CN204172327U - For the bosh of extruder production system - Google Patents

Abstract

The utility model belongs to plastic extrusion production technical field, is specifically related to a kind of bosh for extruder production system.Described bosh sidewall is along its length provided with graduation mark, and described graduation mark is uniform and be arranged in order along the length direction of bosh sidewall; The upside of described bosh cell body is provided with multiple guide roller mechanism, and this multiple guide roller mechanism sets gradually along the length direction of bosh, is provided with deflector roll in any one guide roller mechanism, and described deflector roll is provided with the guide groove for directing material transmission.This bosh can determine the immersion length of the bands of different plastic product in bosh more accurately, and structure is simple and be easy to realize.

Description

For the bosh of extruder production system

Technical field

The utility model belongs to plastic extrusion production technical field, is specifically related to a kind of bosh for extruder production system.

Background technology

In plastic extrusion is produced, material is first extruded through screw extruder and is obtained wire melt and bands, and bands obtains the particle of comminution again after pelleter processing.As shown in Figure 4; extrude by screw extruder the bands A obtained in prior art to need to be introduced into bosh 40 and cool; then bands A carries away the water surface through the angle bar 41 be shelved on the upside of bosh 40 again, and under the support of the many angle bar be arranged side by side 41, be transferred to hair dryer and pelleter place.

For the bands A of different plastic product, its immersion length (yet namely cooling length) in bosh is all not identical, and the immersion length of the bands of identical product under different output is not identical yet.Field worker moves the position of angle bar 41 according to the actual conditions of different product and different output when operating, thus change the immersion length of bands A in bosh, but this adjustment and move and have larger randomness, and the degree of accuracy is poor, therefore urgently improves.

Summary of the invention

The purpose of this utility model is to provide a kind of bosh for extruder production system, and this bosh can determine the immersion length of the bands of different plastic product in bosh more accurately, and structure is simple and be easy to realize.

For achieving the above object, the utility model have employed following technical scheme:

For a bosh for extruder production system, described bosh sidewall is along its length provided with graduation mark, and described graduation mark is uniform and be arranged in order along the length direction of bosh sidewall;

The upside of described bosh cell body is provided with multiple guide roller mechanism, and this multiple guide roller mechanism sets gradually along the length direction of bosh, is provided with deflector roll in any one guide roller mechanism, and described deflector roll is provided with the guide groove for directing material transmission.

The utility model can also be able to further realization by following technical measures:

Preferably, the deflector roll in described guide roller mechanism comprises roll shaft and is arranged on the some dividing plates on roll shaft along the axial length direction of roll shaft, and described roll shaft is set to the length direction perpendicular to bosh, forms the guide groove of annular between adjacent separator; Spacing between adjacent separator is also channel widths is 2 ~ 3cm, and the radial spacing between the edge of dividing plate and the outer rim of roll shaft is also channel depths is 5 ~ 6cm.

Described graduation mark is adhesive on bosh sidewall by the abrasive paper being painted with scale lines and is formed.

Deflector roll in described guide roller mechanism is plastic material.

Described guide roller mechanism also comprises the bearing being arranged on roll shaft both sides, described bearing comprises base plate and is arranged on the supporting plate on the upside of base plate, described base plate is provided with positioning spiro pit, and described supporting plate and base plate are welded as a whole, and described roll shaft is installed in rotation on described supporting plate.

Described base plate and supporting plate are angle bar, and the size of base plate is comparatively large, and the size of supporting plate is less.

The beneficial effects of the utility model are:

1), in actual production process, because the immersion length of bands in bosh (yet namely cooling length) of different product is all not identical, and the immersion length of the bands of identical product under different output is not identical yet.After be provided with graduation mark on the sidewall of bosh, when extruder system produces a certain specific products under a certain output, guide roller mechanism can be fixed on graduation mark position corresponding when to have optimum performance parameters with this specific products produced by operating personnel, thus bands in bosh after supercooling, pass from cooling water at setting position (namely corresponding graduation mark position) and continue subsequent processing, thus ensure that bands obtains suitable and accurately cools, achieve the standardization of cooling processing, also ensure that the quality and performance of last gained granular material.

2), the utility model is provided with guide roller mechanism on bosh, and the deflector roll in guide roller mechanism is provided with guide groove, and described channel widths is 2 ~ 3cm, and channel depths is 5 ~ 6cm.In the utility model, the above-mentioned numerical value of guide groove is not optional, but according to the firm wire melt extruded from screw extruder also namely the characteristic of bands make can guarantee that many bands do not interfere with each other and continue the optimal selection of conveying.

Described bands has following two characteristics: one, just higher from the bands temperature that screw extruder is extruded, and therefore bands tool is now a bit sticky; Its two, bosh has suitable length, therefore single strip shape thing this cooling course of conveying in be easily distorted or dancing.Under above-mentioned two kinds of factor effects, when two or many adjacent strip ribbons with stickiness are parallel in the cooling space with equivalent length, very easily tangle and curl up phenomenon, therefore had a strong impact on the normal work of subsequent handling, and existing employing angle bar 41 as described in Figure 4 may not solve as guiding transfer unit and above-mentionedly tangles the problem of curling up.

Channel widths in the utility model and channel depths make adjacent strip ribbon have relatively large insulating space, this insulating space not only can prevent from tangling at course of conveying at a distance of nearer two or many bands curling up together effectively, ensure that the smooth delivery of power of many bands; And taken into account the follow-up work drying up operation, bands can not be made to produce because adjacent strip ribbon is excessive and need again by excessive distortion phenomenon that adjacent strip ribbon interval reduces drying up in operation at interval, bosh place.

3) deflector roll, in the utility model is arranged on bearing, and the sidewall of base plate in bearing and bosh is suitable, also namely bearing can slide along the length direction of bosh, and therefore in the utility model, the position of guide roller mechanism can adjust according to on-site actual situations and fix; The quantity of guide roller mechanism is also convenient to increase according to produced on-site situation or reduce.

4) deflector roll, in the utility model is plastic material, then when bands along deflector roll conveying move ahead and bands and deflector roll occur to rub time, bands can not be sticked and have iron filings, thus be conducive to minimizing impurity, the pure property of raising production.

5) base plate, in the utility model and supporting plate are all angle bar, thus the processing and fabricating of bearing will be comparatively easy, not need the independent manufacturing, improve production efficiency.

Accompanying drawing explanation

Fig. 1 is the structural representation of the extruder production system residing for the utility model.

Fig. 2 is the FB(flow block) of Fig. 1 discontinuous mixing control device.

Fig. 3 is the structural representation of full-automatic suction packing device in Fig. 1.

Fig. 4 is the structural representation of bosh of the prior art.

Fig. 5 is the structural representation of guide roller mechanism.

Fig. 6 is deflector roll close-up schematic view in guide roller mechanism.

Fig. 7 is the structural representation of the bosh with graduation mark.

Fig. 8 is the structural representation that pelleter is connected with cooling hopper.

Fig. 9 is the structural representation of cooling hopper.

Figure 10 is the placement location schematic diagram of bar magnet.

The implication marked in figure is as follows:

10-homogenizer, 20-conveying bucket, 21-AC power, 22-normally closed switch

23-starting switch, 24-latching relay, 25-bis-setting-up time relay

26-starter, 27-stirring motor, 30-screw extruder, 40-bosh

41-angle bar, 42-guide roller mechanism, 421-roll shaft, 422-dividing plate

423-base plate, 424-supporting plate, 425-installation screwed hole, 43-graduation mark

50-hair dryer, 60-pelleter, 61-hair-dryer, 62-feed pipe

63-cooling hopper, 631-cover plate, 632-inner core, 633-urceolus

634-cooling jacket, 635-discharging section, 636-heat outlet

70-suction vibrating mechanism, 71-feed bin, 72-suction tube, 73-suction bucket

731-separator, 732-suction hole, 733-valve

74-air intake duct, 75-air pump, 76-optoelectronic switch, 77-storage bin hopper

78-bobbing machine, 781-feeding groove, 79-support

80-elevator, 81-lifting hopper, 82-bar magnet, 90-program control packing machine

A-bands B-channel widths H-guide groove thickness

Detailed description of the invention

Below in conjunction with the extruder production system residing for accompanying drawing and bosh, structure of the present utility model and the course of work are elaborated.

As shown in Figure 1; extruder production system comprises homogenizer 10; the port of export of homogenizer 10 is towards the arrival end of conveying bucket 20; the port of export of described conveying bucket 20 is connected with the input of screw extruder 30; the output of screw extruder 30 is provided with bosh 40; the discharge end of described bosh 40 is provided with and carries out air-dry hair dryer 50 to material; the rear side along mass transport direction of hair dryer 50 is provided with pelleter 60, and the outlet side of pelleter 60 is provided with full-automatic suction packing device.

Preferably, as shown in Figure 2, the intermittent stirring control device described conveying bucket 20 being provided with stirring motor 27 and driving stirring motor 27 to run, is provided with the puddler be connected with the output of stirring motor 27 in conveying bucket 20; Described intermittent stirring control device comprises AC power 21, AC power 21 is electrically connected with the input of normally closed switch 22, the output of normally closed switch 22 is then electrically connected with the input of starting switch 23 and the input of latching relay 24 respectively, the output of described latching relay 24 is electrically connected with the input of two setting-up time relay 25, and the output of described pair of setting-up time relay 25 is electrically connected with the signal input part of starter 26; Described AC power 21 is connected with the power input end of starter 26, and the power output end of starter 26 is connected with the power output end of stirring motor 27.

Material enters in screw extruder 30 in conveying bucket 20 and machine-shaping is bands A, and this bands A enters bosh 40 and cools.As shown in Figure 5,6, the present invention is provided with multiple guide roller mechanism 42 in the upside of bosh 40, this multiple guide roller mechanism 42 sets gradually along the length direction of bosh 40, and the roll shaft 421 in guide roller mechanism 42 is set to the length direction perpendicular to bosh 40, in guide roller mechanism 42, be provided with the guide groove 426 of some annulars along the axial length direction of roll shaft 421.

Described guide roller mechanism 42 comprises the bearing being arranged on roll shaft 421 both sides, and described roll shaft 421 is installed in rotation on bearing, and roll shaft 421 is equipped with some discoideus dividing plates 422 along its axial length direction, forms guide groove 426 between adjacent two dividing plates 422; Spacing wherein between adjacent separator 422 is also channel widths B is 2 ~ 3cm, and the radial spacing between the edge of dividing plate 422 and the outer rim of roll shaft 421 is also channel depths H is 5 ~ 6cm.Together with channel widths B and the channel depths H of above-mentioned numerical value can prevent from tangling at a distance of nearer two or many bands A curl up at course of conveying effectively, thus ensure that the smooth delivery of power of bands A.

Bearing in guide roller mechanism 42 comprises base plate 423 and supporting plate 424, and described base plate 423 is provided with positioning spiro pit 425, and described supporting plate 424 and base plate 423 are welded as a whole, and described supporting plate 424 forms to roll with roll shaft 421 and coordinates.

As shown in Figure 5, the outer rim shape of the two side along its length on the upside of the shape of described base plate 423 and bosh 40 is suitable, therefore when on the upside of bearing is arranged on bosh 40, bearing can slide along the length direction of bosh 40, thus operating personnel can regulate the position of guide roller mechanism 42 according to on-site actual situations, but after the position adjustments of guide roller mechanism 42, screwing in bolt by positioning spiro pit 425 can locate guide roller mechanism 42.

Deflector roll in described guide roller mechanism 42 is plastic material.Described base plate 423 and supporting plate 424 are angle bar, and the size of base plate 423 is comparatively large, and the size of supporting plate 424 is less.

It is to be noted, above-mentioned guide roller mechanism 42 in the utility model is also applicable to hair dryer 50, even if two guide roller mechanisms 42 points are located at the both sides of hair dryer 50 by the used time, because the channel widths B in guide roller mechanism 42 is wider, the bands A be then in different guide groove 426 also will separate far away, thus can by clean for the moisture on each bands A clean when hair dryer 50 works.

Further, the utility model is also provided with graduation mark 43 on the sidewall along its length of bosh 40, and described graduation mark 43 is uniform and be arranged in order along the length direction of bosh 40 sidewall.

Described graduation mark 43 can be groove-like or convex, and the graduation mark 43 in the utility model is adhesive in bosh 40 sidewall by the abrasive paper being painted with scale lines and is formed.

In actual production process, because the immersion length of bands A in bosh 40 (yet namely cooling length) of different product is all not identical, and the immersion length of the bands A of identical product under different output is not identical yet.In prior art, as shown in Figure 4, bosh 40 there is no scale mark, bosh 40 is placed with the angle bar 41 that can arbitrarily move, when needing the immersion length adjusting bands A, operating personnel usually promote angle bar 41 and slide into Position Approximate on the upside of boshes 40, as a rule need just can obtain comparatively suitable immersion length through repeatedly adjusting, and also namely the rear bands A of adjustment just may reach comparatively suitable cooling effect repeatedly.

After being provided with graduation mark 43, operating personnel are by the record of the immersion length under different output to the bands A of different product and the bands A of identical product, the graduation mark position corresponding respectively with aforementioned multiple immersion length can be obtained, thus when extruder system produces a certain specific products under a certain output, guide roller mechanism 42 can be fixed on corresponding graduation mark position by operating personnel, thus bands A in bosh 40 after supercooling, pass from cooling water at setting position (namely corresponding graduation mark position) and continue subsequent processing, thus ensure that bands A obtains suitable and cools exactly, achieve the standardization of cooling processing, also ensure that the quality and performance of last gained granular material.

Bands A can enter the feed bin 71 in suction vibrating mechanism 70 successively through bosh 40, hair dryer 50 and pelleter 60.During specific works; as shown in Figure 8; the discharging opening of pelleter 60 is connected with feed pipe 62; one end of feed pipe 62 is provided with hair-dryer 61; hair-dryer 61 is blown in feed pipe 62; granular material in feed pipe 62 enters cooling hopper 63 by the charging aperture cooling hopper 63 top, and enters feed bin 71 by the discharging opening of cooling hopper 63 bottom.

As shown in Figure 9, described cooling hopper 63 comprises the ring-type inner core 632 and ring-type urceolus 633 that arrange with one heart, is provided with cooling jacket 634 between described ring-type inner core 632 and ring-type urceolus 633; The upside of described ring-type inner core 632 and ring-type urceolus 633 is provided with cover plate 631, and described cover plate 631 offers heat outlet 636; The downside of described ring-type inner core 632 and ring-type urceolus 633 is provided with the discharging section 635 of taper, and the bottom of discharging section 636 is the discharging opening of whole cooling hopper 63.

As shown in Figure 8, feed pipe 62 one section of connecting with cooling hopper 63 charging aperture is arranged along the tangential direction cooling hopper 63, then granular material is tangentially entered the inner core 632 of cooling hopper 63 under wind-force effect by feed pipe 62, granular material enters the inwall landing along inner core 632 after inner core 632, the material of higher temperature carries out heat exchange with the cooling water in cooling jacket 634 and lowers the temperature in landing process, be gathered in hot gas in inner core 632 via heat outlet 636 dissipation on cover plate 631, the discharging opening of material after cooling on the downside of cooling hopper 63 enters feed bin 71.

In Fig. 8, the solid arrow in cooling hopper 63 is the traffic direction of material, and dotted arrow is then the traffic direction of hot gas.

Through bosh 40 and the cooling process cooling hopper 63, the material in feed bin 71 can be reduced to comparatively suitable temperature, thus is conducive to follow-up weighing and packaging, ensure that high efficiency and the accuracy of production.

Preferably, as shown in Figure 1,3, described full-automatic suction packing device comprises suction vibrating mechanism 70, elevator 80 and program control packing machine 90; Described suction vibrating mechanism 70 comprises feed bin 71, suction tube 72, suction bucket 73, air intake duct 74 and is arranged on suction bucket 73 lower end for storing the storage bin hopper 77 of material, be provided with the separator 731 for separating of gas and material in described suction bucket 73, storehouse in suction bucket 73 is divided into the air-breathing district being positioned at upside and the material district being positioned at downside by separator 731; One end of described air intake duct 74 is connected with described air-breathing district, and the other end of air intake duct 74 is connected with air pump 75; One end of described suction tube 72 is connected with described material district, and suction tube 72 other end is also that the end of suction end is then embedded in the material of feed bin 71; The opening part leading to storage bin hopper 77 on the downside of described material district is provided with valve 733; Opening part on the downside of storage bin hopper 77 is provided with bobbing machine 78; The material outlet end of bobbing machine 78 is connected with the material inlet end of elevator 80, the material outlet place of described elevator 20 is provided with program control packing machine 90, and described program control packing machine 90, elevator 80, bobbing machine 78 and air pump 75 are all electrically connected with suction packing control device.

Further, as shown in Figure 3, described suction bucket 73 is erected on support 79, and the downside of support 79 is provided with the roller being convenient to support 79 movement.

Because support 79 can be moved by roller, therefore suction bucket 73 also can adjust position by this, to realize better duty.

Separator 31 has multiple implementation, as preferred version of the present utility model, described separator 731 is separating plate, described separating plate is horizontal in suction bucket 73 in storehouse, and separating plate is evenly equipped with the mesh or gap that air feed flows through, and the openings of sizes in the aperture of mesh or gap is all less than the minimum grain size of material.

Adopt separating plate as gas and material separation device, not only structure is simple, and separating effect is better, is also convenient to maintenance in the future and replacement.

Preferably, as shown in Figure 1,3, one end that described suction tube 72 is connected with material district is arranged on the side of material district near air-breathing district.Suction bucket 73 in Fig. 3 is provided with suction hole 732, and described suction hole 732 is arranged on the top in material district, and one end of described suction tube 72 is connected with suction hole 732.This setup of suction tube 72 is conducive to the storage of material in material district, is also convenient to being separated of gas and material further.

Further, as shown in Figure 1,3, the side towards storage bin hopper 77 material inlet of described valve 733 lower end arranges optoelectronic switch 76, and the described optoelectronic switch 76 for monitoring the material memory state in storage bin hopper 77 is electrically connected with suction packing control device.

As the further improvement to technique scheme, described valve 733 is in tabular, and one end of valve 733 and suction bucket 73 form hinged, the other end of valve 733 to be in when air pump 75 quits work under gravity freely sagging, when in suction bucket 73, storehouse is negative pressure then by free end that the outlet cover cap of suction bucket 73 is lived.

As shown in Figure 10, uncovered square groove shape is set at the feeding groove 781 of bobbing machine 78, the downside that feeding groove 781 exports is provided with bar magnet 82, described bar magnet 82 is fixedly installed on the upside promoting hopper 81 in elevator 80, and the axis direction of bar magnet 82 parallels with the bottom land limit 782 in feeding groove 781 exit.

Feeding groove 781 is set to uncovered square groove shape, the conveying situation of convenient operation personal observations material on the one hand, also granular material is made to disperse landing comparatively equably along the bottom land limit of square groove on the other hand, because the axis direction of bar magnet 82 parallels with the bottom land limit 782 in feeding groove 781 exit, and bar magnet 82 is arranged on the downside of feeding groove 781, then the granular material of the overwhelming majority all will pass through from bar magnet 82 side or with bar magnet 82, wiping occur and touch in its landing process, thus when granular material mixes the metal sundries having metallic particles or different shape, the metal sundries of described metallic particles or different shape will be adsorbed on barred body by bar magnet 82 tightly when falling, serve the function removing metallic particles or metal sundries thus, ensure that the degree of purity of material.

Be described further below in conjunction with the course of work of accompanying drawing to extruder production system.

Extruder production system comprises homogenizer 10, conveying bucket 20, screw extruder 30, bosh 40, hair dryer 50, pelleter 60, suction vibrating mechanism 70, elevator 80 and program control packing machine 90.

Material pours homogenizer 10 into by hand charging or other charging methods, after homogenizer 10 stirs, input conveying bucket 20.

In conveying bucket 20, AC power 21 is powered to normally closed switch 22, and normally closed switch 22 is powered respectively to starting switch 23 and latching relay 24, and latching relay 24 is powered to two setting-up time relay 25.Described starting switch 23 is normal open switch, when needs stirring motor 27 works, operating personnel press lower starting switch 23, then starting switch 23 is powered to latching relay 24, latching relay 24 electric and self-locking, and latching relay 24 is powered to two setting-up time relay 25 immediately, two setting-up time relay 25 sends enabling signal to starter 26, power to stirring motor 27 after starter 26 receives enabling signal, and make stirring motor 27 also be obtain electric rotation in first time period in the time period of setting, then ensuing setting time period also namely in the second time period power-off stop operating, stirring motor 27 gap is made to run thus, ensure that the material in conveying bucket 20 caking phenomenon can not occur, also ensure that the smooth downslide of material.

Material in conveying bucket 20, enter the machining area of screw extruder 30 and to be able to machine-shaping be bands; this bands enters bosh 40 and cools; after hair dryer 50 dries up, enter pelleter 60 pelletizing again, the comminution particle that pelleter 60 machining obtains enters the feed bin 71 of suction vibrating mechanism 70.

Described full-automatic suction packing device comprises suction vibrating mechanism 70, elevator 80 and program control packing machine 90, and suction vibrating mechanism 70 comprises the feed bin 71, suction tube 72, suction bucket 73, air intake duct 74, air pump 75, optoelectronic switch 76, storage bin hopper 77 and the bobbing machine 78 that hold material.

The separated device 31 of hopper of described suction bucket 73 is divided into air-breathing district and material district, described suction bucket 73 is erected on support 79, described storage bin hopper 77 is arranged on the downside of suction bucket 73, bobbing machine 78 is arranged on the open lower side place of storage bin hopper 77, elevator 80 is arranged on the side of bobbing machine 78, program control packing machine 90 is arranged on the material outlet end of elevator 80, described suction packing control device is in electric cabinet, electricity cabinet both can be arranged on support 79, also can set firmly on the ground, so that operating personnel's operation.

Booster air pump 75 during work, air pump 75 is bled thus is made to be in negative pressure state in the hopper of suction bucket 73; Now because the suction end end of suction tube 72 is embedded in the material of feed bin 71, therefore first material will be sucked into suction tube 72 from suction end, then material enters the material district of suction bucket 73 along suction tube 72, the gas be sucked together with material into material district then enters air-breathing district by separating plate, and gas is discharged in the outside of whole full-automatic suction packing device by air intake duct 74 immediately; Material then separated plate is trapped in material district; When air pump 75 quits work, under the effect of valve 733 self gravitation and material pressure, valve 733 rotates around its hinged end and opens, then material is just entered in storage bin hopper 77 by the outlet of suction bucket 73.Then air pump 75 starts to carry out next round suction work again.

When air pump 75 starts to carry out next round suction work, material in storage bin hopper 77 is then piled and is dropped on bobbing machine 78, operating personnel are again by control device Vibration on Start-up machine 78, bobbing machine 78 vibration makes the material outlet end of material self-vibration motivation 78 enter the material inlet end of elevator 80, material is delivered to the material outlet end of elevator 80 immediately by elevator 80, material enters program control packing machine 90 from the material outlet end of elevator 80, to complete whole packaging process.

When elevator 80 or bobbing machine 78 break down and quit work, material in storage bin hopper 77 will owing to can not be piled up by being transported away in time gradually, therefore the height of materials in storage bin hopper 77 will increase gradually, when the solid accumulation in storage bin hopper 77 is to setting height or solid accumulation to the material inlet place of storage bin hopper 77, the optoelectronic switch 76 being arranged on valve 733 lower end sends set information or warning message to suction vibration control apparatus, suction vibration control apparatus sends information immediately makes air pump 75 quit work, to wait for operating personnel's repair and maintenance.

Claims (6)

1., for a bosh for extruder production system, it is characterized in that:

Described bosh (40) sidewall is along its length provided with graduation mark (43), and described graduation mark (43) is uniform and be arranged in order along the length direction of bosh (40) sidewall;

The upside of described bosh (40) cell body is provided with multiple guide roller mechanism (42), this multiple guide roller mechanism (42) sets gradually along the length direction of bosh (40), any one guide roller mechanism is provided with deflector roll in (42), and described deflector roll is provided with the guide groove (426) for directing material transmission.

2. a kind of bosh for extruder production system according to claim 1, it is characterized in that: the deflector roll in described guide roller mechanism (42) comprises roll shaft (421) and is arranged on the some dividing plates (422) on roll shaft (421) along the axial length direction of roll shaft (421), described roll shaft (421) is set to the length direction perpendicular to bosh (40), forms the guide groove (426) of annular between adjacent separator (422); Spacing between adjacent separator (422) is also channel widths (B) is 2 ~ 3cm, and the radial spacing between the edge of dividing plate (422) and the outer rim of roll shaft (421) is also channel depths (H) is 5 ~ 6cm.

3. a kind of bosh for extruder production system according to claim 1, is characterized in that: described graduation mark (43) is adhesive on bosh (40) sidewall by the abrasive paper being painted with scale lines and is formed.

4. a kind of bosh for extruder production system according to claim 2, is characterized in that: the deflector roll in described guide roller mechanism (42) is plastic material.

5. a kind of bosh for extruder production system according to claim 2 or 4, it is characterized in that: described guide roller mechanism (42) also comprises the bearing being arranged on roll shaft (421) both sides, described bearing comprises base plate (423) and is arranged on the supporting plate (424) of base plate (423) upside, described base plate (423) is provided with positioning spiro pit (425), described supporting plate (424) and base plate (423) are welded as a whole, and described roll shaft (421) is installed in rotation on described supporting plate (424).

6. a kind of bosh for extruder production system according to claim 5, it is characterized in that: described base plate (423) and supporting plate (424) are angle bar, and the size of base plate (423) is comparatively large, the size of supporting plate (424) is less.