CN205835916U - A kind of feeding system of waste plastics recycling device - Google Patents

Abstract

The utility model discloses the feeding system of a kind of waste plastics recycling device, feed mechanism, including a conveyer frames being obliquely installed, conveyer frames includes feeding funnel and connects into the chute feeder of hopper, the two ends of conveyer frames are provided with the feeding belt in circulating rolling, the end of chute feeder is positioned at the top of extruder feeding mouth, is arranged at intervals with the shovel material structure being perpendicular to outer ring surface on the outer ring surface of feeding belt；Compulsory blanking machine structure, including crossbearer crossbeam at the pan feeding quarrel end of extruder, the first motor it is vertically arranged with on crossbeam, the rotating shaft of this first motor is fixed with screw extrusion dish after crossbeam, on the one hand the waste plastics basis of the material bin that overfills can be shoveled out by shovel material structure, on the other hand can improve waste plastics by compulsory blanking machine structure and enter into the speed of extruder screw part, thus reduce the probability of waste plastics blocking extruder feeding mouth.

Description

A kind of feeding system of waste plastics recycling device

Technical field

This utility model relates to plastic reclaimed equipment, more specifically, it relates to a kind of waste plastics recycling device is upper Material system.

Background technology

The main frame of plastic granulator is extruding machine, and it is made up of with drive system and heating, cooling system extrusion system.Suitable For major part common technics of reclaim of plastic waste recycling, it is that waste or used plastics industrial applications again is the widest, uses the most extensive, benefit from most The plastic reclaimed processing equipment that family is welcome.

Extrusion system be waste plastics is put in extruder melt, the then machine of extrusion plastic bar, wherein can be equipped with The feeding transmission system that extruder coordinates, feeding transmission system, for waste plastics transmission enters the feeding mouth of extruder, is then entered The waste plastics entered to feeding mouth is extruded the extruding screw transmission of machine again and enters inside extruder.

For transmitting the useless feed system moulded, generally include cradle, material bin and chute feeder, material bin and chute feeder and set It is equipped with the supporting surface being wholely set, is provided with the feeding belt that cincture supporting surface is circulating rolling at the two ends of supporting surface, by sending Waste plastics is sent in the feeding mouth of extruder by material strip, thus the outer ring surface of feeding belt is for feeding, and inner ring surface should be protected Hold clean.But in display produces, the inner ring surface of feeding belt is very easy to be stained with waste plastics and causes the rolling at feeding belt to pass Stuck phenomenon is there is during sending.

Utility model content

According to above-mentioned shortcoming and defect, the purpose of this utility model is to provide a kind of inner ring surface enabling to feeding belt Keep the feeding system of clean waste plastics recycling device.

Above-mentioned technical purpose of the present utility model has the technical scheme that a kind of waste plastics recycling The feeding system of device, including feed mechanism and compulsory blanking machine structure,

Feed mechanism, including a conveyer frames being obliquely installed, described conveyer frames includes feeding funnel and connects into sending of hopper Hopper, is provided with the feeding belt in circulating rolling in the two ends of conveyer frames, and the end of described chute feeder is positioned at extruder feeding mouth Top, the outer ring surface of feeding belt is arranged at intervals with the shovel material structure being perpendicular to outer ring surface；

Compulsory blanking machine structure, including crossbearer crossbeam at the pan feeding quarrel end of extruder, described crossbeam is vertically arranged Having the first motor, the rotating shaft of this first motor is fixed with screw extrusion dish after crossbeam.

By such scheme, waste plastics will carry out transmission from feeding funnel position by feeding belt, and then waste plastics is along with sending Material strip enters in chute feeder and the most up transmits, until transporting and fall in extruder material bin from the port of chute feeder, is passing Owing to being perpendicular to the setting of the Chan Liao mechanism on feeding belt surface during sending, thus in feeding belt feeding process, shovel material structure Can preferably waste plastics be taken on feeding belt, improve the feeding efficiency of feeding belt, on the other hand, once work as waste plastics Overfilling when maybe will overfill on extruder material bin, feeding belt is in the shovel material structure of chute feeder port position due in feeding In the rolling process of band, it is possible to waste plastics unnecessary for extruder feeding mouth is scraped, reduce waste plastics blocking extruder pan feeding The problem of mouth occurs；After waste plastics enters into material bin, it will the screw rod being extruded machine melts with transmission, and by arranging Compulsory blanking machine structure above material bin, then the waste plastics entering into material bin can make spiral squeeze by the rotation of motor Platen is constantly pressed down against waste plastics and enters into the screw portion of extruder, and need not only lean on the weight of waste plastics own to enter To the screw drive part of extruder, accelerate the speed that waste plastics is melted by screw conveyer, reduce waste plastics blocking further and squeeze The risk of press feeding mouth.

It is optimized for further: described shovel material structure includes the shovel flitch being vertically fixed on feeding belt, described shovel flitch edge The width of feeding belt is arranged.

By such scheme, shovel material structure is arranged perpendicular to the shovel flitch of feeding belt, and the setting direction of shovel flitch For the width of feeding belt, the setting direction of shovel flitch is vertical with the direction of motion of feeding belt, it is possible to play maximized shovel Material effect.

It is optimized for further: described shovel material structure also includes the brush material bar being arranged on shovel flitch, and described brush material bar is vertical In feeding belt surface and be arranged at intervals at shovel flitch deviate from feeding belt on one side on.

By such scheme, by the setting of brush material bar, during shovel flitch realizes shovel material, moreover it is possible to play and mould useless The carding effect of material so that waste plastics becomes more to loosen so that also being able to when follow-up waste plastics enters extruder feeding mouth It is in rarefaction, reduces the probability of waste plastics blocking extruder.

It is optimized for further: the bottom of described chute feeder is provided with a feed chute parallel with chute feeder, described feeding belt It is arranged in feed chute.

By such scheme, by the setting of feed chute, when the waste plastics that shovel flitch is unnecessary by being in extruder feeding mouth The when of scraping, the waste plastics hung can enter directly in feed chute, and along feed chute, under the effect of feeding belt Drop back into the ground near material bin, facilitate operator to be placed again in feeding mouth by waste plastics.

It is optimized for further: described screw extrusion dish overall profile is tapered, and the big of screw extrusion dish is held and motor Rotating shaft is fixed.

By such scheme, screw extrusion dish is shaped to taper, and the big rotating shaft held with motor is fixed, thus Extruding waste plastics when, the most more there is compression propulsive force, further improve waste plastics and enter extruder The ability of screw portion.

It is optimized for further: described first motor in crossbeam, described crossbeam is provided with at least two at vertical floating connection The individual angle steel being positioned at the first motor radially both sides, described angle steel is perpendicular to crossbeam and sets up, on the first motor housing respectively It is provided with the limited block being in each angle steel, is wholely set gear plate, gear plate and limited block at the top of each angle steel Between be provided with elastic component.

By such scheme, during screw extrusion dish extruding waste plastics, waste plastics also can be to screw extrusion dish one Individual opposition, and by vertical floating connection motor on crossbeam, then drive the extruding of screw extrusion dish useless at motor During plastics, it is possible to be reversed upwards jack-up, when the moment waste plastics after jack-up enters into the screw rod position of extruder, Can produce certain space between screw extrusion tray bottom and waste plastics, then motor will fall back on crossbeam again, presents Go out motor and persistently shake the effect of material bin, be better able to reduce the probability of waste plastics blocking extruder feeding mouth；Pass through angle steel With the limited block being arranged in angle steel, it is achieved that limiting motor, in the rotary freedom purpose of circumference, prevents motor from floating The rotation of circumference in journey, and it is arranged on the gear plate at angle steel top, and the elastic component being arranged between gear plate and limited block, then Achieve and increase motor by active force between screw extrusion dish and waste plastics during jack-up, thus improve the extruding of screw extrusion dish Waste plastics enters the active force at extruder screw position, improves waste plastics and enters the speed at extruder screw position；And motor quilt After jack-up, elastic component will be compressed, and motor can quickly quickly be fallen back on crossbeam by the squeezing action of elastic component, increases Add motor and beat the dynamics of material bin, increase bucket material effect, also can reduce the general of waste plastics blocking extruder feeding mouth further Rate.

It is optimized for further: described crossbeam is set to two of interval parallel to each other, is fixed with method between two crossbeams Blue dish, described angle steel respectively arranges one in the radial direction two ends of ring flange, and ring flange be provided centrally with may pass through the first motor The spacing hole of rotating shaft, described first motor is vertically arranged on ring flange.

By such scheme, by ring flange, and it is arranged on the spacing hole at ring flange center, it is possible to realize motor and vertically put After putting on ring flange, rotating shaft can pass ring flange, and during motor is fallen by jack-up, beaing object is ring flange, The ring flange that structural mechanical property is high, is difficult to hit during being the beaing of motor and splits, improve the use longevity of compulsory blanking machine structure Life.

It is optimized for further: be provided with material toggling roller, and the rotation side of this material toggling roller in the junction of chute feeder Yu feeding funnel Contrary to the direction of transfer with feeding belt.

By such scheme, in the feeding process of feeding belt, waste plastics, will entering chute feeder from feeding funnel when Can be acted on by material toggling roller, if the excessive height that waste plastics is on feeding belt, then will be turned with feeding belt by material toggling roller The effect of dynamic power in opposite direction, blocks too high waste plastics and pulls back in feeding funnel, and will not be in feeding funnel and feeding The problem that waste plastics is stuck occurs between groove, and the amount hence into the waste plastics in chute feeder can be controlled, and then The amount of the waste plastics out entering into extruder feeding mouth from chute feeder also can be controlled, decrease extruder feeding mouth due to The generation of the stuck phenomenon that substantial amounts of waste plastics inputs and causes.

It is optimized for further: on described material toggling roller, be also arranged at intervals with the material toggling bar being tangential on material toggling roller roll surface.

By such scheme, when waste plastics blocked by material toggling roller cannot be introduced into chute feeder when, will by material toggling bar Can preferably reversely waste plastics be pulled back in feeding funnel, it is possible to preferably prevent waste plastics block chute feeder and feeding funnel it Between openning.

It is optimized for further: be provided with drive roll in chute feeder relative to the position, another port of feeding funnel, the port of feeding funnel Position is provided with driven voller, is provided with the first motor on chute feeder housing between drive roll and material toggling roller, this first electricity Machine simultaneously drives drive roll and material toggling roller rotates.

By such scheme, the driving motor being arranged between drive roll and material toggling roller simultaneously drive drive roll and material toggling Roller rotates, it is achieved thereby that rotate and turn to reverse effect while drive roll and material toggling roller, drive roll then can be with Feeding rotates together with driven voller, it is achieved that the direction of transfer of feeding belt and the rotating direction reverse effect of material toggling roller.

In sum, by arranging shovel material structure on the feeding belt of feed mechanism, and the port of chute feeder is in extrusion At machine feeding mouth, it is achieved thereby that when the waste plastics of extruder material bin overfills, shovel material structure can be by unnecessary waste plastics Scrape, enter in feed chute, turn again to the vicinity of feeding funnel, facilitate staff again to be put in feeding funnel by waste plastics Carry out again with, also reduce simultaneously extruder feeding mouth blockage problem occur；It is combined in the material bin position of extruder It is provided with compulsory blanking machine structure so that waste plastics enters the mode of extruder screw part, becomes by spiral shell from by waste plastics deadweight Rotation extruding disk forces extruding waste plastics to enter into extruder screw part, accelerates waste plastics and enters the speed of extruder screw, enters One step reduces the probability of waste plastics blocking extruder feeding mouth.

Accompanying drawing explanation

Fig. 1 is the overall schematic of the feeding system of embodiment waste plastics recycling device；

Fig. 2 is the overall schematic of embodiment feed mechanism；

Fig. 3 is the schematic internal view that Fig. 2 removes after conveyer frames；

Fig. 4 is the embodiment extruder overall schematic with compulsory blanking machine structure；

Fig. 5 is the decomposing schematic representation of embodiment compulsory blanking machine structure.

In figure, 11, feeding funnel；12, chute feeder；13, feed chute；131, engagement plate；2, extruder；21, material bin；3, send Material strip；31, shovel flitch；32, brush material bar；4, material toggling roller；41, material toggling bar；51, the first motor；52, the second motor；521, spacing Block；522, rotating shaft；61, drive roll；62, driven voller；7, crossbeam；71, ring flange；711, via；72, angle steel；721, gear plate； 8, screw extrusion dish；9, spring.

Detailed description of the invention

Below in conjunction with accompanying drawing, this utility model is described in further detail.

This specific embodiment is only that it is not to restriction of the present utility model, ability to explanation of the present utility model The present embodiment can be made after reading this specification by field technique personnel as required does not has the amendment of creative contribution, but As long as all being protected by Patent Law in right of the present utility model.

Embodiment

The feeding system of a kind of waste plastics recycling device, sees accompanying drawing 1, includes feed mechanism and is arranged on extruder The compulsory blanking machine structure of material bin 21 part of 2.

Feed mechanism therein sees accompanying drawing 2 and 3, and including cradle, cradle is integral inclined to be set up, near ground The feeding funnel that one end is mouth 11, feeding funnel 11 is also connected with chute feeder 12.Wherein mutual at feeding funnel 11 and chute feeder 12 Away from end be respectively arranged with driven voller 62 and drive roll 61, between driven voller 62 and drive roll 61, be provided with feeding belt 3, feeding belt 3 is in the drive underdrive feeding of drive roll 61.

Being provided with material toggling roller 4 between feeding funnel 11 and chute feeder 12, material toggling roller 4 therein is also arranged at intervals with and is tangential on The material toggling bar 41 of material toggling roller 4 roll surface.Being provided with the first motor 51 on the housing of chute feeder 12, the first motor 51 passes through belt pulley Or chain drive drive roll 61 and the rotation of material toggling roller 4, under the driving of the first motor 51, drive roll 61 and material toggling roller 4 will Realize synchronous axial system and turn to reverse effect.

Chute feeder 12 parallel beneath is provided with feed chute 13, and the Backhaul of feeding belt 3 is through feed chute 13 the most again It is turned back to feeding funnel 11 position and carries out feeding, and connect between the upper end open and the material bin 21 of extruder 2 of feed chute 13 Engagement plate 131 such that it is able to the waste plastics having more on material bin 21 is returned by the convenient shovel material structure made on feeding belt 3 Shovel in feed chute 13.

Shovel material structure therein is referring specifically to accompanying drawing 3, and on feeding belt 3, interval is provided with shovel material structure, shovel material structure bag Include the shovel flitch 31 being horizontally installed on feeding belt 3 width, and the head clearance shoveling flitch 31 has been provided with brush material Bar 32.

Compulsory blanking machine structure sees attached Figure 4 and 5, and this compulsory blanking machine structure is arranged on above the hopper of extruder 2, under It is provided with two crossbeams 7 parallel to each other on hopper, is fixed with a ring flange 71 between two crossbeams 7, in ring flange 71 Between there is a via 711, and be respectively arranged with, in the radially opposite sides of ring flange 71, the angle steel 72 being fixed on crossbeam 7；Its The second motor 52 in middle compulsory blanking machine structure is vertically placed on ring flange 71 so that rotating shaft 522 is through being arranged on ring flange Via 711 on 71, and in the end of rotating shaft 522, screw extrusion dish 8 is installed；It is provided with two on the shell of the second motor 52 Individual limited block 521, limited block 521 is the most spacing in angle steel 72, and at limited block 521 and the gear plate at angle steel 72 top It is provided with spring 9 between 721, by spring 9, second motor 52 is vertically pressed on ring flange 71, and by limited block 521 He The cooperation of angle steel 72 will limit the rotary freedom of the second motor 52.

The when of specific works, waste plastics is put in feeding funnel 11, and waste plastics will be by the incoming chute feeder of feeding belt 3 12 In, then fall to the material bin 21 of extruder 2 from the outlet of chute feeder 12, falling to the waste plastics in material bin 21 will be by squeezing The screw conveyer going out machine 2 melts extrusion plastic bar, and in this process, the waste plastics input speed of material bin 21 usually can be more than The transfer rate of extruder 2 screw rod, now, waste plastics will overfill material bin 21 gradually, during overfilling, is arranged on and send Shovel material structure on material strip 3, will be able to pull back in feed chute 13 the waste plastics in material bin 21 so that unnecessary waste plastics Return on the ground near feeding funnel 11 along feed chute 13, facilitate workman again to be put in feeding funnel 11 by waste plastics；Useless Plastics are entering chute feeder 12 from feeding funnel 11 when, it will by the effect of material toggling roller 4, if waste plastics is at feeding belt 3 On excessive height, then will acting on, by too high waste plastics by material toggling roller 4 power contrary with feeding belt 3 rotation direction Block and pull back in feeding funnel 11, and the stuck problem of waste plastics will not occur between feeding funnel 11 and chute feeder 12, from And the amount entering into the waste plastics in chute feeder 12 can be controlled, and then out enter into extruder 2 from chute feeder 12 The amount of the waste plastics of feeding mouth also can be controlled, and decreases extruder 2 feeding mouth and causes due to the input of substantial amounts of waste plastics The generation of stuck phenomenon, and by the setting of material toggling bar 41, preferably reversely waste plastics can be pulled back to feeding funnel 11 In, it is possible to preferably prevent waste plastics from blocking the openning between chute feeder 12 and feeding funnel 11.

While waste plastics enters into extruder 2 material bin 21, synchronization is also operated by compulsory blanking machine structure, passes through The rotation of the second motor 52 makes screw extrusion dish 8 constantly be pressed down against waste plastics and enters into the screw portion of extruder 2, accelerates Waste plastics enters into the speed of extruder 2 feeding mouth, and during screw extrusion dish 8 extrudes waste plastics, waste plastics also can be given 8 one oppositions of screw extrusion dish, now the second motor 52 will be reversed jack-up, and spring 9 compresses, the moment after jack-up When waste plastics enters into the screw rod position of extruder, certain space can be produced bottom screw extrusion dish 8 and between waste plastics, connect The second motor 52 quickly to be fallen after rise by the pressure of spring 9 and the action of gravity of self, and hit in ring flange 71 generation Hit, play the effect of vibrations material bin 21, further speed up waste plastics and enter the speed of extruder 2 feeding mouth, reduce useless moulding The probability of material blocking extruder 2 feeding mouth.

Claims (10)

1. the feeding system of a waste plastics recycling device, it is characterised in that include feed mechanism and compulsory blanking machine structure,

Feed mechanism, including a conveyer frames being obliquely installed, described conveyer frames includes feeding funnel (11) and connects into hopper (21) Chute feeder (12), be provided with the feeding belt (3) in circulating rolling, the position, end of described chute feeder (12) in the two ends of conveyer frames In the top of extruder (2) feeding mouth, the outer ring surface of feeding belt (3) is arranged at intervals with the shovel material knot being perpendicular to outer ring surface Structure；

Compulsory blanking machine structure, including crossbearer crossbeam (7) at material bin (21) the mouth end of extruder (2), on described crossbeam (7) Being vertically arranged with the first motor (51), the rotating shaft (522) of this first motor (51) is fixed with screw extrusion after crossbeam (7) Dish (8).

The feeding system of a kind of waste plastics recycling device the most according to claim 1, it is characterised in that described shovel material is tied Structure includes the shovel flitch (31) being vertically fixed on feeding belt (3) surface, and described shovel flitch (31) is along the width of feeding belt (3) Arrange.

The feeding system of a kind of waste plastics recycling device the most according to claim 2, it is characterised in that described shovel material is tied Structure also includes being arranged on the brush material bar (32) on shovel flitch (31), described brush material bar (32) be perpendicular to feeding belt (3) surface and Deviate from feeding belt (3) one side every being arranged at shovel flitch (31).

The feeding system of a kind of waste plastics recycling device the most according to claim 3, it is characterised in that described chute feeder (12) bottom is provided with a feed chute (13) parallel with chute feeder (12), and described feeding belt (3) is arranged in feed chute (13) In.

The feeding system of a kind of waste plastics recycling device the most according to claim 1, it is characterised in that described spiral squeezes Platen (8) overall profile is tapered, and the big end of screw extrusion dish (8) is fixing with the rotating shaft (522) of motor.

The feeding system of a kind of waste plastics recycling device the most according to claim 5, it is characterised in that described first electricity Machine (51) is provided with at least two on crossbeam (7), described crossbeam (7) at vertical floating connection and is positioned at the first motor (51) radially The angle steel (72) on both sides, described angle steel (72) is perpendicular to crossbeam (7) and sets up, is respectively provided with on the first motor (51) shell There is the limited block (521) being in each angle steel (72), be wholely set gear plate (721) at the top of each angle steel (72), It is provided with elastic component between gear plate (721) and limited block (521).

The feeding system of a kind of waste plastics recycling device the most according to claim 6, it is characterised in that described crossbeam (7) be set to two of interval parallel to each other, between two crossbeams (7), be fixed with ring flange (71), described angle steel (72) in The radial direction two ends of ring flange (71) respectively arrange one, and ring flange (71) be provided centrally with may pass through the first motor (51) rotating shaft (522) spacing hole, described first motor (51) is vertically arranged on ring flange (71).

8. according to the feeding system of a kind of waste plastics recycling device described in any one of claim 1-7, it is characterised in that The junction of chute feeder (12) and feeding funnel (11) is provided with material toggling roller (4), and the rotation direction of this material toggling roller (4) and feeding belt (3) direction of transfer is contrary.

The feeding system of a kind of waste plastics recycling device the most according to claim 8, it is characterised in that described material toggling roller (4) the material toggling bar (41) being tangential on material toggling roller (4) roll surface also it is arranged at intervals with on.

The feeding system of a kind of waste plastics recycling device the most according to claim 9, it is characterised in that in chute feeder (12) position, another port of relative feeding funnel (11) is provided with drive roll (61), and the port position of feeding funnel (11) is provided with driven Roller (62), is positioned on the housing between drive roll (61) and material toggling roller (4) in chute feeder (12) and is provided with the first motor (51), should First motor (51) simultaneously drives drive roll (61) and material toggling roller (4) rotates.