device, and relates to a scrap recycling device. The non-woven fabric offcut recycling device is used for solving the problem that recycling of non-woven fabrics is inconvenient. The non-woven fabric offcut recycling device comprises a machine frame, a winding disc, a first rotating shaft, a second rotating shaft, a sliding block and a travel switch. The first rotating shaft and the second rotating shaft are arranged at the upper portion of the machine frame in parallel. The winding disc is fixedly installed on the first rotating shaft. The first rotating shaft, the second rotating shaft and a power component are connected through a transmission mechanism. The sliding block which can conduct reciprocating linear motion in the axial direction of the second rotating shaft is arranged on the second rotating shaft. A controller is arranged on the side face of the sliding block. An electromagnetic valve is arranged in the controller. A guiding wheel which dredges strip-shaped offcuts is installed on the sliding block. According to the non-woven fabric offcut recycling device, a motor or a pneumatic motor outputs rotational motion to be used for winding the non-woven fabric offcuts, manpower is saved, working efficiency is improved, resources are fully utilized, and the automation degree is high.

Description

Nonwoven fabrics leftover pieces regenerative apparatus

Technical field

The present invention relates to waste material recovery device, specifically the regenerative apparatus of the banded leftover pieces of a kind of nonwoven fabrics.

Background technology

Nonwoven fabrics claims again adhesive-bonded fabric, to be formed by orientation or random fiber, be environment-friendly materials of new generation, there is protection against the tide, ventilative, pliable and tough, light weight, not combustion-supporting, easy decomposition, nontoxic nonirritant, rich color, the advantage such as use again cheap, capable of circulation.It is not by the yarns interwoven of one one, is woven together, but by fiber directly method by physics be bonded together, non-weaving cloth has been broken through traditional weaving principle, and has that technological process is short, speed of production is fast, the features such as output is high, cost is low, and purposes is wide, raw material sources are many.

When utilizing cutting machine to carry out trimming operation to nonwoven fabrics, the marginal portion after trimming becomes banded leftover pieces.As shown in Figure 1, in side shears bypass, be often placed with cloth bag 93 or blowing engine 92 for the collection of banded leftover pieces 91, but the in disorder accumulation of leftover pieces under this collection mode; Because nonwoven fabrics is that the method by physics is bonded together by fiber, therefore leftover pieces become fiber recoverable after opener is processed; And the leftover pieces of in disorder accumulation are unfavorable for carrying out shredding processing in opener.Because the width of leftover pieces is generally in 20mm left and right, under traditional canoe, as shown in Figure 2, leftover pieces roughly become a round pie after being wound around, and the width of looping disk is larger than the width of leftover pieces; For saving resource, on a looping disk, be wound around leftover pieces as much as possible and seem particularly important.

Summary of the invention

The object of the present invention is to provide a kind of regenerative apparatus that the banded leftover pieces of nonwoven fabrics can be collected with winding method, to facilitate, in opener, carry out shredding processing, for solving the problem of nonwoven fabrics leftover pieces recycling inconvenience.

The present invention solves the technical scheme that its technical matters takes: nonwoven fabrics leftover pieces regenerative apparatus, comprise frame, looping disk, the first rotating shaft, the second rotating shaft and slide block, and it is characterized in that,

The first rotating shaft that be arranged in parallel and rotating and the second rotating shaft are installed in described frame, in described the first rotating shaft, fixedly mount a looping disk for rewinding, and by transmission device, the first rotating shaft, the second rotating shaft and power part are coupled together;

In described the second rotating shaft both sides, be provided with the guidepost being set parallel to each other, one slide block with cavity is nested with in guidepost and the second rotating shaft, one top relative with looping disk and be arranged on described slide block for dredging the track adjusting wheel of leftover pieces, a side at described slide block is fixed an adapter plate, on described adapter plate rotating installation one near and with the vertically disposed T shape of the second rotating shaft fork, one end of described fork is placed in cavity the movable motive bearing coordinating with described the second rotating shaft extruding of installing, the another two ends of described fork are connected with driving the driver train of its swing respectively,

In described frame, be provided with the travel switch of restriction slide block Derivative limit on the left or on the right position.

Further, described driver train is electromagnetism adhesive mechanism, comprise the electromagnetic valve that is fixed on adapter plate and with the magnet of fork slip-knot, the setting that keeps at a certain distance away of described electromagnetic valve and magnet, described electromagnetic valve is electrically connected to described travel switch.

Further, in the side of described looping disk, be provided with at least one for carrying out groove or the projection of quick locking with external locking part.

Further, described transmission device is chain transmission or band transmission.

Further, described motive bearing is flexibly connected with fork by an installation shaft, and between described installation shaft and fork, is provided with the elastic element of motive bearing and the second rotating shaft force fit.

Further, described power part is adjustable speed air motor or adjustable speed motor.

Further, the fixed form of described looping disk in the first rotating shaft is: in described the first rotating shaft, be nested with a pair of circular orientation piece, described circular orientation piece is connected by jackscrew locking mechanism and the first rotating shaft, and on described locating piece, is provided with supplementary projection or the auxiliary flute matching with described looping disk upper groove or projection.

For reducing the wearing and tearing to motive bearing, on the internal cavities wall of described slide block, be fixed with two blocks that be arranged in parallel, and two blocks are processed through polishing.

For cost-saving, described slide block is ironcasting.

Further, described fork is arranged on adapter plate by axle sleeve.

The invention has the beneficial effects as follows: the present invention rotatablely moves for the nonwoven fabrics leftover pieces of reeling by motor or air motor output, has saved manpower, has improved work efficiency; The form with spiral is wound on looping disk by nonwoven fabrics leftover pieces by one, to do the slide block of linear reciprocating motion, and a looping disk can be reeled and be reclaimed more leftover pieces, takes full advantage of resource; By the linear reciprocating motion of travel switch and solenoid control slide block, and crank motion is stable, reliable, and the output speed of adjustable power parts is to adapt to the rotating speed of cutting machine, has improved the degree of automation of equipment.

Accompanying drawing explanation

Fig. 1 collects leftover pieces schematic diagram with blowing engine;

Fig. 2 is leftover pieces and looping disk schematic diagram under traditional canoe;

Fig. 3 is graphics of the present invention;

Fig. 4 is the front elevation of Fig. 3;

Fig. 5 is the birds-eye view of Fig. 3;

Fig. 6 is the location diagram of the first rotating shaft, locating piece and looping disk;

Fig. 7 is A place partial enlarged drawing in Fig. 6;

Fig. 8 is that slide block coordinates schematic diagram with guidepost, the second rotating shaft;

Fig. 9 is transversing mechanism graphics;

Figure 10 is fork and the second rotating shaft position graph of a relation of transversing mechanism while moving to the right;

Figure 11 is fork and the second rotating shaft position graph of a relation of transversing mechanism while moving to the left;

Figure 12 is fork graphics;

Figure 13 is the birds-eye view of Figure 12;

Figure 14 is fork and motive bearing scheme of installation;

In figure: 1 frame, 11 flat boards, 21 bearing seats, 22 bearings, 30 air motors, 31 first sprocket wheels, 32 second sprocket wheels, 33 the 3rd sprocket wheels, 34 the 4th sprocket wheels, 35 first rotating shafts, 36 second rotating shafts, 37 speed regulation devices, 38 knobs, 41 looping disks, 42 locating pieces, 43 projections, 44 grooves, 5 stay bearing plates, 51 starting staves, 52 second risers, 53 the 3rd risers, 6 guideposts, 7 slide blocks, 71 straight-bars, 72 track adjusting wheels, 73 cavitys, 74 blocks, 81 first travel switches, 82 second travel switches, 83 wires, 84 controllers, 841 first electromagnetic valves, 842 second electromagnetic valves, 843 adapter plates, 851 first bars, 852 second bars, 853 montants, 854 magnet, 855 rectangular channels, 856 circular grooves, 86 motive bearings, 861 installation shaft, 87 axle sleeves, 88 springs, 89 long slot bores, 91 leftover pieces, 92 blowing engines, 93 cloth bags.

The specific embodiment

As shown in Fig. 3 to Figure 14, the present invention includes frame 1, air motor 30, sprocket wheel, speed regulation device 37, looping disk 41, guidepost 6, slide block 7, track adjusting wheel 72, travel switch and controller 84.Below in conjunction with accompanying drawing, describe the present invention.

As shown in Figure 3, frame 1, for supporting miscellaneous part, can be welded by some square steel; At the top of frame 1 one sides, fix a rectangular flat 11, in one end of dull and stereotyped 11, be provided with the pair of bearing 21 being oppositely arranged, in bearing seat 21, be provided with bearing 22; In bearing 22, coordinate the first rotating shaft 35 is installed, in the first rotating shaft 35 of diaxon bearing 21 homonymies, be equipped with two locating pieces 42, the derby that locating piece 42 is annular arrangement, at locating piece 42, be radially provided with tapped bore, one jackscrew is arranged in tapped bore for locating piece 42 is fixedly connected with the first rotating shaft 35, and locating piece 42 and the first rotating shaft 35 are synchronously rotated.In the first rotating shaft 35 between two locating pieces 42, be equipped with looping disk 41, looping disk 41 comprises an axis and is fixed on the block plate in axis both ends of the surface, and block plate radial dimension, much larger than the radial dimension of axis, surrounds the space of coiling leftover pieces between block plate and axis; And on looping disk 41, be provided with the through hole coordinating with the first rotating shaft 35; Due to nonwoven fabrics light weight, therefore not high to the requirement of strength of looping disk 41, looping disk 41 adopts the mode of injection moulding to obtain.Two locating pieces 42 are fixedly clamped looping disk 41 in the first rotating shaft 35, for guaranteeing looping disk 41, synchronize rotation with the first rotating shaft 35, as shown in Figure 6, Figure 7, on the end face of looping disk 41 1 sides, be provided with the groove 44 of a bias, and on the locating piece 42 of these groove 44 place sides, be provided with a projection 43 coordinating with groove 44.Because locating piece 42 is fixed in the first rotating shaft 35 by jackscrew, therefore locating piece 42 can synchronously rotate with the first rotating shaft 35; The projection 43 arranging on locating piece 42 coordinates with the groove 44 on looping disk 41, therefore locating piece 42 can be stirred looping disk 41, synchronously rotates.

When looping disk 41 is installed, first the superolateral locating piece 42 of the first rotating shaft 35 is taken off, looping disk 41 is nested with in the first rotating shaft 35, the locating piece unloading 42 is reinstalled in the first rotating shaft 35, and guaranteeing that projection 43 is inserted in groove 44, the jackscrew on locking positioning piece 42 is fixedly clamped looping disk.

Middle part dull and stereotyped 11 has been bolted an air motor 30, the first sprocket wheel 31 is installed on the horizontally disposed output shaft of air motor 30, in the first rotating shaft 35 between diaxon bearing 21, be separately installed with the second sprocket wheel 32 and the 3rd sprocket wheel 33, wherein effect and both are connected by chain in pairs for the second sprocket wheel 32 and the first sprocket wheel 31.At dull and stereotyped 11 other ends, be provided with stay bearing plate 5, the E font metal sheet of stay bearing plate 5 for lying low.Stay bearing plate 5 comprises the riser of three vertical and parallel placements, be respectively starting stave 51, the second riser 52 and the 3rd riser 53, on three risers, be respectively equipped with a shaft hole, three shaft holes arrange with one heart, and this shaft hole installs for coordinating the second rotating shaft 36 be arrangeding in parallel with the first rotating shaft 35.In the second rotating shaft 36 between starting stave 51 and the second riser 52, be provided with the 4th sprocket wheel 34 with the 3rd sprocket wheel 33 mating reactions, and both connect by chain.Above-mentioned first, second, third, fourth sprocket wheel and chain have formed transmission device, air motor 30 will rotatablely move and pass to the first sprocket wheel 31 as power part, through the first sprocket wheel 31 and the second sprocket wheel 32, carry out primary speed-down, the second sprocket wheel 32 of coaxial arrangement is identical with the 3rd sprocket wheel 33 rotating speeds, through the 3rd sprocket wheel 33 and the 4th sprocket wheel 34, carry out double reduction, will rotatablely move and pass to the second rotating shaft 36.The chain transmission that replaces sprocket wheel and chain to form with transmission that also can form with belt and belt pulley, can realize the transmission of power equally.For ease of regulating the output speed of air motor 30, in the frame 1 below air motor 30, be provided with speed regulation device 37, by rotation speed governing knob 38, regulate the suction quantity of air motor 30 to realize speed and regulate, this mode of speed control is prior art, repeats no more.Also can adopt adjustable speed motor to replace air motor 30 as power part, can realize the output rotatablely moving equally.

On second, third riser, be respectively equipped with two guidepost holes, two guidepost holes on each riser arrange one on the other, and two guidepost holes and shaft hole surround a triangle, guidepost hole on two risers is oppositely arranged, in two groups of guidepost holes, be installed with respectively the guidepost 6 that is parallel to the second rotating shaft 36, on the second rotating shaft 36 and two guideposts 6, be sliding combined with slide block 7, at the top of slide block 7, be provided with an otic placode, on otic placode, be bolted a straight-bar 71 being obliquely installed with horizontal surface, and straight-bar 71 and the vertical setting of the second rotating shaft 36, the non-installation end of straight-bar 71 is towards a side at looping disk 41 places, the rotating track adjusting wheel 72 that is provided with of non-installation end at straight-bar 71, track adjusting wheel 72 is Plastic Parts, and in track adjusting wheel 72, be provided with the groove of an annular, this groove is used for dredging banded leftover pieces.Straight-bar 71 is an auxiliary member, and for track adjusting wheel 72 and slide block 7 are linked together, its version, mounting means are not limited only to foregoing description.

Air motor 30 will rotatablely move and pass to the second rotating shaft 36 by transmission device, and the transversing mechanism that comprises controller 84 and slide block 7 is axially done linear reciprocating motion along guidepost 6; The looping disk 41 being fixed in the first rotating shaft 35 rotates, the track adjusting wheel 72 being fixed on slide block 7 rotates on the one hand under the friction force of leftover pieces, on the other hand along guidepost 6 axial reciprocating straight-line motions, and the first rotating shaft 35 and the second rotating shaft 36 be arranged in parallel, therefore banded leftover pieces are wound on looping disk 41 with the form of spiral.Below in conjunction with accompanying drawing, transversing mechanism and linear reciprocating motion process thereof are described in detail.

As shown in Figure 8, slide block 7 is the inner derby that is provided with cavity 73, and slide block 7 is bearing load not, therefore not high to the requirement of strength of slide block 7, can adopt cast iron quality to make.Slide block 7 is put on the second rotating shaft 36 and guidepost 6 by a shaft hole and two guidepost borehole jacks, and is provided with pair of bearings in the second rotating shaft 36 and shaft hole cooperation place, and the second rotating shaft 36 and guidepost 6 are all through the internal cavities 73 of slide block 7; On cavity 73 walls of slide block 7 inside, be fixed with two blocks that be arranged in parallel 74, block 74 is the derby of the annular arrangement through polishing processing, and block 74 and the coaxial setting of the second rotating shaft 36.

As shown in Figure 9, be fixed with controller 84 on the side end face of slide block 7, controller 84 comprises the first electromagnetic valve 841, the second electromagnetic valve 842, adapter plate 843 and shell; Adapter plate 843 is for being provided with the rectangular metal plate of through hole, at four edges of adapter plate, is provided with tapped bore, and controller 84 is by the tapped bore on adapter plate 843 and be bolted on slide block 7; Axle sleeve 87 is installed in the through hole on adapter plate 843, a T shape fork is installed in axle sleeve 87; As shown in Figure 12 and Figure 13, fork comprises vertically disposed the first bar 851 and the second bar 852, and by bolt, the first bar 851 and the second bar 852 is fixedly connected into as a whole; For ease of installing and manufacturing, the first bar 851 is an axle, and the second bar 852 is a rectangle rod member.As shown in figure 14, at the non-installation end of the first bar 851, be provided with rectangular channel 855, make the non-installation end of the first bar 851 become a U-shaped structure; And be provided with a pair of long slot bore 89 on the first bar 521 of this U-shaped structure, and in this long slot bore 89, coordinate an installation shaft 861 is installed, a motive bearing 86 is installed in installation shaft 861; On the end face of the first bar 851 non-installation ends, be provided with a circular groove 856, in the bottom of circular groove 856, fix two symmetrically arranged springs 88, and this spring 88 is pressured state, the non-installation end of spring 88 withstands in installation shaft 861 to guarantee motive bearing 86 and the second rotating shaft 36 force fit; The name of this motive bearing 86 is in order to distinguish with aforementioned each bearing, and difference is only that this motive bearing 86 is different from aforementioned bearings effect, but essence is identical, can be cylindrical roller bearing, deep groove ball bearing etc.As shown in Figure 9, Figure 10, after adapter plate 843 is fixed on slide block 7, this motive bearing 86 is just in time pressed in the second rotating shaft 36 under spring 88 effects, and can realize tilting of relative the second rotating shaft 36 of motive bearing 86 by controlling the rotation of fork; Owing to there being extruding between motive bearing 86 and the second rotating shaft 36, the rotation of the second rotating shaft 36 just drives the rotation of motive bearing 86, when relative the second rotating shaft 36 of motive bearing 86 is tilted to the right, under the effect of axial force, motive bearing 86 just axially moves to the right along the second rotating shaft 36, the simultaneously right side, outer ring of motive bearing 86 extruding block 74, and then promote whole slide block 7 and move to the right; When relative the second rotating shaft 36 of motive bearing 86 is tilted to the left, under the effect of axial force, motive bearing 86 just axially moves to the left along the second rotating shaft 36, left side, the outer ring of motive bearing 86 extruding block 74 simultaneously, and then promote whole slide block 7 and move to the left.

For ease of the rotation of controlling fork to realize motive bearing 86 with respect to the tilting of the second rotating shaft 36, a hinged montant 853 respectively at the two ends of the second bar 852, the bottom fixed magnet 854 of montant 853; First bar 851 of take is fulcrum, and the first bar 851 and the second bar 852 form a lever-type structure; In the bottom of adapter plate 843 sides, be fixed with two L shaped metal sheets, on two L shaped metal sheets, be separately installed with electromagnetic valve, the right setting of two electromagnetic valve one the first from left, is respectively the first electromagnetic valve 841 and the second electromagnetic valve 842, and two electromagnetic valves be positioned at two magnet under; During in two electromagnetic valves one energising, this electromagnetic valve work also holds the magnet of this electromagnetic valve top, orders about fork and rotates to a side at this electromagnetic valve place, and then realize tilting of motive bearing 86.For preventing the interference of foreign object to electromagnetic valve and magnet, on adapter plate, be bolted shell, can also play the effect of dustproof and waterproof simultaneously.

For ease of controlling the "on" position of first, second electromagnetic valve, at the 3rd riser 53 and the second riser 52 places, be respectively equipped with the first travel switch 81 and the second travel switch 82, two travel switch one the first from left right sides are arranged on the both sides of controller 84, and first, second travel switch is electrically connected to first, second electromagnetic valve respectively by wire 83.When slide block 7 axially moves until controller 84 shells while touching the first travel switch 81 to the left along guidepost 6, the first travel switch 81 actions, and make the first electromagnetic valve 841 power-off, the second electromagnetic valve 842 energisings, under the second electromagnetic valve 842 is inhaled the magnet of respective side 854, now fork clockwise rotates, and as shown in figure 10, drives motive bearing 86 to tilt to the right; Under the squeezing action with the second rotating shaft 36, motive bearing 86 rotates with the rotation of the second rotating shaft 36, and motive bearing 86 axially moves to the right along the second rotating shaft 36 simultaneously, and then promotion slide block 7 slides to the right; When slide block 7 axially moves until controller 84 shells while touching the second travel switch 82 to the right along the second rotating shaft 36, the second travel switch 82 actions, and make the second electromagnetic valve 842 power-off, the first electromagnetic valve 841 energisings, under the first electromagnetic valve 841 is inhaled the magnet of respective side 854, now fork rotates counterclockwise, as shown in figure 11, drive motive bearing 86 to tilt to the left, and along the second rotating shaft 36, do linear reciprocating motion as a crank motion circulation.

Claims (10)

1. nonwoven fabrics leftover pieces regenerative apparatus, comprises frame, looping disk, the first rotating shaft, the second rotating shaft and slide block, it is characterized in that,

The first rotating shaft that be arranged in parallel and rotating and the second rotating shaft are installed in described frame, in described the first rotating shaft, fixedly mount a looping disk for rewinding, and by transmission device, the first rotating shaft, the second rotating shaft and power part are coupled together;

In described the second rotating shaft both sides, be provided with the guidepost being set parallel to each other, one slide block with cavity is nested with in guidepost and the second rotating shaft, one top relative with looping disk and be arranged on described slide block for dredging the track adjusting wheel of leftover pieces, a side at described slide block is fixed an adapter plate, on described adapter plate rotating installation one near and with the vertically disposed T shape of the second rotating shaft fork, one end of described fork is placed in cavity the movable motive bearing coordinating with described the second rotating shaft extruding of installing, the another two ends of described fork are connected with driving the driver train of its swing respectively,

In described frame, be provided with the travel switch of restriction slide block Derivative limit on the left or on the right position.

2. nonwoven fabrics leftover pieces regenerative apparatus according to claim 1, it is characterized in that, described driver train is electromagnetism adhesive mechanism, comprise the electromagnetic valve that is fixed on adapter plate and with the magnet of fork slip-knot, the setting that keeps at a certain distance away of described electromagnetic valve and magnet, described electromagnetic valve is electrically connected to described travel switch.

3. nonwoven fabrics leftover pieces regenerative apparatus according to claim 1, is characterized in that, is provided with at least one for carrying out groove or the projection of quick locking with external locking part in the side of described looping disk.

4. nonwoven fabrics leftover pieces regenerative apparatus according to claim 1, is characterized in that, described transmission device is chain transmission or band transmission.

5. nonwoven fabrics leftover pieces regenerative apparatus according to claim 1, is characterized in that, described motive bearing is flexibly connected with fork by an installation shaft, and between described installation shaft and fork, is provided with the elastic element of motive bearing and the second rotating shaft force fit.

6. nonwoven fabrics leftover pieces regenerative apparatus according to claim 1, is characterized in that, described power part is adjustable speed air motor or adjustable speed motor.

7. nonwoven fabrics leftover pieces regenerative apparatus according to claim 3, it is characterized in that, the fixed form of described looping disk in the first rotating shaft is: in described the first rotating shaft, be nested with a pair of circular orientation piece, described circular orientation piece is connected by jackscrew locking mechanism and the first rotating shaft, and on described locating piece, is provided with supplementary projection or the auxiliary flute matching with described looping disk upper groove or projection.

8. nonwoven fabrics leftover pieces regenerative apparatus according to claim 1, is characterized in that, is fixed with two blocks that be arranged in parallel on the internal cavities wall of described slide block, and two blocks are processed through polishing.

9. nonwoven fabrics leftover pieces regenerative apparatus according to claim 1, is characterized in that, described slide block is ironcasting.

10. nonwoven fabrics leftover pieces regenerative apparatus according to claim 1, is characterized in that, described fork is arranged on adapter plate by axle sleeve.

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